Regular simulation: ./Buildings_master_Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase -abortSlowSimulation -alarm=480 -lv LOG_STATS stdout | info | ... loading "tab1" from "/var/lib/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 9.0.0-master/Resources/Data/Obsolete/DistrictHeatingCooling/SubStations/VaporCompression/RefBldgLargeOfficeNew2004_7.1_5.0_3C_USA_CA_SAN_FRANCISCO.mos" stdout | info | ... loading "tab1" from "/var/lib/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 9.0.0-master/Resources/Data/Obsolete/DistrictHeatingCooling/SubStations/VaporCompression/RefBldgStand-aloneRetailNew2004_7.1_5.0_3C_USA_CA_SAN_FRANCISCO.mos" stdout | info | ... loading "tab1" from "/var/lib/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 9.0.0-master/Resources/Data/Obsolete/DistrictHeatingCooling/SubStations/VaporCompression/RefBldgMidriseApartmentNew2004_7.1_5.0_3C_USA_CA_SAN_FRANCISCO.mos" stdout | info | ... loading "tab1" from "/var/lib/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 9.0.0-master/Resources/weatherdata/USA_CA_San.Francisco.Intl.AP.724940_TMY3.mos" assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | larOff1.pumHea.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | larOff1.pumHotWat.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | larOff1.pumChi.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | ret1.pumHea.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | ret1.pumHotWat.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | ret1.pumChi.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | larOff2.pumHea.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | larOff2.pumHotWat.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | larOff2.pumChi.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | apa1.pumHea.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | apa1.pumHotWat.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | apa1.pumChi.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | larOff3.pumHea.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | larOff3.pumHotWat.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | larOff3.pumChi.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | larOff4.pumHea.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | larOff4.pumHotWat.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | larOff4.pumChi.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | apa2.pumHea.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | apa2.pumHotWat.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | apa2.pumChi.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | ret2.pumHea.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | ret2.pumHotWat.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. assert | warning | The following assertion has been violated during initialization at time 0.000000 | | | | ret2.pumChi.nominalValuesDefineDefaultPressureCurve assert | warning | *** Warning: You are using a flow or pressure controlled mover with the | | | | default pressure curve. | | | | This leads to approximate calculations of the electrical power | | | | consumption. Add the correct pressure curve in the record per | | | | to obtain an accurate computation. | | | | Setting nominalValuesDefineDefaultPressureCurve=true will suppress this warning. LOG_SUCCESS | info | The initialization finished successfully without homotopy method. assert | warning | The following assertion has been violated at time 50457.600000 | | | | larOff1.heaPum.m2_flow >= 0.0 and larOff1.heaPum.m2_flow <= 100000.0 assert | warning | Variable violating min/max constraint: 0.0 <= larOff1.heaPum.m2_flow <= 100000.0, has value: -1.81687e-269 assert | warning | The following assertion has been violated at time 50457.600000 | | | | larOff2.heaPum.m2_flow >= 0.0 and larOff2.heaPum.m2_flow <= 100000.0 assert | warning | Variable violating min/max constraint: 0.0 <= larOff2.heaPum.m2_flow <= 100000.0, has value: -1.81687e-269 assert | warning | The following assertion has been violated at time 50457.600000 | | | | larOff3.heaPum.m2_flow >= 0.0 and larOff3.heaPum.m2_flow <= 100000.0 assert | warning | Variable violating min/max constraint: 0.0 <= larOff3.heaPum.m2_flow <= 100000.0, has value: -1.81687e-269 assert | warning | The following assertion has been violated at time 50457.600000 | | | | larOff4.heaPum.m2_flow >= 0.0 and larOff4.heaPum.m2_flow <= 100000.0 assert | warning | Variable violating min/max constraint: 0.0 <= larOff4.heaPum.m2_flow <= 100000.0, has value: -1.81687e-269 assert | warning | The following assertion has been violated at time 63072.000000 | | | | ret1.chi.m1_flow >= 0.0 and ret1.chi.m1_flow <= 100000.0 assert | warning | Variable violating min/max constraint: 0.0 <= ret1.chi.m1_flow <= 100000.0, has value: -6.21032e-171 assert | warning | The following assertion has been violated at time 63072.000000 | | | | ret2.chi.m1_flow >= 0.0 and ret2.chi.m1_flow <= 100000.0 assert | warning | Variable violating min/max constraint: 0.0 <= ret2.chi.m1_flow <= 100000.0, has value: -6.21032e-171 assert | warning | The following assertion has been violated at time 81993.600000 | | | | ret1.heaPum.m2_flow >= 0.0 and ret1.heaPum.m2_flow <= 100000.0 assert | warning | Variable violating min/max constraint: 0.0 <= ret1.heaPum.m2_flow <= 100000.0, has value: -2.24782e-63 assert | warning | The following assertion has been violated at time 81993.600000 | | | | ret2.heaPum.m2_flow >= 0.0 and ret2.heaPum.m2_flow <= 100000.0 assert | warning | Variable violating min/max constraint: 0.0 <= ret2.heaPum.m2_flow <= 100000.0, has value: -2.24782e-63 assert | warning | The following assertion has been violated at time 151372.800000 | | | | larOff1.chi.m1_flow >= 0.0 and larOff1.chi.m1_flow <= 100000.0 assert | warning | Variable violating min/max constraint: 0.0 <= larOff1.chi.m1_flow <= 100000.0, has value: -4.81984e-181 assert | warning | The following assertion has been violated at time 151372.800000 | | | | larOff2.chi.m1_flow >= 0.0 and larOff2.chi.m1_flow <= 100000.0 assert | warning | Variable violating min/max constraint: 0.0 <= larOff2.chi.m1_flow <= 100000.0, has value: -4.81984e-181 assert | warning | The following assertion has been violated at time 151372.800000 | | | | larOff3.chi.m1_flow >= 0.0 and larOff3.chi.m1_flow <= 100000.0 assert | warning | Variable violating min/max constraint: 0.0 <= larOff3.chi.m1_flow <= 100000.0, has value: -4.81984e-181 assert | warning | The following assertion has been violated at time 151372.800000 | | | | larOff4.chi.m1_flow >= 0.0 and larOff4.chi.m1_flow <= 100000.0 assert | warning | Variable violating min/max constraint: 0.0 <= larOff4.chi.m1_flow <= 100000.0, has value: -4.81984e-181 assert | warning | The following assertion has been violated at time 227059.200000 | | | | apa1.heaPum.m2_flow >= 0.0 and apa1.heaPum.m2_flow <= 100000.0 assert | warning | Variable violating min/max constraint: 0.0 <= apa1.heaPum.m2_flow <= 100000.0, has value: -9.99764e-25 assert | warning | The following assertion has been violated at time 227059.200000 | | | | apa2.heaPum.m2_flow >= 0.0 and apa2.heaPum.m2_flow <= 100000.0 assert | warning | Variable violating min/max constraint: 0.0 <= apa2.heaPum.m2_flow <= 100000.0, has value: -9.99764e-25 assert | warning | The following assertion has been violated at time 1217289.600000 | | | | apa1.chi.m1_flow >= 0.0 and apa1.chi.m1_flow <= 100000.0 assert | warning | Variable violating min/max constraint: 0.0 <= apa1.chi.m1_flow <= 100000.0, has value: -3.76158e-37 assert | warning | The following assertion has been violated at time 1217289.600000 | | | | apa2.chi.m1_flow >= 0.0 and apa2.chi.m1_flow <= 100000.0 assert | warning | Variable violating min/max constraint: 0.0 <= apa2.chi.m1_flow <= 100000.0, has value: -3.76158e-37 assert | warning | The following assertion has been violated at time 7246972.800000 | | | | noEvent(abs(apa2.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * apa2.heaPum.eva.vol.steBal.m_flow_small, abs(apa2.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.apa2.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 0.146818 W and the mass flow rate equals -1.95867e-08 kg/s, | | | | which results in a temperature difference 388.576 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. stdout | warning | Integrator attempt to handle a problem with a called assert. assert | warning | The following assertion has been violated at time 7398345.600000 | | | | noEvent(abs(larOff4.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff4.heaPum.eva.vol.steBal.m_flow_small, abs(larOff4.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff4.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.46647 W and the mass flow rate equals -1.27481e-06 kg/s, | | | | which results in a temperature difference 358.018 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWater3ClustersBaseCase.larOff1.heaPum.eva.vol.steBal: | | | | The heat flow rate equals 5.31855 W and the mass flow rate equals -1.33368e-06 kg/s, | | | | which results in a temperature difference 348.33 K > dTMax=200 K. | | | | This may indicate that energy is not conserved for small mass flow rates. | | | | The implementation may require prescribedHeatFlowRate = false. assert | warning | The following assertion has been violated at time 7392038.400000 | | | | noEvent(abs(larOff1.heaPum.eva.Q_flow) < 836800.0 * max(0.001 * larOff1.heaPum.eva.vol.steBal.m_flow_small, abs(larOff1.heaPum.m2_flow))) assert | error | In Buildings.Obsolete.DistrictHeatingCooling.Examples.HeatingCoolingHotWate