Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries --ompython_omhome=/usr ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.conf.json loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.1.0+maint.om/package.mo", uses=false) [Timeout 180] "Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.1.0+maint.om/package.mo): time 0.0007455/0.0007455, allocations: 80.25 kB / 20.06 MB, free: 4.465 MB / 18.57 MB " [Timeout remaining time 180] loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.1.0+maint.om/package.mo", uses=false) [Timeout 180] "Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.1.0+maint.om/package.mo): time 0.000733/0.000733, allocations: 173.9 kB / 23.36 MB, free: 1.16 MB / 18.57 MB " [Timeout remaining time 180] loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/package.mo", uses=false) [Timeout 180] "Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/package.mo): time 0.9192/0.9192, allocations: 177.1 MB / 203.7 MB, free: 5.695 MB / 186.7 MB " [Timeout remaining time 179] loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/package.mo", uses=false) [Timeout 180] "Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/package.mo): time 0.6757/0.6757, allocations: 116 MB / 376.2 MB, free: 4.152 MB / 346.7 MB " [Timeout remaining time 179] Using package ThermofluidStream with version 1.3.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/package.mo) Using package Modelica with version 4.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/package.mo) Using package Complex with version 4.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.1.0+maint.om/package.mo) Using package ModelicaServices with version 4.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.1.0+maint.om/package.mo) Running command: translateModel(ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor,tolerance=1e-06,outputFormat="mat",numberOfIntervals=100,variableFilter="CPUtime|EventCounter|NonlinearSystems.simulation.1..Calls|NonlinearSystems.simulation.1..Iterations|NonlinearSystems.simulation.1..Jacobians|NonlinearSystems.simulation.1..Residues|Time|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.H0|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.Hf|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.MM|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.R_s|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.Tlimit|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.ahigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.ahigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.ahigh.3.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.ahigh.4.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.ahigh.5.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.ahigh.6.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.ahigh.7.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.alow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.alow.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.alow.3.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.alow.4.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.alow.5.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.alow.6.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.alow.7.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.bhigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.bhigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.blow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.blow.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.H0|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.Hf|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.MM|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.R_s|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.Tlimit|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.ahigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.ahigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.ahigh.3.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.ahigh.4.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.ahigh.5.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.ahigh.6.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.ahigh.7.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.alow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.alow.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.alow.3.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.alow.4.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.alow.5.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.alow.6.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.alow.7.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.bhigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.bhigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.blow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.blow.2.|dropOfCommons.L|dropOfCommons.assertionLevel|dropOfCommons.g|dropOfCommons.instanceNameColor.1.|dropOfCommons.instanceNameColor.2.|dropOfCommons.instanceNameColor.3.|dropOfCommons.k_volume_damping|dropOfCommons.m_flow_reg|dropOfCommons.omega_reg|dropOfCommons.p_min|dropOfCommons.rho_min|eta|fullMedium.L|fullMedium.P|fullMedium.P_nom|fullMedium.P_out|fullMedium.TC|fullMedium.adiabaticModel.eta_is|fullMedium.adiabaticModel.h_in|fullMedium.adiabaticModel.h_out|fullMedium.adiabaticModel.h_out_is|fullMedium.adiabaticModel.p_out|fullMedium.adiabaticModel.s_in|fullMedium.adiabaticModel.state_in.T|fullMedium.adiabaticModel.state_in.p|fullMedium.adiabaticModel.w_t|fullMedium.adiabaticModel.w_t_is|fullMedium.assertionLevel|fullMedium.clip_p_out|der.fullMedium.pRatio.|fullMedium.dh|fullMedium.dp|fullMedium.dp_fixed|fullMedium.dp_nom|fullMedium.dp_start|fullMedium.dr_corr|fullMedium.etaSpec|fullMedium.eta_actual|fullMedium.eta_fixed|fullMedium.eta_is|fullMedium.h_in|fullMedium.h_out|fullMedium.initM_flow|der.fullMedium.inlet.m_flow.|fullMedium.inlet.m_flow|fullMedium.inlet.r|fullMedium.inlet.state.T|fullMedium.inlet.state.p|fullMedium.m_acceleration_0|fullMedium.m_flow|fullMedium.m_flowStateSelect|fullMedium.m_flow_0|fullMedium.outlet.m_flow|fullMedium.outlet.r|fullMedium.outlet.state.T|fullMedium.outlet.state.p|fullMedium.outletSpec|fullMedium.outletSpec_actual|fullMedium.outletSpec_prescribed|fullMedium.outletValueSpec|fullMedium.pRatio|fullMedium.pRatio_fixed|fullMedium.p_in|fullMedium.p_min|fullMedium.p_out|fullMedium.p_out_fixed|fullMedium.singularityRegime|fullMedium1.L|fullMedium1.P|fullMedium1.P_in|fullMedium1.P_nom|fullMedium1.TC|fullMedium1.adiabaticModel.eta_is|fullMedium1.adiabaticModel.h_in|fullMedium1.adiabaticModel.h_out|fullMedium1.adiabaticModel.h_out_is|fullMedium1.adiabaticModel.p_out|fullMedium1.adiabaticModel.s_in|fullMedium1.adiabaticModel.state_in.T|fullMedium1.adiabaticModel.state_in.p|fullMedium1.adiabaticModel.w_t|fullMedium1.adiabaticModel.w_t_is|fullMedium1.assertionLevel|fullMedium1.clip_p_out|der.fullMedium1.dp.|fullMedium1.dh|fullMedium1.dp|fullMedium1.dp_fixed|fullMedium1.dp_nom|fullMedium1.dp_start|fullMedium1.dr_corr|fullMedium1.etaSpec|fullMedium1.eta_actual|fullMedium1.eta_fixed|fullMedium1.eta_is|fullMedium1.h_in|fullMedium1.h_out|fullMedium1.initM_flow|der.fullMedium1.inlet.m_flow.|fullMedium1.inlet.m_flow|fullMedium1.inlet.r|fullMedium1.inlet.state.T|fullMedium1.inlet.state.p|fullMedium1.m_acceleration_0|fullMedium1.m_flow|fullMedium1.m_flowStateSelect|fullMedium1.m_flow_0|fullMedium1.outlet.m_flow|fullMedium1.outlet.r|fullMedium1.outlet.state.T|fullMedium1.outlet.state.p|fullMedium1.outletSpec_actual|fullMedium1.pRatio|fullMedium1.pRatio_fixed|fullMedium1.p_in|fullMedium1.p_min|fullMedium1.p_out|fullMedium1.p_out_fixed|fullMedium1.singularityRegime|fullMedium2.P|fullMedium2.P_in|fullMedium2.P_nom|fullMedium2.TC|fullMedium2.adiabaticModel.eta_is|fullMedium2.adiabaticModel.h_in|fullMedium2.adiabaticModel.h_out|fullMedium2.adiabaticModel.h_out_is|fullMedium2.adiabaticModel.p_out|fullMedium2.adiabaticModel.s_in|fullMedium2.adiabaticModel.state_in.T|fullMedium2.adiabaticModel.state_in.p|fullMedium2.adiabaticModel.w_t|fullMedium2.adiabaticModel.w_t_is|fullMedium2.assertionLevel|fullMedium2.clip_p_out|fullMedium2.dh|fullMedium2.dp|fullMedium2.dp_fixed|fullMedium2.dp_nom|fullMedium2.dp_start|fullMedium2.dr_corr|fullMedium2.etaSpec|fullMedium2.eta_actual|fullMedium2.eta_fixed|fullMedium2.eta_is|fullMedium2.h_in|fullMedium2.h_out|fullMedium2.initM_flow|fullMedium2.inlet.m_flow|fullMedium2.inlet.r|fullMedium2.inlet.state.T|fullMedium2.inlet.state.p|fullMedium2.m_acceleration_0|fullMedium2.m_flow|fullMedium2.m_flowStateSelect|fullMedium2.m_flow_0|fullMedium2.outlet.m_flow|fullMedium2.outlet.r|fullMedium2.outlet.state.T|fullMedium2.outlet.state.p|fullMedium2.outletSpec|fullMedium2.outletSpec_actual|fullMedium2.outletSpec_prescribed|fullMedium2.outletValueSpec|fullMedium2.pRatio|fullMedium2.pRatio_fixed|fullMedium2.p_in|fullMedium2.p_min|fullMedium2.p_out|fullMedium2.p_out_fixed|fullMedium2.singularityRegime|fullMedium3.L|fullMedium3.P|fullMedium3.P_in|fullMedium3.P_nom|fullMedium3.TC|fullMedium3.adiabaticModel.eta_is|fullMedium3.adiabaticModel.h_in|fullMedium3.adiabaticModel.h_out|fullMedium3.adiabaticModel.h_out_is|fullMedium3.adiabaticModel.p_out|fullMedium3.adiabaticModel.s_in|fullMedium3.adiabaticModel.state_in.T|fullMedium3.adiabaticModel.state_in.p|fullMedium3.adiabaticModel.w_t|fullMedium3.adiabaticModel.w_t_is|fullMedium3.assertionLevel|fullMedium3.clip_p_out|der.fullMedium3.dp.|fullMedium3.dh|fullMedium3.dp|fullMedium3.dp_fixed|fullMedium3.dp_nom|fullMedium3.dp_start|fullMedium3.dr_corr|fullMedium3.etaSpec|fullMedium3.eta_actual|fullMedium3.eta_fixed|fullMedium3.eta_is|fullMedium3.h_in|fullMedium3.h_out|fullMedium3.initM_flow|der.fullMedium3.inlet.m_flow.|fullMedium3.inlet.m_flow|fullMedium3.inlet.r|fullMedium3.inlet.state.T|fullMedium3.inlet.state.p|fullMedium3.m_acceleration_0|fullMedium3.m_flow|fullMedium3.m_flowStateSelect|fullMedium3.m_flow_0|fullMedium3.outlet.m_flow|fullMedium3.outlet.r|fullMedium3.outlet.state.T|fullMedium3.outlet.state.p|fullMedium3.outletSpec_actual|fullMedium3.pRatio|fullMedium3.pRatio_fixed|fullMedium3.p_in|fullMedium3.p_min|fullMedium3.p_out|fullMedium3.p_out_fixed|fullMedium3.singularityRegime|gain.k|gain.u|gain.y|gain1.k|gain1.u|gain1.y|gain2.k|gain2.u|gain2.y|idealGasConstantGamma.L|idealGasConstantGamma.P|idealGasConstantGamma.P_nom|idealGasConstantGamma.P_out|idealGasConstantGamma.TC|idealGasConstantGamma.adiabaticModel.T_out_is|idealGasConstantGamma.adiabaticModel.Z_in|i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[Timeout 660] "Notification: Performance of FrontEnd - Absyn->SCode: time 1.909e-05/1.909e-05, allocations: 4.562 kB / 0.5549 GB, free: 12.54 MB / 490.7 MB Notification: Performance of NFInst.instantiate(ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor): time 0.5364/0.5364, allocations: 323.5 MB / 0.8709 GB, free: 9.227 MB / 0.7136 GB Notification: Performance of NFInst.instExpressions: time 0.01958/0.556, allocations: 15.99 MB / 0.8865 GB, free: 9.199 MB / 0.7292 GB Notification: Performance of NFInst.updateImplicitVariability: time 0.004982/0.561, allocations: 261.4 kB / 0.8867 GB, free: 8.941 MB / 0.7292 GB Notification: Performance of NFTyping.typeComponents: time 0.005141/0.5661, allocations: 1.702 MB / 0.8884 GB, free: 7.227 MB / 0.7292 GB Notification: Performance of NFTyping.typeBindings: time 0.01753/0.5837, allocations: 6.516 MB / 0.8948 GB, free: 0.6719 MB / 0.7292 GB Notification: Performance of NFTyping.typeClassSections: time 0.01065/0.5943, allocations: 4.21 MB / 0.8989 GB, free: 12.45 MB / 0.7448 GB Notification: Performance of NFFlatten.flatten: time 0.01197/0.6063, allocations: 9.026 MB / 0.9077 GB, free: 3.391 MB / 0.7448 GB Notification: Performance of NFFlatten.resolveConnections: time 0.002252/0.6085, allocations: 0.5062 MB / 0.9082 GB, free: 2.84 MB / 0.7448 GB Notification: Performance of NFEvalConstants.evaluate: time 0.01641/0.6249, allocations: 6.244 MB / 0.9143 GB, free: 12.58 MB / 0.7605 GB Notification: Performance of NFSimplifyModel.simplify: time 0.004197/0.6291, allocations: 1.686 MB / 0.9159 GB, free: 10.89 MB / 0.7605 GB Notification: Performance of NFPackage.collectConstants: time 0.001582/0.6307, allocations: 304 kB / 0.9162 GB, free: 10.59 MB / 0.7605 GB Notification: Performance of NFFlatten.collectFunctions: time 0.01243/0.6431, allocations: 4.538 MB / 0.9206 GB, free: 6.043 MB / 0.7605 GB Notification: Performance of combineBinaries: time 0.007737/0.6509, allocations: 7.932 MB / 0.9284 GB, free: 14.03 MB / 0.7761 GB Notification: Performance of replaceArrayConstructors: time 0.005229/0.6561, allocations: 5.09 MB / 0.9334 GB, free: 8.895 MB / 0.7761 GB Notification: Performance of NFVerifyModel.verify: time 0.001642/0.6578, allocations: 404 kB / 0.9337 GB, free: 8.5 MB / 0.7761 GB [/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/Idealized/Processes/AdiabaticThermodynamicModels/BaseClasses/PartialIdealGas.mo:14:5-14:72:writable] Error: Variable ThermodynamicValueSpecification.Fixed not found in scope ThermodynamicModel. [/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/Idealized/Processes/AdiabaticThermodynamicModels/BaseClasses/PartialIdealGas.mo:22:5-22:72:writable] Error: Variable ThermodynamicValueSpecification.State not found in scope ThermodynamicModel. [/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/Idealized/Processes/AdiabaticThermodynamicModels/BaseClasses/PartialIdealGas.mo:34:5-34:72:writable] Error: Variable ThermodynamicValueSpecification.State not found in scope ThermodynamicModel. [/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/Idealized/Processes/AdiabaticThermodynamicModels/BaseClasses/PartialIdealGas.mo:51:5-51:72:writable] Error: Variable ThermodynamicValueSpecification.State not found in scope ThermodynamicModel. [/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/Idealized/Processes/AdiabaticThermodynamicModels/BaseClasses/PartialIdealGas.mo:14:5-14:72:writable] Error: Variable ThermodynamicValueSpecification.Fixed not found in scope ThermodynamicModel. [/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/Idealized/Processes/AdiabaticThermodynamicModels/BaseClasses/PartialIdealGas.mo:22:5-22:72:writable] Error: Variable ThermodynamicValueSpecification.State not found in scope ThermodynamicModel. [/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/Idealized/Processes/AdiabaticThermodynamicModels/BaseClasses/PartialIdealGas.mo:34:5-34:72:writable] Error: Variable ThermodynamicValueSpecification.State not found in scope ThermodynamicModel. [/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/Idealized/Processes/AdiabaticThermodynamicModels/BaseClasses/PartialIdealGas.mo:51:5-51:72:writable] Error: Variable ThermodynamicValueSpecification.State not found in scope ThermodynamicModel. [/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/Idealized/Processes/AdiabaticThermodynamicModels/BaseClasses/PartialIdealGas.mo:14:5-14:72:writable] Error: Variable ThermodynamicValueSpecification.Fixed not found in scope ThermodynamicModel. [/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/Idealized/Processes/AdiabaticThermodynamicModels/BaseClasses/PartialIdealGas.mo:22:5-22:72:writable] Error: Variable ThermodynamicValueSpecification.State not found in scope ThermodynamicModel. [/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/Idealized/Processes/AdiabaticThermodynamicModels/BaseClasses/PartialIdealGas.mo:34:5-34:72:writable] Error: Variable ThermodynamicValueSpecification.State not found in scope ThermodynamicModel. [/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/Idealized/Processes/AdiabaticThermodynamicModels/BaseClasses/PartialIdealGas.mo:51:5-51:72:writable] Error: Variable ThermodynamicValueSpecification.State not found in scope ThermodynamicModel. [/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/Idealized/Processes/AdiabaticThermodynamicModels/BaseClasses/PartialIdealGas.mo:14:5-14:72:writable] Error: Variable ThermodynamicValueSpecification.Fixed not found in scope ThermodynamicModel. [/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/Idealized/Processes/AdiabaticThermodynamicModels/BaseClasses/PartialIdealGas.mo:22:5-22:72:writable] Error: Variable ThermodynamicValueSpecification.State not found in scope ThermodynamicModel. [/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/Idealized/Processes/AdiabaticThermodynamicModels/BaseClasses/PartialIdealGas.mo:34:5-34:72:writable] Error: Variable ThermodynamicValueSpecification.State not found in scope ThermodynamicModel. [/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/Idealized/Processes/AdiabaticThermodynamicModels/BaseClasses/PartialIdealGas.mo:51:5-51:72:writable] Error: Variable ThermodynamicValueSpecification.State not found in scope ThermodynamicModel. Notification: Performance of FrontEnd: time 0.7598/1.418, allocations: 22.55 MB / 0.9558 GB, free: 25.75 MB / 0.7762 GB Notification: Model statistics after passing the front-end and creating the data structures used by the back-end: * Number of equations: 731 (687) * Number of variables: 731 (731) Notification: Performance of [SIM] Bindings: time 0.0186/1.436, allocations: 18.78 MB / 0.9741 GB, free: 24.71 MB / 0.7762 GB Notification: Performance of [SIM] FunctionAlias: time 0.007739/1.444, allocations: 4.24 MB / 0.9783 GB, free: 24 MB / 0.7762 GB Notification: Performance of [SIM] Early Inline: time 0.02605/1.47, allocations: 21.09 MB / 0.9988 GB, free: 23 MB / 0.7762 GB Notification: Performance of [SIM] Simplify 1: time 0.006817/1.477, allocations: 3.575 MB / 1.002 GB, free: 21.46 MB / 0.7762 GB Notification: Performance of [SIM] Alias: time 0.02923/1.506, allocations: 20.03 MB / 1.022 GB, free: 15.96 MB / 0.7762 GB Notification: Performance of [SIM] Simplify 2: time 0.004384/1.51, allocations: 3.253 MB / 1.025 GB, free: 14.4 MB / 0.7762 GB Notification: Performance of [SIM] Remove Stream: time 0.002772/1.513, allocations: 1.304 MB / 1.026 GB, free: 14.16 MB / 0.7762 GB Notification: Performance of [SIM] Detect States: time 0.008939/1.522, allocations: 4.754 MB / 1.031 GB, free: 13.65 MB / 0.7762 GB Notification: Performance of [SIM] Events: time 0.002021/1.524, allocations: 0.9412 MB / 1.032 GB, free: 13.52 MB / 0.7762 GB Notification: Performance of [SIM] Partitioning: time 0.01276/1.537, allocations: 6.571 MB / 1.038 GB, free: 12.65 MB / 0.7762 GB Error: Internal error NBSorting.tarjan failed to sort system: System Variables (700/716) **************************** (1|1) [DISC] (1) Integer $FUN_76 (2|2) [DISC] (1) Integer $FUN_75 (3|3) [DISC] (1) Integer $FUN_74 (4|4) [DISC] (1) Integer $FUN_73 (5|5) [ALGB] (1) Real $FUN_8.p (6|6) [ALGB] (1) final Real idealGasConstantGamma.adiabaticModel.isInletIdealGas = CAST(Real, sign((1.0 + idealGasConstantGamma.adiabaticModel.relTolZ) - idealGasConstantGamma.adiabaticModel.Z_in) * sign(idealGasConstantGamma.adiabaticModel.Z_in - 1.0 / (idealGasConstantGamma.adiabaticModel.relTolZ + 1.0))) (7|7) [ALGB] (1) Real $FUN_7.p (8|8) [ALGB] (1) Real $FUN_59.T (9|9) [ALGB] (1) Real $FUN_4.p (10|10) [DSTA] (1) Real $FUN_3.p (11|11) [ALGB] (1) Real $FUN_2.p (12|12) [ALGB] (1) Real $FUN_202.p (13|13) [ALGB] (1) Real $FUN_1.p (14|14) [ALGB] (1) Real $FUN_54.T (15|15) [ALGB] (1) Real $FUN_53.T (16|16) [ALGB] (1) Real $FUN_115.p (17|17) [ALGB] (1) Real $FUN_52.T (18|18) [ALGB] (1) Real $FUN_68 (19|19) [ALGB] (1) final input Real fullMedium.adiabaticModel.state_in.T = fullMedium.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (20|20) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.state_out.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (21|21) [ALGB] (1) final Real idealGasConstantGamma2.adiabaticModel.state_out.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (22|22) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.state_out.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (23|23) [ALGB] (1) Real $FUN_65 (24|24) [ALGB] (1) Real $FUN_64 (25|25) [ALGB] (1) Real $FUN_63 (26|26) [ALGB] (1) Real $FUN_49.T (27|27) [ALGB] (1) Real $FUN_48.T (28|28) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.Z_in (29|29) [DER-] (1) Real $DER.fullMedium1.dp (30|30) [DSTA] (1) Real $FUN_43.T (31|31) [ALGB] (1) final Real idealGasConstantGamma2.adiabaticModel.Z_in (32|32) [DSTA] (1) Real $FUN_42.T (33|33) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.Z_in (34|34) [ALGB] (1) Real $FUN_41.T (35|35) [ALGB] (1) Real sink9.p = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.sink9.Medium.pressure(sink9.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (36|36) [ALGB] (1) Real idealGasConstantGamma3.singularityRegime (37|37) [ALGB] (1) Real idealGasConstantGamma2.singularityRegime (38|38) [DSTA] (1) Real perfetGas.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas.Medium.specificEnthalpy(perfetGas.inlet.state) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (39|39) [ALGB] (1) Real idealGasConstantGamma1.singularityRegime (40|40) [ALGB] (1) Real sink7.p = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.sink7.Medium.pressure(sink7.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (41|41) [ALGB] (1) final input Real idealGasConstantGamma3.adiabaticModel.state_in.T = idealGasConstantGamma3.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (42|42) [ALGB] (1) Real sink5.p = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.sink5.Medium.pressure(sink5.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (43|43) [DSTA] (1) final input Real idealGasConstantGamma2.adiabaticModel.state_in.T = idealGasConstantGamma2.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (44|44) [ALGB] (1) Real $FUN_58 (45|45) [ALGB] (1) final input Real idealGasConstantGamma1.adiabaticModel.state_in.T = idealGasConstantGamma1.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (46|46) [ALGB] (1) Real fullMedium.p_out (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (47|47) [ALGB] (1) Real $FUN_57 (48|48) [ALGB] (1) Real sink3.p = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.sink3.Medium.pressure(sink3.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (49|49) [ALGB] (1) Real $FUN_56 (50|50) [ALGB] (1) Real sink2.p = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.sink2.Medium.pressure(sink2.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (51|51) [ALGB] (1) output Real fullMedium.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (52|52) [ALGB] (1) Real sink1.p = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.sink1.Medium.pressure(sink1.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (53|53) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.isOutletIdealGas = CAST(Real, sign((1.0 + idealGasConstantGamma1.adiabaticModel.relTolZ) - idealGasConstantGamma1.adiabaticModel.Z_out) * sign(idealGasConstantGamma1.adiabaticModel.Z_out - 1.0 / (idealGasConstantGamma1.adiabaticModel.relTolZ + 1.0))) (54|54) [ALGB] (1) final Real idealGasConstantGamma2.adiabaticModel.isOutletIdealGas = CAST(Real, sign((1.0 + idealGasConstantGamma2.adiabaticModel.relTolZ) - idealGasConstantGamma2.adiabaticModel.Z_out) * sign(idealGasConstantGamma2.adiabaticModel.Z_out - 1.0 / (idealGasConstantGamma2.adiabaticModel.relTolZ + 1.0))) (55|55) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.isOutletIdealGas = CAST(Real, sign((1.0 + idealGasConstantGamma3.adiabaticModel.relTolZ) - idealGasConstantGamma3.adiabaticModel.Z_out) * sign(idealGasConstantGamma3.adiabaticModel.Z_out - 1.0 / (idealGasConstantGamma3.adiabaticModel.relTolZ + 1.0))) (56|56) [ALGB] (1) Real $FUN_51 (57|57) [ALGB] (1) Real $FUN_50 (58|58) [ALGB] (1) Real $FUN_36.T (59|59) [ALGB] (1) Real $FUN_35.T (60|60) [DSTA] (1) input Real idealGasConstantGamma.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (61|61) [ALGB] (1) Real $FUN_34.T (62|62) [DSTA] (1) Real $FUN_31.T (63|63) [DSTA] (1) Real $FUN_30.T (64|64) [ALGB] (1) final Real perfetGas.adiabaticModel.state_out.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (65|65) [ALGB] (1) input Real sink10.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (66|66) [ALGB] (1) input Real sink11.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (67|67) [ALGB] (1) Real $FUN_47 (68|68) [ALGB] (1) Real perfetGas1.pRatio = perfetGas1.p_out / perfetGas1.p_in (69|69) [ALGB] (1) Real $FUN_46 (70|70) [DSTA] (1) Real perfetGas2.pRatio = perfetGas2.p_out / perfetGas2.p_in (71|71) [ALGB] (1) Real $FUN_45 (72|72) [ALGB] (1) Real perfetGas3.pRatio = perfetGas3.p_out / perfetGas3.p_in (73|73) [ALGB] (1) Real $FUN_40 (74|74) [ALGB] (1) final Real perfetGas.adiabaticModel.gamma_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas.adiabaticModel.Medium.isentropicExponent(ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas.adiabaticModel.Medium.setState_phX(perfetGas.p_out, perfetGas.h_out, {})) (start = 1.2, min = 1.0, max = 5e5, nominal = 1.2) (75|75) [DSTA] (1) Real perfetGas.h_out (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (76|76) [ALGB] (1) Real $FUN_29.T (77|77) [DSTA] (1) Real perfetGas1.P_in_internal (78|78) [DSTA] (1) Real $FUN_24.T (79|79) [ALGB] (1) output Real fullMedium.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (80|80) [DSTA] (1) Real $FUN_23.T (81|81) [ALGB] (1) Real $FUN_22.T (82|82) [ALGB] (1) final Real idealGasConstantGamma.adiabaticModel.delta_gamma_rel = abs(idealGasConstantGamma.adiabaticModel.gamma_out - idealGasConstantGamma.adiabaticModel.gamma) / max(idealGasConstantGamma.adiabaticModel.gamma_out, idealGasConstantGamma.adiabaticModel.gamma) (83|83) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.delta_gamma_rel = abs(idealGasConstantGamma1.adiabaticModel.gamma_out - idealGasConstantGamma1.adiabaticModel.gamma) / max(idealGasConstantGamma1.adiabaticModel.gamma_out, idealGasConstantGamma1.adiabaticModel.gamma) (84|84) [ALGB] (1) final Real idealGasConstantGamma2.adiabaticModel.delta_gamma_rel = abs(idealGasConstantGamma2.adiabaticModel.gamma_out - idealGasConstantGamma2.adiabaticModel.gamma) / max(idealGasConstantGamma2.adiabaticModel.gamma_out, idealGasConstantGamma2.adiabaticModel.gamma) (85|85) [ALGB] (1) Real $FUN_39 (86|86) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.delta_gamma_rel = abs(idealGasConstantGamma3.adiabaticModel.gamma_out - idealGasConstantGamma3.adiabaticModel.gamma) / max(idealGasConstantGamma3.adiabaticModel.gamma_out, idealGasConstantGamma3.adiabaticModel.gamma) (87|87) [ALGB] (1) Real $FUN_38 (88|88) [ALGB] (1) final Real fullMedium.adiabaticModel.w_t_is (89|89) [ALGB] (1) input Real sink10.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (90|90) [ALGB] (1) input Real sink11.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (91|91) [ALGB] (1) Real $FUN_33 (92|92) [ALGB] (1) final Real fullMedium.adiabaticModel.w_t (93|93) [DSTA] (1) Real idealGasConstantGamma.dh (94|94) [DSTA] (1) input Real perfetGas.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (95|95) [ALGB] (1) Real $FUN_17.T (96|96) [ALGB] (1) Real $FUN_16.T (97|97) [ALGB] (1) Real $FUN_15.T (98|98) [ALGB] (1) Real $FUN_12.T (99|99) [ALGB] (1) Real $FUN_11.T (100|100) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.rho_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma3.adiabaticModel.Medium.density(idealGasConstantGamma3.adiabaticModel.state_out) (min = 0.0) (101|101) [ALGB] (1) final Real idealGasConstantGamma2.adiabaticModel.rho_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma2.adiabaticModel.Medium.density(idealGasConstantGamma2.adiabaticModel.state_out) (min = 0.0) (102|102) [ALGB] (1) final input Real fullMedium3.adiabaticModel.state_in.p = fullMedium3.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (103|103) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.rho_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma1.adiabaticModel.Medium.density(idealGasConstantGamma1.adiabaticModel.state_out) (min = 0.0) (104|104) [ALGB] (1) final input Real fullMedium2.adiabaticModel.state_in.p = fullMedium2.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (105|105) [ALGB] (1) Real fullMedium.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium.Medium.pressure(fullMedium.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (106|106) [ALGB] (1) final input Real fullMedium1.adiabaticModel.state_in.p = fullMedium1.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (107|107) [ALGB] (1) Real sink11.p = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.sink11.Medium.pressure(sink11.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (108|108) [ALGB] (1) Real fullMedium2.dp (109|109) [ALGB] (1) Real sink10.p = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.sink10.Medium.pressure(sink10.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (110|110) [ALGB] (1) Real $FUN_28 (111|111) [ALGB] (1) Real $FUN_27 (112|112) [ALGB] (1) Real $FUN_26 (113|113) [ALGB] (1) Real $FUN_21 (114|114) [ALGB] (1) Real $FUN_20 (115|115) [DSTA] (1) Real perfetGas.dh (116|116) [ALGB] (1) final Real perfetGas.adiabaticModel.Z_in (117|117) [ALGB] (1) final Real idealGasConstantGamma.adiabaticModel.Z_in (118|118) [ALGB] (1) Real perfetGas2.outlet.r (119|119) [DISC] (1) Integer $FUN_197 (120|120) [ALGB] (1) final Real perfetGas3.adiabaticModel.cp_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas3.adiabaticModel.Medium.specificHeatCapacityCp(ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas3.adiabaticModel.Medium.setState_phX(perfetGas3.p_out, perfetGas3.h_out, {})) (start = 1000.0, min = 0.0, max = 1e7, nominal = 1000.0) (121|121) [DISC] (1) Integer $FUN_196 (122|122) [ALGB] (1) final Real perfetGas2.adiabaticModel.cp_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas2.adiabaticModel.Medium.specificHeatCapacityCp(ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas2.adiabaticModel.Medium.setState_phX(perfetGas2.p_out, perfetGas2.h_out, {})) (start = 1000.0, min = 0.0, max = 1e7, nominal = 1000.0) (123|123) [DISC] (1) Integer $FUN_195 (124|124) [ALGB] (1) final Real perfetGas1.adiabaticModel.cp_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas1.adiabaticModel.Medium.specificHeatCapacityCp(ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas1.adiabaticModel.Medium.setState_phX(perfetGas1.p_out, perfetGas1.h_out, {})) (start = 1000.0, min = 0.0, max = 1e7, nominal = 1000.0) (125|125) [DISC] (1) Integer $FUN_194 (126|126) [ALGB] (1) Real idealGasConstantGamma1.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma1.Medium.pressure(idealGasConstantGamma1.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (127|127) [DSTA] (1) Real idealGasConstantGamma2.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma2.Medium.pressure(idealGasConstantGamma2.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (128|128) [ALGB] (1) Real idealGasConstantGamma3.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma3.Medium.pressure(idealGasConstantGamma3.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (129|129) [DSTA] (1) final Real perfetGas.adiabaticModel.cp (start = 1000.0, min = 0.0, max = 1e7, nominal = 1000.0) (130|130) [ALGB] (1) Real fullMedium3.pRatio = fullMedium3.p_out / fullMedium3.p_in (131|131) [ALGB] (1) Real $FUN_19 (132|132) [DSTA] (1) final input Real idealGasConstantGamma.adiabaticModel.state_in.T = idealGasConstantGamma.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (133|133) [DSTA] (1) final Real perfetGas.adiabaticModel.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas.adiabaticModel.Medium.pressure(perfetGas.adiabaticModel.state_in) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (134|134) [ALGB] (1) Real fullMedium1.pRatio = fullMedium1.p_out / fullMedium1.p_in (135|135) [ALGB] (1) Real $FUN_14 (136|136) [ALGB] (1) Real $FUN_13 (137|137) [DISC] (1) Boolean $SEV_11 (138|138) [ALGB] (1) Real $FUN_10 (139|139) [ALGB] (1) output Real source11.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (140|140) [DISC] (1) Boolean $SEV_10 (141|141) [ALGB] (1) Real perfetGas2.dp (142|142) [ALGB] (1) final Real fullMedium3.adiabaticModel.s_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium3.adiabaticModel.Medium.specificEntropy(fullMedium3.adiabaticModel.state_in) (min = -1e7, max = 1e7, nominal = 1000.0) (143|143) [ALGB] (1) final Real perfetGas.adiabaticModel.isOutletIdealGas = CAST(Real, sign((1.0 + perfetGas.adiabaticModel.relTolZ) - perfetGas.adiabaticModel.Z_out) * sign(perfetGas.adiabaticModel.Z_out - 1.0 / (perfetGas.adiabaticModel.relTolZ + 1.0))) (144|144) [ALGB] (1) Real $FUN_98.p (145|145) [ALGB] (1) output Real source10.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (146|146) [ALGB] (1) final Real fullMedium2.adiabaticModel.s_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium2.adiabaticModel.Medium.specificEntropy(fullMedium2.adiabaticModel.state_in) (min = -1e7, max = 1e7, nominal = 1000.0) (147|147) [ALGB] (1) final Real fullMedium1.adiabaticModel.s_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium1.adiabaticModel.Medium.specificEntropy(fullMedium1.adiabaticModel.state_in) (min = -1e7, max = 1e7, nominal = 1000.0) (148|148) [ALGB] (1) input Real fullMedium.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (149|149) [ALGB] (1) Real $FUN_184 (150|150) [DISC] (1) Integer $FUN_180 (151|151) [ALGB] (1) final Real perfetGas1.adiabaticModel.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas1.adiabaticModel.Medium.pressure(perfetGas1.adiabaticModel.state_in) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (152|152) [DSTA] (1) final Real perfetGas2.adiabaticModel.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas2.adiabaticModel.Medium.pressure(perfetGas2.adiabaticModel.state_in) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (153|153) [ALGB] (1) output Real perfetGas.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (154|154) [ALGB] (1) final Real perfetGas3.adiabaticModel.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas3.adiabaticModel.Medium.pressure(perfetGas3.adiabaticModel.state_in) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (155|155) [DISC] (1) Integer $FUN_179 (156|156) [DISC] (1) Integer $FUN_178 (157|157) [DDER] (1) Real $DER.idealGasConstantGamma2.m_flow (StateSelect = avoid) (158|158) [DISC] (1) Integer $FUN_177 (159|159) [ALGB] (1) output Real fullMedium3.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (160|160) [ALGB] (1) output Real fullMedium2.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (161|161) [ALGB] (1) output Real fullMedium1.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (162|162) [ALGB] (1) Real fullMedium.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium.Medium.specificEnthalpy(fullMedium.inlet.state) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (163|163) [ALGB] (1) final Real idealGasConstantGamma.adiabaticModel.state_out.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (164|164) [DSTA] (1) final Real idealGasConstantGamma.adiabaticModel.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma.adiabaticModel.Medium.pressure(idealGasConstantGamma.adiabaticModel.state_in) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (165|165) [ALGB] (1) Real perfetGas1.h_out (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (166|166) [DSTA] (1) Real perfetGas2.h_out (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (167|167) [DSTA] (1) final input Real perfetGas.adiabaticModel.state_in.p = perfetGas.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (168|168) [ALGB] (1) Real perfetGas3.h_out (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (169|169) [ALGB] (1) Real $FUN_167 (170|170) [DISC] (1) Integer $FUN_163 (171|171) [DISC] (1) Integer $FUN_162 (172|172) [DISC] (1) Integer $FUN_161 (173|173) [DISC] (1) Integer $FUN_160 (174|174) [ALGB] (1) Real fullMedium.dh (175|175) [ALGB] (1) Real $FUN_69.p (176|176) [ALGB] (1) Real idealGasConstantGamma1.P (177|177) [ALGB] (1) Real $FUN_66.p (178|178) [ALGB] (1) final input Real fullMedium3.adiabaticModel.state_in.T = fullMedium3.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (179|179) [ALGB] (1) Real $FUN_61.p (180|180) [ALGB] (1) final input Real fullMedium2.adiabaticModel.state_in.T = fullMedium2.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (181|181) [ALGB] (1) Real $FUN_60.p (182|182) [DISC] (1) Boolean $TEV_1 (183|183) [ALGB] (1) final input Real fullMedium1.adiabaticModel.state_in.T = fullMedium1.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (184|184) [DISC] (1) Boolean $TEV_0 (185|185) [ALGB] (1) Real $FUN_8.T (186|186) [ALGB] (1) Real $FUN_7.T (187|187) [ALGB] (1) Real $FUN_155 (188|188) [DSTA] (1) Real perfetGas.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas.Medium.pressure(perfetGas.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (189|189) [DSTA] (1) Real $FUN_4.T (190|190) [DSTA] (1) Real $FUN_3.T (191|191) [ALGB] (1) final Real perfetGas.adiabaticModel.isGammaWithinTol = CAST(Real, sign(perfetGas.adiabaticModel.relTolGamma - perfetGas.adiabaticModel.delta_gamma_rel)) (192|192) [ALGB] (1) Real $FUN_2.T (193|193) [ALGB] (1) Real $FUN_1.T (194|194) [DSTA] (1) final Real idealGasConstantGamma.adiabaticModel.T_out_is (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (195|195) [DSTA] (1) input Real idealGasConstantGamma.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (196|196) [ALGB] (1) Real $FUN_59.p (197|197) [ALGB] (1) Real idealGasConstantGamma2.outlet.r (198|198) [DSTA] (1) Real idealGasConstantGamma1.P_in_internal (199|199) [ALGB] (1) Real $FUN_54.p (200|200) [DER-] (1) Real $DER.idealGasConstantGamma1.dp (201|201) [ALGB] (1) final Real perfetGas1.adiabaticModel.gamma (start = 1.2, min = 1.0, max = 5e5, nominal = 1.2) (202|202) [ALGB] (1) Real $FUN_53.p (203|203) [DSTA] (1) final Real perfetGas2.adiabaticModel.gamma (start = 1.2, min = 1.0, max = 5e5, nominal = 1.2) (204|204) [ALGB] (1) output Real idealGasConstantGamma1.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (205|205) [ALGB] (1) Real $FUN_52.p (206|206) [ALGB] (1) final Real perfetGas3.adiabaticModel.gamma (start = 1.2, min = 1.0, max = 5e5, nominal = 1.2) (207|207) [ALGB] (1) output Real idealGasConstantGamma2.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (208|208) [ALGB] (1) output Real idealGasConstantGamma3.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (209|209) [ALGB] (1) Real $FUN_232 (210|210) [ALGB] (1) Real $FUN_146 (211|211) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.state_out.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (212|212) [DISC] (1) Integer $FUN_142 (213|213) [ALGB] (1) final Real idealGasConstantGamma2.adiabaticModel.state_out.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (214|214) [DISC] (1) Integer $FUN_141 (215|215) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.state_out.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (216|216) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.isInletIdealGas = CAST(Real, sign((1.0 + idealGasConstantGamma1.adiabaticModel.relTolZ) - idealGasConstantGamma1.adiabaticModel.Z_in) * sign(idealGasConstantGamma1.adiabaticModel.Z_in - 1.0 / (idealGasConstantGamma1.adiabaticModel.relTolZ + 1.0))) (217|217) [DISC] (1) Integer $FUN_140 (218|218) [ALGB] (1) final input Real perfetGas3.adiabaticModel.state_in.T = perfetGas3.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (219|219) [ALGB] (1) final Real idealGasConstantGamma2.adiabaticModel.isInletIdealGas = CAST(Real, sign((1.0 + idealGasConstantGamma2.adiabaticModel.relTolZ) - idealGasConstantGamma2.adiabaticModel.Z_in) * sign(idealGasConstantGamma2.adiabaticModel.Z_in - 1.0 / (idealGasConstantGamma2.adiabaticModel.relTolZ + 1.0))) (220|220) [DSTA] (1) final input Real perfetGas2.adiabaticModel.state_in.T = perfetGas2.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (221|221) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.isInletIdealGas = CAST(Real, sign((1.0 + idealGasConstantGamma3.adiabaticModel.relTolZ) - idealGasConstantGamma3.adiabaticModel.Z_in) * sign(idealGasConstantGamma3.adiabaticModel.Z_in - 1.0 / (idealGasConstantGamma3.adiabaticModel.relTolZ + 1.0))) (222|222) [ALGB] (1) final input Real perfetGas1.adiabaticModel.state_in.T = perfetGas1.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (223|223) [DDER] (1) Real $DER.perfetGas2.m_flow (StateSelect = avoid) (224|224) [ALGB] (1) Real $FUN_49.p (225|225) [ALGB] (1) Real $FUN_48.p (226|226) [DISC] (1) Integer $FUN_228 (227|227) [DSTA] (1) final Real perfetGas.adiabaticModel.T_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas.adiabaticModel.Medium.temperature(perfetGas.adiabaticModel.state_in) (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (228|228) [DISC] (1) Integer $FUN_227 (229|229) [DISC] (1) Integer $FUN_226 (230|230) [ALGB] (1) Real $FUN_43.p (231|231) [DISC] (1) Integer $FUN_225 (232|232) [DSTA] (1) Real $FUN_42.p (233|233) [ALGB] (1) Real $FUN_41.p (234|234) [ALGB] (1) output Real source.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (235|235) [DISC] (1) Integer $FUN_139 (236|236) [ALGB] (1) final Real perfetGas1.adiabaticModel.Z_in (237|237) [ALGB] (1) final Real perfetGas2.adiabaticModel.Z_in (238|238) [ALGB] (1) final Real perfetGas3.adiabaticModel.Z_in (239|239) [ALGB] (1) Real $FUN_134 (240|240) [ALGB] (1) final Real perfetGas1.adiabaticModel.delta_cp_rel = abs(perfetGas1.adiabaticModel.cp_out - perfetGas1.adiabaticModel.cp) / max(perfetGas1.adiabaticModel.cp_out, perfetGas1.adiabaticModel.cp) (241|241) [ALGB] (1) final Real perfetGas2.adiabaticModel.delta_cp_rel = abs(perfetGas2.adiabaticModel.cp_out - perfetGas2.adiabaticModel.cp) / max(perfetGas2.adiabaticModel.cp_out, perfetGas2.adiabaticModel.cp) (242|242) [ALGB] (1) final Real perfetGas3.adiabaticModel.delta_cp_rel = abs(perfetGas3.adiabaticModel.cp_out - perfetGas3.adiabaticModel.cp) / max(perfetGas3.adiabaticModel.cp_out, perfetGas3.adiabaticModel.cp) (243|243) [ALGB] (1) Real $FUN_36.p (244|244) [ALGB] (1) Real $FUN_35.p (245|245) [ALGB] (1) Real $FUN_34.p (246|246) [ALGB] (1) Real sink8.r (247|247) [ALGB] (1) Real $FUN_31.p (248|248) [ALGB] (1) final Real perfetGas1.adiabaticModel.delta_gamma_rel = abs(perfetGas1.adiabaticModel.gamma_out - perfetGas1.adiabaticModel.gamma) / max(perfetGas1.adiabaticModel.gamma_out, perfetGas1.adiabaticModel.gamma) (249|249) [DSTA] (1) Real $FUN_30.p (250|250) [ALGB] (1) Real sink6.r (251|251) [ALGB] (1) final Real perfetGas2.adiabaticModel.delta_gamma_rel = abs(perfetGas2.adiabaticModel.gamma_out - perfetGas2.adiabaticModel.gamma) / max(perfetGas2.adiabaticModel.gamma_out, perfetGas2.adiabaticModel.gamma) (252|252) [ALGB] (1) Real perfetGas3.singularityRegime (253|253) [ALGB] (1) final Real perfetGas3.adiabaticModel.delta_gamma_rel = abs(perfetGas3.adiabaticModel.gamma_out - perfetGas3.adiabaticModel.gamma) / max(perfetGas3.adiabaticModel.gamma_out, perfetGas3.adiabaticModel.gamma) (254|254) [ALGB] (1) Real perfetGas2.singularityRegime (255|255) [ALGB] (1) Real $FUN_126 (256|256) [DSTA] (1) final Real perfetGas.adiabaticModel.w_t (257|257) [ALGB] (1) output Real idealGasConstantGamma.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (258|258) [ALGB] (1) Real perfetGas1.singularityRegime (259|259) [DSTA] (1) Real idealGasConstantGamma.h_out (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (260|260) [DISC] (1) Integer $FUN_122 (261|261) [DISC] (1) Integer $FUN_121 (262|262) [DISC] (1) Integer $FUN_120 (263|263) [ALGB] (1) final Real perfetGas.adiabaticModel.cp_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas.adiabaticModel.Medium.specificHeatCapacityCp(ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas.adiabaticModel.Medium.setState_phX(perfetGas.p_out, perfetGas.h_out, {})) (start = 1000.0, min = 0.0, max = 1e7, nominal = 1000.0) (264|264) [DSTA] (1) Real idealGasConstantGamma.P_in_internal (265|265) [DSTA] (1) final Real idealGasConstantGamma.adiabaticModel.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma.adiabaticModel.Medium.specificEnthalpy(idealGasConstantGamma.adiabaticModel.state_in) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (266|266) [ALGB] (1) input Real sink9.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (267|267) [ALGB] (1) input Real sink8.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (268|268) [ALGB] (1) Real $FUN_29.p (269|269) [ALGB] (1) input Real sink7.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (270|270) [ALGB] (1) input Real sink6.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (271|271) [ALGB] (1) input Real sink5.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (272|272) [ALGB] (1) output Real perfetGas3.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (273|273) [ALGB] (1) input Real sink4.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (274|274) [ALGB] (1) output Real perfetGas2.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (275|275) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.w_t (276|276) [ALGB] (1) input Real sink3.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (277|277) [ALGB] (1) output Real perfetGas1.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (278|278) [DSTA] (1) final Real idealGasConstantGamma2.adiabaticModel.w_t (279|279) [ALGB] (1) Real $FUN_24.p (280|280) [ALGB] (1) input Real sink2.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (281|281) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.w_t (282|282) [DSTA] (1) Real $FUN_23.p (283|283) [ALGB] (1) input Real sink1.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (284|284) [DSTA] (1) final Real perfetGas.adiabaticModel.w_t_is (285|285) [ALGB] (1) Real $FUN_22.p (286|286) [DISC] (1) Integer $FUN_119 (287|287) [ALGB] (1) Real $FUN_201 (288|288) [ALGB] (1) Real $FUN_114 (289|289) [ALGB] (1) final Real perfetGas3.adiabaticModel.w_t_is (290|290) [DSTA] (1) final Real perfetGas2.adiabaticModel.w_t_is (291|291) [ALGB] (1) final Real perfetGas1.adiabaticModel.w_t_is (292|292) [ALGB] (1) Real $FUN_17.p (293|293) [ALGB] (1) Real $FUN_16.p (294|294) [ALGB] (1) Real $FUN_15.p (295|295) [ALGB] (1) Real $FUN_12.p (296|296) [ALGB] (1) Real $FUN_11.p (297|297) [ALGB] (1) input Real sink.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (298|298) [ALGB] (1) Real perfetGas3.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas3.Medium.pressure(perfetGas3.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (299|299) [DSTA] (1) Real perfetGas2.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas2.Medium.pressure(perfetGas2.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (300|300) [ALGB] (1) Real perfetGas1.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas1.Medium.pressure(perfetGas1.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (301|301) [ALGB] (1) Real idealGasConstantGamma1.pRatio = idealGasConstantGamma1.p_out / idealGasConstantGamma1.p_in (302|302) [ALGB] (1) Real idealGasConstantGamma3.pRatio = idealGasConstantGamma3.p_out / idealGasConstantGamma3.p_in (303|303) [DSTA] (1) final input Real perfetGas.adiabaticModel.state_in.T = perfetGas.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (304|304) [DSTA] (1) Real idealGasConstantGamma.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma.Medium.specificEnthalpy(idealGasConstantGamma.inlet.state) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (305|305) [ALGB] (1) final Real idealGasConstantGamma.adiabaticModel.gamma_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma.adiabaticModel.Medium.isentropicExponent(ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma.adiabaticModel.Medium.setState_phX(idealGasConstantGamma.p_out, idealGasConstantGamma.h_out, {})) (start = 1.2, min = 1.0, max = 5e5, nominal = 1.2) (306|306) [ALGB] (1) Real fullMedium.dp (307|307) [ALGB] (1) final Real perfetGas3.adiabaticModel.cp (start = 1000.0, min = 0.0, max = 1e7, nominal = 1000.0) (308|308) [DSTA] (1) final Real perfetGas2.adiabaticModel.cp (start = 1000.0, min = 0.0, max = 1e7, nominal = 1000.0) (309|309) [ALGB] (1) final Real perfetGas1.adiabaticModel.cp (start = 1000.0, min = 0.0, max = 1e7, nominal = 1000.0) (310|310) [ALGB] (1) input Real perfetGas3.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (311|311) [DSTA] (1) input Real perfetGas2.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (312|312) [ALGB] (1) input Real perfetGas1.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (313|313) [ALGB] (1) Real perfetGas1.P (314|314) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.h_out_is (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (315|315) [DSTA] (1) final Real idealGasConstantGamma2.adiabaticModel.h_out_is (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (316|316) [ALGB] (1) Real perfetGas3.P (317|317) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.h_out_is (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (318|318) [ALGB] (1) Real sink.p = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.sink.Medium.pressure(sink.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (319|319) [ALGB] (1) Real fullMedium1.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium1.Medium.pressure(fullMedium1.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (320|320) [ALGB] (1) output Real idealGasConstantGamma3.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (321|321) [ALGB] (1) Real fullMedium2.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium2.Medium.pressure(fullMedium2.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (322|322) [ALGB] (1) output Real idealGasConstantGamma2.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (323|323) [ALGB] (1) Real fullMedium3.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium3.Medium.pressure(fullMedium3.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (324|324) [ALGB] (1) output Real idealGasConstantGamma1.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (325|325) [ALGB] (1) final Real perfetGas.adiabaticModel.isInletIdealGas = CAST(Real, sign((1.0 + perfetGas.adiabaticModel.relTolZ) - perfetGas.adiabaticModel.Z_in) * sign(perfetGas.adiabaticModel.Z_in - 1.0 / (perfetGas.adiabaticModel.relTolZ + 1.0))) (326|326) [ALGB] (1) Real fullMedium1.P_in_internal (327|327) [ALGB] (1) final Real idealGasConstantGamma.adiabaticModel.isOutletIdealGas = CAST(Real, sign((1.0 + idealGasConstantGamma.adiabaticModel.relTolZ) - idealGasConstantGamma.adiabaticModel.Z_out) * sign(idealGasConstantGamma.adiabaticModel.Z_out - 1.0 / (idealGasConstantGamma.adiabaticModel.relTolZ + 1.0))) (328|328) [ALGB] (1) final Real fullMedium.adiabaticModel.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium.adiabaticModel.Medium.pressure(fullMedium.adiabaticModel.state_in) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (329|329) [DSTA] (1) final input Real idealGasConstantGamma.adiabaticModel.state_in.p = idealGasConstantGamma.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (330|330) [ALGB] (1) Real $FUN_185.T (331|331) [ALGB] (1) final Real perfetGas3.adiabaticModel.gamma_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas3.adiabaticModel.Medium.isentropicExponent(ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas3.adiabaticModel.Medium.setState_phX(perfetGas3.p_out, perfetGas3.h_out, {})) (start = 1.2, min = 1.0, max = 5e5, nominal = 1.2) (332|332) [ALGB] (1) final Real perfetGas2.adiabaticModel.gamma_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas2.adiabaticModel.Medium.isentropicExponent(ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas2.adiabaticModel.Medium.setState_phX(perfetGas2.p_out, perfetGas2.h_out, {})) (start = 1.2, min = 1.0, max = 5e5, nominal = 1.2) (333|333) [ALGB] (1) final Real perfetGas1.adiabaticModel.gamma_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas1.adiabaticModel.Medium.isentropicExponent(ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas1.adiabaticModel.Medium.setState_phX(perfetGas1.p_out, perfetGas1.h_out, {})) (start = 1.2, min = 1.0, max = 5e5, nominal = 1.2) (334|334) [ALGB] (1) final Real perfetGas.adiabaticModel.rho_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas.adiabaticModel.Medium.density(perfetGas.adiabaticModel.state_out) (min = 0.0) (335|335) [ALGB] (1) final Real perfetGas1.adiabaticModel.isGammaWithinTol = CAST(Real, sign(perfetGas1.adiabaticModel.relTolGamma - perfetGas1.adiabaticModel.delta_gamma_rel)) (336|336) [ALGB] (1) final Real perfetGas2.adiabaticModel.isGammaWithinTol = CAST(Real, sign(perfetGas2.adiabaticModel.relTolGamma - perfetGas2.adiabaticModel.delta_gamma_rel)) (337|337) [ALGB] (1) final Real perfetGas3.adiabaticModel.isGammaWithinTol = CAST(Real, sign(perfetGas3.adiabaticModel.relTolGamma - perfetGas3.adiabaticModel.delta_gamma_rel)) (338|338) [ALGB] (1) Real perfetGas3.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas3.Medium.specificEnthalpy(perfetGas3.inlet.state) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (339|339) [DSTA] (1) Real perfetGas2.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas2.Medium.specificEnthalpy(perfetGas2.inlet.state) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (340|340) [ALGB] (1) Real perfetGas1.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas1.Medium.specificEnthalpy(perfetGas1.inlet.state) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (341|341) [ALGB] (1) final Real fullMedium3.adiabaticModel.h_out_is = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium3.adiabaticModel.Medium.specificEnthalpy_psX(fullMedium3.p_out, fullMedium3.adiabaticModel.s_in, {}) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (342|342) [ALGB] (1) final Real fullMedium2.adiabaticModel.h_out_is = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium2.adiabaticModel.Medium.specificEnthalpy_psX(fullMedium2.p_out, fullMedium2.adiabaticModel.s_in, {}) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (343|343) [ALGB] (1) final Real fullMedium1.adiabaticModel.h_out_is = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium1.adiabaticModel.Medium.specificEnthalpy_psX(fullMedium1.p_out, fullMedium1.adiabaticModel.s_in, {}) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (344|344) [ALGB] (1) Real fullMedium.h_out (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (345|345) [ALGB] (1) Real idealGasConstantGamma2.dp (346|346) [ALGB] (1) Real idealGasConstantGamma3.dp (347|347) [ALGB] (1) final Real perfetGas1.adiabaticModel.rho_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas1.adiabaticModel.Medium.density(perfetGas1.adiabaticModel.state_out) (min = 0.0) (348|348) [ALGB] (1) final Real perfetGas2.adiabaticModel.rho_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas2.adiabaticModel.Medium.density(perfetGas2.adiabaticModel.state_out) (min = 0.0) (349|349) [ALGB] (1) final Real perfetGas3.adiabaticModel.rho_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas3.adiabaticModel.Medium.density(perfetGas3.adiabaticModel.state_out) (min = 0.0) (350|350) [ALGB] (1) Real idealGasConstantGamma3.dh (351|351) [DSTA] (1) Real idealGasConstantGamma2.dh (352|352) [ALGB] (1) final Real perfetGas.adiabaticModel.isCpWithinTol = CAST(Real, sign(perfetGas.adiabaticModel.relTolCp - perfetGas.adiabaticModel.delta_cp_rel)) (353|353) [ALGB] (1) Real idealGasConstantGamma1.dh (354|354) [ALGB] (1) Real source6.outlet.r (355|355) [ALGB] (1) Real source8.outlet.r (356|356) [ALGB] (1) Real idealGasConstantGamma1.p_out (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (357|357) [DSTA] (1) Real idealGasConstantGamma2.p_out (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (358|358) [ALGB] (1) Real idealGasConstantGamma3.p_out (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (359|359) [ALGB] (1) input Real perfetGas1.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (360|360) [DSTA] (1) input Real perfetGas2.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (361|361) [ALGB] (1) input Real perfetGas3.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (362|362) [ALGB] (1) output Real idealGasConstantGamma.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (363|363) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.w_t_is (364|364) [DSTA] (1) final Real idealGasConstantGamma2.adiabaticModel.w_t_is (365|365) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.w_t_is (366|366) [ALGB] (1) Real idealGasConstantGamma.dp (367|367) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.T_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma3.adiabaticModel.Medium.temperature(idealGasConstantGamma3.adiabaticModel.state_in) (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (368|368) [DSTA] (1) final Real idealGasConstantGamma2.adiabaticModel.T_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma2.adiabaticModel.Medium.temperature(idealGasConstantGamma2.adiabaticModel.state_in) (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (369|369) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.T_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma1.adiabaticModel.Medium.temperature(idealGasConstantGamma1.adiabaticModel.state_in) (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (370|370) [ALGB] (1) output Real source11.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (371|371) [ALGB] (1) output Real source10.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (372|372) [ALGB] (1) final Real idealGasConstantGamma.adiabaticModel.rho_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma.adiabaticModel.Medium.density(idealGasConstantGamma.adiabaticModel.state_out) (min = 0.0) (373|373) [ALGB] (1) final Real fullMedium3.adiabaticModel.w_t (374|374) [ALGB] (1) final Real fullMedium2.adiabaticModel.w_t (375|375) [ALGB] (1) Real fullMedium1.p_out (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (376|376) [ALGB] (1) final Real fullMedium1.adiabaticModel.w_t (377|377) [ALGB] (1) Real fullMedium2.p_out (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (378|378) [ALGB] (1) Real fullMedium3.p_out (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (379|379) [ALGB] (1) output Real fullMedium3.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (380|380) [ALGB] (1) Real $FUN_156.T (381|381) [ALGB] (1) output Real fullMedium2.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (382|382) [ALGB] (1) output Real fullMedium1.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (383|383) [ALGB] (1) Real idealGasConstantGamma3.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma3.Medium.specificEnthalpy(idealGasConstantGamma3.inlet.state) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (384|384) [DSTA] (1) Real idealGasConstantGamma2.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma2.Medium.specificEnthalpy(idealGasConstantGamma2.inlet.state) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (385|385) [ALGB] (1) final input Real idealGasConstantGamma3.adiabaticModel.state_in.p = idealGasConstantGamma3.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (386|386) [ALGB] (1) Real idealGasConstantGamma1.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma1.Medium.specificEnthalpy(idealGasConstantGamma1.inlet.state) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (387|387) [DSTA] (1) final input Real idealGasConstantGamma2.adiabaticModel.state_in.p = idealGasConstantGamma2.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (388|388) [DSTA] (1) final Real idealGasConstantGamma.adiabaticModel.gamma (start = 1.2, min = 1.0, max = 5e5, nominal = 1.2) (389|389) [ALGB] (1) final input Real perfetGas1.adiabaticModel.state_in.p = perfetGas1.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (390|390) [ALGB] (1) final input Real idealGasConstantGamma1.adiabaticModel.state_in.p = idealGasConstantGamma1.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (391|391) [DSTA] (1) final input Real perfetGas2.adiabaticModel.state_in.p = perfetGas2.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (392|392) [ALGB] (1) final input Real perfetGas3.adiabaticModel.state_in.p = perfetGas3.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (393|393) [ALGB] (1) final Real perfetGas3.adiabaticModel.state_out.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (394|394) [ALGB] (1) final Real perfetGas2.adiabaticModel.state_out.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (395|395) [ALGB] (1) final Real perfetGas1.adiabaticModel.state_out.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (396|396) [ALGB] (1) Real $FUN_233.T (397|397) [ALGB] (1) final Real perfetGas3.adiabaticModel.isCpWithinTol = CAST(Real, sign(perfetGas3.adiabaticModel.relTolCp - perfetGas3.adiabaticModel.delta_cp_rel)) (398|398) [ALGB] (1) final Real perfetGas2.adiabaticModel.isCpWithinTol = CAST(Real, sign(perfetGas2.adiabaticModel.relTolCp - perfetGas2.adiabaticModel.delta_cp_rel)) (399|399) [ALGB] (1) final Real perfetGas1.adiabaticModel.isCpWithinTol = CAST(Real, sign(perfetGas1.adiabaticModel.relTolCp - perfetGas1.adiabaticModel.delta_cp_rel)) (400|400) [ALGB] (1) final Real perfetGas.adiabaticModel.delta_cp_rel = abs(perfetGas.adiabaticModel.cp_out - perfetGas.adiabaticModel.cp) / max(perfetGas.adiabaticModel.cp_out, perfetGas.adiabaticModel.cp) (401|401) [ALGB] (1) Real $FUN_135.T (402|402) [ALGB] (1) input Real idealGasConstantGamma1.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (403|403) [ALGB] (1) final Real perfetGas1.adiabaticModel.isOutletIdealGas = CAST(Real, sign((1.0 + perfetGas1.adiabaticModel.relTolZ) - perfetGas1.adiabaticModel.Z_out) * sign(perfetGas1.adiabaticModel.Z_out - 1.0 / (perfetGas1.adiabaticModel.relTolZ + 1.0))) (404|404) [DSTA] (1) input Real idealGasConstantGamma2.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (405|405) [ALGB] (1) final Real perfetGas2.adiabaticModel.isOutletIdealGas = CAST(Real, sign((1.0 + perfetGas2.adiabaticModel.relTolZ) - perfetGas2.adiabaticModel.Z_out) * sign(perfetGas2.adiabaticModel.Z_out - 1.0 / (perfetGas2.adiabaticModel.relTolZ + 1.0))) (406|406) [ALGB] (1) input Real idealGasConstantGamma3.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (407|407) [ALGB] (1) final Real perfetGas3.adiabaticModel.isOutletIdealGas = CAST(Real, sign((1.0 + perfetGas3.adiabaticModel.relTolZ) - perfetGas3.adiabaticModel.Z_out) * sign(perfetGas3.adiabaticModel.Z_out - 1.0 / (perfetGas3.adiabaticModel.relTolZ + 1.0))) (408|408) [DSTA] (1) input Real perfetGas.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (409|409) [ALGB] (1) input Real idealGasConstantGamma1.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (410|410) [DSTA] (1) input Real idealGasConstantGamma2.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (411|411) [ALGB] (1) input Real idealGasConstantGamma3.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (412|412) [DSTA] (1) final Real perfetGas.adiabaticModel.gamma (start = 1.2, min = 1.0, max = 5e5, nominal = 1.2) (413|413) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.gamma_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma1.adiabaticModel.Medium.isentropicExponent(ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma1.adiabaticModel.Medium.setState_phX(idealGasConstantGamma1.p_out, idealGasConstantGamma1.h_out, {})) (start = 1.2, min = 1.0, max = 5e5, nominal = 1.2) (414|414) [ALGB] (1) final Real idealGasConstantGamma2.adiabaticModel.gamma_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma2.adiabaticModel.Medium.isentropicExponent(ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma2.adiabaticModel.Medium.setState_phX(idealGasConstantGamma2.p_out, idealGasConstantGamma2.h_out, {})) (start = 1.2, min = 1.0, max = 5e5, nominal = 1.2) (415|415) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.gamma_out = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma3.adiabaticModel.Medium.isentropicExponent(ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma3.adiabaticModel.Medium.setState_phX(idealGasConstantGamma3.p_out, idealGasConstantGamma3.h_out, {})) (start = 1.2, min = 1.0, max = 5e5, nominal = 1.2) (416|416) [ALGB] (1) final Real idealGasConstantGamma.adiabaticModel.isGammaWithinTol = CAST(Real, sign(idealGasConstantGamma.adiabaticModel.relTolGamma - idealGasConstantGamma.adiabaticModel.delta_gamma_rel)) (417|417) [ALGB] (1) final Real perfetGas.adiabaticModel.delta_gamma_rel = abs(perfetGas.adiabaticModel.gamma_out - perfetGas.adiabaticModel.gamma) / max(perfetGas.adiabaticModel.gamma_out, perfetGas.adiabaticModel.gamma) (418|418) [ALGB] (1) final Real fullMedium.adiabaticModel.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium.adiabaticModel.Medium.specificEnthalpy(fullMedium.adiabaticModel.state_in) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (419|419) [ALGB] (1) final Real fullMedium1.adiabaticModel.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium1.adiabaticModel.Medium.specificEnthalpy(fullMedium1.adiabaticModel.state_in) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (420|420) [ALGB] (1) final Real fullMedium2.adiabaticModel.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium2.adiabaticModel.Medium.specificEnthalpy(fullMedium2.adiabaticModel.state_in) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (421|421) [ALGB] (1) Real perfetGas1.p_out (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (422|422) [ALGB] (1) final Real fullMedium3.adiabaticModel.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium3.adiabaticModel.Medium.specificEnthalpy(fullMedium3.adiabaticModel.state_in) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (423|423) [DSTA] (1) Real perfetGas2.p_out (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (424|424) [ALGB] (1) Real perfetGas3.p_out (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (425|425) [ALGB] (1) output Real perfetGas1.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (426|426) [ALGB] (1) output Real perfetGas2.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (427|427) [ALGB] (1) output Real perfetGas3.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (428|428) [DSTA] (1) final Real idealGasConstantGamma.adiabaticModel.w_t_is (429|429) [ALGB] (1) Real $FUN_202.T (430|430) [ALGB] (1) Real $FUN_115.T (431|431) [ALGB] (1) Real fullMedium3.h_out (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (432|432) [ALGB] (1) Real fullMedium2.h_out (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (433|433) [ALGB] (1) Real fullMedium1.h_out (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (434|434) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.isGammaWithinTol = CAST(Real, sign(idealGasConstantGamma1.adiabaticModel.relTolGamma - idealGasConstantGamma1.adiabaticModel.delta_gamma_rel)) (435|435) [ALGB] (1) input Real sink.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (436|436) [ALGB] (1) final Real idealGasConstantGamma2.adiabaticModel.isGammaWithinTol = CAST(Real, sign(idealGasConstantGamma2.adiabaticModel.relTolGamma - idealGasConstantGamma2.adiabaticModel.delta_gamma_rel)) (437|437) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.isGammaWithinTol = CAST(Real, sign(idealGasConstantGamma3.adiabaticModel.relTolGamma - idealGasConstantGamma3.adiabaticModel.delta_gamma_rel)) (438|438) [DSTA] (1) Real idealGasConstantGamma.p_out (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (439|439) [ALGB] (1) Real fullMedium1.P (440|440) [ALGB] (1) Real fullMedium3.P (441|441) [ALGB] (1) output Real source.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (442|442) [DSTA] (1) final Real idealGasConstantGamma.adiabaticModel.T_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma.adiabaticModel.Medium.temperature(idealGasConstantGamma.adiabaticModel.state_in) (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (443|443) [ALGB] (1) final Real perfetGas3.adiabaticModel.state_out.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (444|444) [ALGB] (1) final Real perfetGas2.adiabaticModel.state_out.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (445|445) [ALGB] (1) Real fullMedium1.dh (446|446) [ALGB] (1) final Real perfetGas1.adiabaticModel.state_out.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (447|447) [ALGB] (1) Real fullMedium2.dh (448|448) [ALGB] (1) Real fullMedium3.dh (449|449) [ALGB] (1) Real $FUN_185.p (450|450) [ALGB] (1) Real fullMedium.P_in_internal (451|451) [DSTA] (1) Real perfetGas.p_out (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (452|452) [ALGB] (1) final Real fullMedium3.adiabaticModel.w_t_is (453|453) [ALGB] (1) final Real fullMedium2.adiabaticModel.w_t_is (454|454) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.rho_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma1.adiabaticModel.Medium.density(idealGasConstantGamma1.adiabaticModel.state_in) (min = 0.0) (455|455) [ALGB] (1) final Real fullMedium1.adiabaticModel.w_t_is (456|456) [ALGB] (1) final Real idealGasConstantGamma2.adiabaticModel.rho_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma2.adiabaticModel.Medium.density(idealGasConstantGamma2.adiabaticModel.state_in) (min = 0.0) (457|457) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.rho_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma3.adiabaticModel.Medium.density(idealGasConstantGamma3.adiabaticModel.state_in) (min = 0.0) (458|458) [DER-] (1) Real $DER.perfetGas3.dp (459|459) [DSTA] (1) final Real perfetGas.adiabaticModel.T_out (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (460|460) [ALGB] (1) Real $FUN_9 (461|461) [DISC] (1) Boolean $SEV_9 (462|462) [DSTA] (1) final Real perfetGas.adiabaticModel.T_out_is (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (463|463) [DISC] (1) Boolean $SEV_8 (464|464) [DISC] (1) Boolean $SEV_7 (465|465) [ALGB] (1) Real $FUN_6 (466|466) [DISC] (1) Boolean $SEV_6 (467|467) [DISC] (1) Boolean $SEV_5 (468|468) [DISC] (1) Boolean $SEV_4 (469|469) [DISC] (1) Boolean $SEV_3 (470|470) [DISC] (1) Boolean $SEV_2 (471|471) [ALGB] (1) final Real perfetGas1.adiabaticModel.w_t (472|472) [DISC] (1) Boolean $SEV_1 (473|473) [DSTA] (1) final Real perfetGas2.adiabaticModel.w_t (474|474) [DISC] (1) Boolean $SEV_0 (475|475) [ALGB] (1) final Real perfetGas3.adiabaticModel.w_t (476|476) [ALGB] (1) output Real perfetGas.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (477|477) [ALGB] (1) Real fullMedium2.m_flow = fullMedium2.m_flow (StateSelect = default) (478|478) [ALGB] (1) final Real perfetGas1.adiabaticModel.T_out (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (479|479) [DSTA] (1) final Real perfetGas2.adiabaticModel.T_out (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (480|480) [ALGB] (1) final Real perfetGas3.adiabaticModel.T_out (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (481|481) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma1.adiabaticModel.Medium.specificEnthalpy(idealGasConstantGamma1.adiabaticModel.state_in) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (482|482) [DSTA] (1) final Real idealGasConstantGamma2.adiabaticModel.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma2.adiabaticModel.Medium.specificEnthalpy(idealGasConstantGamma2.adiabaticModel.state_in) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (483|483) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma3.adiabaticModel.Medium.specificEnthalpy(idealGasConstantGamma3.adiabaticModel.state_in) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (484|484) [ALGB] (1) final Real perfetGas1.adiabaticModel.T_out_is (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (485|485) [DSTA] (1) final Real perfetGas2.adiabaticModel.T_out_is (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (486|486) [ALGB] (1) final Real perfetGas3.adiabaticModel.T_out_is (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (487|487) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.T_out_is (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (488|488) [DSTA] (1) final Real idealGasConstantGamma2.adiabaticModel.T_out_is (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (489|489) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.T_out_is (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (490|490) [DER-] (1) Real $DER.perfetGas1.dp (491|491) [ALGB] (1) final Real perfetGas3.adiabaticModel.Z_out (492|492) [ALGB] (1) final Real perfetGas2.adiabaticModel.Z_out (493|493) [ALGB] (1) final Real perfetGas1.adiabaticModel.Z_out (494|494) [ALGB] (1) input Real sink9.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (495|495) [ALGB] (1) input Real sink8.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (496|496) [ALGB] (1) input Real sink7.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (497|497) [ALGB] (1) Real idealGasConstantGamma3.h_out (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (498|498) [ALGB] (1) input Real sink6.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (499|499) [DSTA] (1) Real idealGasConstantGamma2.h_out (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (500|500) [ALGB] (1) input Real sink5.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (501|501) [ALGB] (1) Real idealGasConstantGamma1.h_out (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (502|502) [ALGB] (1) input Real sink4.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (503|503) [DSTA] (1) Real idealGasConstantGamma.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma.Medium.pressure(idealGasConstantGamma.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (504|504) [ALGB] (1) Real $FUN_98.T (505|505) [ALGB] (1) final Real perfetGas3.adiabaticModel.rho_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas3.adiabaticModel.Medium.density(perfetGas3.adiabaticModel.state_in) (min = 0.0) (506|506) [ALGB] (1) final Real fullMedium3.adiabaticModel.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium3.adiabaticModel.Medium.pressure(fullMedium3.adiabaticModel.state_in) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (507|507) [ALGB] (1) input Real sink3.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (508|508) [ALGB] (1) final Real perfetGas2.adiabaticModel.rho_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas2.adiabaticModel.Medium.density(perfetGas2.adiabaticModel.state_in) (min = 0.0) (509|509) [ALGB] (1) final Real fullMedium2.adiabaticModel.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium2.adiabaticModel.Medium.pressure(fullMedium2.adiabaticModel.state_in) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (510|510) [ALGB] (1) input Real sink2.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (511|511) [ALGB] (1) final Real perfetGas1.adiabaticModel.T_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas1.adiabaticModel.Medium.temperature(perfetGas1.adiabaticModel.state_in) (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (512|512) [ALGB] (1) final Real perfetGas1.adiabaticModel.rho_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas1.adiabaticModel.Medium.density(perfetGas1.adiabaticModel.state_in) (min = 0.0) (513|513) [ALGB] (1) final Real fullMedium1.adiabaticModel.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium1.adiabaticModel.Medium.pressure(fullMedium1.adiabaticModel.state_in) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (514|514) [ALGB] (1) input Real sink1.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (515|515) [DSTA] (1) final Real perfetGas2.adiabaticModel.T_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas2.adiabaticModel.Medium.temperature(perfetGas2.adiabaticModel.state_in) (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (516|516) [ALGB] (1) input Real fullMedium3.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (517|517) [ALGB] (1) final Real perfetGas3.adiabaticModel.T_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas3.adiabaticModel.Medium.temperature(perfetGas3.adiabaticModel.state_in) (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (518|518) [ALGB] (1) input Real fullMedium2.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (519|519) [ALGB] (1) Real $FUN_156.p (520|520) [ALGB] (1) input Real fullMedium1.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (521|521) [ALGB] (1) final Real idealGasConstantGamma.adiabaticModel.Z_out (522|522) [ALGB] (1) final Real idealGasConstantGamma.adiabaticModel.state_out.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (523|523) [ALGB] (1) output Real source9.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (524|524) [ALGB] (1) Real perfetGas.dp (525|525) [DSTA] (1) output Real source8.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (526|526) [ALGB] (1) output Real source7.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (527|527) [DSTA] (1) output Real source6.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (528|528) [ALGB] (1) output Real source5.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (529|529) [ALGB] (1) output Real source4.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (530|530) [ALGB] (1) final Real perfetGas.adiabaticModel.state_out.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (531|531) [ALGB] (1) output Real source3.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (532|532) [DSTA] (1) output Real source2.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (533|533) [DSTA] (1) output Real source1.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (534|534) [ALGB] (1) input Real fullMedium.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (535|535) [ALGB] (1) Real $FUN_233.p (536|536) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.Z_out (537|537) [ALGB] (1) final Real idealGasConstantGamma2.adiabaticModel.Z_out (538|538) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.Z_out (539|539) [ALGB] (1) input Real fullMedium1.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (540|540) [ALGB] (1) input Real fullMedium2.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (541|541) [ALGB] (1) input Real fullMedium3.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (542|542) [ALGB] (1) Real fullMedium1.singularityRegime (543|543) [ALGB] (1) Real fullMedium2.singularityRegime (544|544) [ALGB] (1) Real fullMedium3.singularityRegime (545|545) [ALGB] (1) final Real perfetGas.adiabaticModel.Z_out (546|546) [ALGB] (1) final Real fullMedium.adiabaticModel.h_out_is = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium.adiabaticModel.Medium.specificEnthalpy_psX(fullMedium.p_out, fullMedium.adiabaticModel.s_in, {}) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (547|547) [ALGB] (1) Real $FUN_97 (548|548) [ALGB] (1) final Real perfetGas.adiabaticModel.rho_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas.adiabaticModel.Medium.density(perfetGas.adiabaticModel.state_in) (min = 0.0) (549|549) [DISC] (1) Integer $FUN_93 (550|550) [DISC] (1) Integer $FUN_92 (551|551) [DISC] (1) Integer $FUN_91 (552|552) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma3.adiabaticModel.Medium.pressure(idealGasConstantGamma3.adiabaticModel.state_in) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (553|553) [ALGB] (1) final Real fullMedium.adiabaticModel.s_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium.adiabaticModel.Medium.specificEntropy(fullMedium.adiabaticModel.state_in) (min = -1e7, max = 1e7, nominal = 1000.0) (554|554) [DISC] (1) Integer $FUN_90 (555|555) [DSTA] (1) final Real idealGasConstantGamma2.adiabaticModel.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma2.adiabaticModel.Medium.pressure(idealGasConstantGamma2.adiabaticModel.state_in) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (556|556) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma1.adiabaticModel.Medium.pressure(idealGasConstantGamma1.adiabaticModel.state_in) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (557|557) [ALGB] (1) output Real source9.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (558|558) [DSTA] (1) output Real source8.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (559|559) [ALGB] (1) output Real source7.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (560|560) [DSTA] (1) output Real source6.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (561|561) [ALGB] (1) output Real source5.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (562|562) [ALGB] (1) output Real source4.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (563|563) [ALGB] (1) final Real perfetGas3.adiabaticModel.isInletIdealGas = CAST(Real, sign((1.0 + perfetGas3.adiabaticModel.relTolZ) - perfetGas3.adiabaticModel.Z_in) * sign(perfetGas3.adiabaticModel.Z_in - 1.0 / (perfetGas3.adiabaticModel.relTolZ + 1.0))) (564|564) [ALGB] (1) output Real source3.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (565|565) [ALGB] (1) Real $FUN_135.p (566|566) [ALGB] (1) final Real perfetGas2.adiabaticModel.isInletIdealGas = CAST(Real, sign((1.0 + perfetGas2.adiabaticModel.relTolZ) - perfetGas2.adiabaticModel.Z_in) * sign(perfetGas2.adiabaticModel.Z_in - 1.0 / (perfetGas2.adiabaticModel.relTolZ + 1.0))) (567|567) [DSTA] (1) output Real source2.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (568|568) [ALGB] (1) final Real perfetGas1.adiabaticModel.isInletIdealGas = CAST(Real, sign((1.0 + perfetGas1.adiabaticModel.relTolZ) - perfetGas1.adiabaticModel.Z_in) * sign(perfetGas1.adiabaticModel.Z_in - 1.0 / (perfetGas1.adiabaticModel.relTolZ + 1.0))) (569|569) [DSTA] (1) output Real source1.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0) (570|570) [ALGB] (1) final input Real fullMedium.adiabaticModel.state_in.p = fullMedium.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (571|571) [ALGB] (1) final Real idealGasConstantGamma1.adiabaticModel.gamma (start = 1.2, min = 1.0, max = 5e5, nominal = 1.2) (572|572) [DSTA] (1) final Real idealGasConstantGamma2.adiabaticModel.gamma (start = 1.2, min = 1.0, max = 5e5, nominal = 1.2) (573|573) [ALGB] (1) final Real idealGasConstantGamma3.adiabaticModel.gamma (start = 1.2, min = 1.0, max = 5e5, nominal = 1.2) (574|574) [DSTA] (1) Real perfetGas.P_in_internal (575|575) [ALGB] (1) Real fullMedium3.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium3.Medium.specificEnthalpy(fullMedium3.inlet.state) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (576|576) [ALGB] (1) Real perfetGas1.dh (577|577) [ALGB] (1) Real fullMedium2.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium2.Medium.specificEnthalpy(fullMedium2.inlet.state) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (578|578) [DSTA] (1) Real perfetGas2.dh (579|579) [DSTA] (1) final Real idealGasConstantGamma.adiabaticModel.w_t (580|580) [ALGB] (1) Real fullMedium1.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium1.Medium.specificEnthalpy(fullMedium1.inlet.state) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (581|581) [ALGB] (1) Real perfetGas3.dh (582|582) [ALGB] (1) Real $FUN_80 (583|583) [ALGB] (1) final Real idealGasConstantGamma.adiabaticModel.rho_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma.adiabaticModel.Medium.density(idealGasConstantGamma.adiabaticModel.state_in) (min = 0.0) (584|584) [ALGB] (1) Real $FUN_69.T (585|585) [ALGB] (1) Real $FUN_66.T (586|586) [ALGB] (1) Real $FUN_61.T (587|587) [ALGB] (1) Real $FUN_60.T (588|588) [DSTA] (1) final Real idealGasConstantGamma.adiabaticModel.h_out_is (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5) (589|589) [DER-] (1) Real $DER.fullMedium3.dp (590|590) [DDER] (1) Real $DER.idealGasConstantGamma.dh (StateSelect = avoid) (591|591) [DDER] (1) Real $DER.$FUN_30.T (StateSelect = avoid) (592|592) [DDER] (1) Real $DER.$FUN_30.p (StateSelect = avoid) (593|593) [DDER] (1) Real $DER.$FUN_23.T (StateSelect = avoid) (594|594) [DDER] (1) Real $DER.idealGasConstantGamma2.p_in (StateSelect = avoid) (595|595) [DDER] (1) final input Real $DER.idealGasConstantGamma2.adiabaticModel.state_in.p (StateSelect = avoid) (596|596) [DDER] (1) Real $DER.$FUN_31.T (StateSelect = avoid) (597|597) [DER-] (2) idealGasConstantGamma2.inlet.Medium.ThermodynamicState $DER.idealGasConstantGamma2.inlet.state (598|599) [DER-] (2) final idealGasConstantGamma2.adiabaticModel.Medium.ThermodynamicState $DER.idealGasConstantGamma2.adiabaticModel.state_in (599|601) [DDER] (1) Real $DER.$FUN_42.T (StateSelect = avoid) (600|602) [DDER] (1) final Real $DER.idealGasConstantGamma.adiabaticModel.T_in (StateSelect = avoid) (601|603) [DDER] (1) Real $DER.$FUN_23.p (StateSelect = avoid) (602|604) [DDER] (1) Real $DER.$FUN_42.p (StateSelect = avoid) (603|605) [DDER] (1) final Real $DER.idealGasConstantGamma.adiabaticModel.gamma (StateSelect = avoid) (604|606) [DER-] (2) perfetGas.inlet.Medium.ThermodynamicState $DER.perfetGas.inlet.state (605|608) [DER-] (2) final perfetGas.adiabaticModel.Medium.ThermodynamicState $DER.perfetGas.adiabaticModel.state_in (606|610) [DER-] (2) source8.Medium.ThermodynamicState $DER.$FUN_42 (607|612) [DER-] (2) source8.outlet.Medium.ThermodynamicState $DER.source8.outlet.state (608|614) [DDER] (1) Real $DER.idealGasConstantGamma2.h_in (StateSelect = avoid) (609|615) [DDER] (1) Real $DER.idealGasConstantGamma.h_out (StateSelect = avoid) (610|616) [DDER] (1) final Real $DER.idealGasConstantGamma.adiabaticModel.w_t (StateSelect = avoid) (611|617) [DDER] (1) final Real $DER.idealGasConstantGamma.adiabaticModel.h_out_is (StateSelect = avoid) (612|618) [DDER] (1) final Real $DER.idealGasConstantGamma.adiabaticModel.w_t_is (StateSelect = avoid) (613|619) [DER-] (2) source1.Medium.ThermodynamicState $DER.$FUN_3 (614|621) [DER-] (2) source1.outlet.Medium.ThermodynamicState $DER.source1.outlet.state (615|623) [DDER] (1) output Real $DER.source8.outlet.state.T (StateSelect = avoid) (616|624) [DDER] (1) output Real $DER.source8.outlet.state.p (StateSelect = avoid) (617|625) [DDER] (1) Real $DER.perfetGas.P_in_internal (StateSelect = avoid) (618|626) [DDER] (1) Real $DER.perfetGas.h_out (StateSelect = avoid) (619|627) [DDER] (1) Real $DER.perfetGas.dh (StateSelect = avoid) (620|628) [DDER] (1) Real $DER.perfetGas1.P_in_internal (StateSelect = avoid) (621|629) [DDER] (1) output Real $DER.source2.outlet.state.T (StateSelect = avoid) (622|630) [DDER] (1) output Real $DER.source2.outlet.state.p (StateSelect = avoid) (623|631) [DDER] (1) Real $DER.perfetGas2.dh (StateSelect = avoid) (624|632) [DDER] (1) Real $DER.$FUN_24.T (StateSelect = avoid) (625|633) [DDER] (1) final Real $DER.perfetGas.adiabaticModel.T_out (StateSelect = avoid) (626|634) [DDER] (1) final Real $DER.perfetGas.adiabaticModel.w_t (StateSelect = avoid) (627|635) [DER-] (2) perfetGas2.inlet.Medium.ThermodynamicState $DER.perfetGas2.inlet.state (628|637) [DER-] (2) final perfetGas2.adiabaticModel.Medium.ThermodynamicState $DER.perfetGas2.adiabaticModel.state_in (629|639) [DDER] (1) final Real $DER.idealGasConstantGamma.adiabaticModel.T_out_is (StateSelect = avoid) (630|640) [DDER] (1) Real $DER.$FUN_4.T (StateSelect = avoid) (631|641) [DDER] (1) final Real $DER.perfetGas.adiabaticModel.T_out_is (StateSelect = avoid) (632|642) [DDER] (1) final Real $DER.perfetGas.adiabaticModel.w_t_is (StateSelect = avoid) (633|643) [DDER] (1) Real $DER.$FUN_3.T (StateSelect = avoid) (634|644) [DDER] (1) final input Real $DER.idealGasConstantGamma2.adiabaticModel.state_in.T (StateSelect = avoid) (635|645) [DDER] (1) input Real $DER.perfetGas.inlet.state.p (StateSelect = avoid) (636|646) [DER-] (2) source2.Medium.ThermodynamicState $DER.$FUN_30 (637|648) [DER-] (2) source2.outlet.Medium.ThermodynamicState $DER.source2.outlet.state (638|650) [DDER] (1) input Real $DER.perfetGas.inlet.state.T (StateSelect = avoid) (639|651) [DDER] (1) Real $DER.perfetGas.h_in (StateSelect = avoid) (640|652) [DDER] (1) final input Real $DER.perfetGas.adiabaticModel.state_in.p (StateSelect = avoid) (641|653) [DDER] (1) final Real $DER.perfetGas.adiabaticModel.p_in (StateSelect = avoid) (642|654) [DDER] (1) final input Real $DER.idealGasConstantGamma.adiabaticModel.state_in.T (StateSelect = avoid) (643|655) [DDER] (1) final Real $DER.idealGasConstantGamma.adiabaticModel.h_in (StateSelect = avoid) (644|656) [DDER] (1) final Real $DER.perfetGas.adiabaticModel.T_in (StateSelect = avoid) (645|657) [DDER] (1) final Real $DER.perfetGas.adiabaticModel.gamma (StateSelect = avoid) (646|658) [DDER] (1) input Real $DER.idealGasConstantGamma2.inlet.state.T (StateSelect = avoid) (647|659) [DDER] (1) output Real $DER.source6.outlet.state.T (StateSelect = avoid) (648|660) [DDER] (1) final Real $DER.idealGasConstantGamma2.adiabaticModel.gamma (StateSelect = avoid) (649|661) [DDER] (1) final Real $DER.idealGasConstantGamma2.adiabaticModel.p_in (StateSelect = avoid) (650|662) [DDER] (1) Real $DER.idealGasConstantGamma2.p_out (StateSelect = avoid) (651|663) [DDER] (1) final Real $DER.idealGasConstantGamma2.adiabaticModel.T_in (StateSelect = avoid) (652|664) [DDER] (1) final Real $DER.idealGasConstantGamma2.adiabaticModel.T_out_is (StateSelect = avoid) (653|665) [DDER] (1) input Real $DER.idealGasConstantGamma2.inlet.state.p (StateSelect = avoid) (654|666) [DDER] (1) output Real $DER.source6.outlet.state.p (StateSelect = avoid) (655|667) [DDER] (1) input Real $DER.perfetGas2.inlet.state.p (StateSelect = avoid) (656|668) [DDER] (1) Real $DER.perfetGas2.p_in (StateSelect = avoid) (657|669) [DDER] (1) Real $DER.idealGasConstantGamma2.h_out (StateSelect = avoid) (658|670) [DDER] (1) final Real $DER.idealGasConstantGamma2.adiabaticModel.w_t (StateSelect = avoid) (659|671) [DDER] (1) input Real $DER.perfetGas2.inlet.state.T (StateSelect = avoid) (660|672) [DDER] (1) Real $DER.perfetGas2.h_in (StateSelect = avoid) (661|673) [DDER] (1) final input Real $DER.perfetGas2.adiabaticModel.state_in.p (StateSelect = avoid) (662|674) [DDER] (1) final Real $DER.idealGasConstantGamma2.adiabaticModel.h_in (StateSelect = avoid) (663|675) [DDER] (1) final Real $DER.idealGasConstantGamma2.adiabaticModel.h_out_is (StateSelect = avoid) (664|676) [DDER] (1) final Real $DER.idealGasConstantGamma2.adiabaticModel.w_t_is (StateSelect = avoid) (665|677) [DDER] (1) final input Real $DER.perfetGas2.adiabaticModel.state_in.T (StateSelect = avoid) (666|678) [DDER] (1) Real $DER.$FUN_43.T (StateSelect = avoid) (667|679) [DDER] (1) Real $DER.perfetGas2.h_out (StateSelect = avoid) (668|680) [DDER] (1) output Real $DER.source1.outlet.state.T (StateSelect = avoid) (669|681) [DDER] (1) Real $DER.$FUN_3.p (StateSelect = avoid) (670|682) [DDER] (1) final input Real $DER.perfetGas.adiabaticModel.state_in.T (StateSelect = avoid) (671|683) [DDER] (1) final Real $DER.perfetGas.adiabaticModel.cp (StateSelect = avoid) (672|684) [DER-] (2) idealGasConstantGamma.inlet.Medium.ThermodynamicState $DER.idealGasConstantGamma.inlet.state (673|686) [DER-] (2) final idealGasConstantGamma.adiabaticModel.Medium.ThermodynamicState $DER.idealGasConstantGamma.adiabaticModel.state_in (674|688) [DDER] (1) output Real $DER.source1.outlet.state.p (StateSelect = avoid) (675|689) [DDER] (1) final Real $DER.perfetGas2.adiabaticModel.gamma (StateSelect = avoid) (676|690) [DDER] (1) final Real $DER.perfetGas2.adiabaticModel.p_in (StateSelect = avoid) (677|691) [DDER] (1) Real $DER.perfetGas2.p_out (StateSelect = avoid) (678|692) [DDER] (1) Real $DER.idealGasConstantGamma.P_in_internal (StateSelect = avoid) (679|693) [DDER] (1) final Real $DER.perfetGas2.adiabaticModel.T_out (StateSelect = avoid) (680|694) [DDER] (1) final Real $DER.perfetGas2.adiabaticModel.w_t (StateSelect = avoid) (681|695) [DDER] (1) final Real $DER.perfetGas2.adiabaticModel.T_in (StateSelect = avoid) (682|696) [DDER] (1) final Real $DER.perfetGas2.adiabaticModel.T_out_is (StateSelect = avoid) (683|697) [DDER] (1) final Real $DER.perfetGas2.adiabaticModel.cp (StateSelect = avoid) (684|698) [DDER] (1) final Real $DER.perfetGas2.adiabaticModel.w_t_is (StateSelect = avoid) (685|699) [DER-] (2) source6.Medium.ThermodynamicState $DER.$FUN_23 (686|701) [DER-] (2) source6.outlet.Medium.ThermodynamicState $DER.source6.outlet.state (687|703) [DDER] (1) Real $DER.perfetGas.p_in (StateSelect = avoid) (688|704) [DDER] (1) Real $DER.perfetGas.p_out (StateSelect = avoid) (689|705) [DDER] (1) input Real $DER.idealGasConstantGamma.inlet.state.p (StateSelect = avoid) (690|706) [DDER] (1) Real $DER.idealGasConstantGamma.p_in (StateSelect = avoid) (691|707) [DDER] (1) Real $DER.idealGasConstantGamma.p_out (StateSelect = avoid) (692|708) [DDER] (1) Real $DER.perfetGas2.pRatio (StateSelect = avoid) (693|709) [DDER] (1) Real $DER.idealGasConstantGamma1.P_in_internal (StateSelect = avoid) (694|710) [DDER] (1) Real $DER.idealGasConstantGamma2.dh (StateSelect = avoid) (695|711) [DDER] (1) input Real $DER.idealGasConstantGamma.inlet.state.T (StateSelect = avoid) (696|712) [DDER] (1) Real $DER.idealGasConstantGamma.h_in (StateSelect = avoid) (697|713) [DDER] (1) final input Real $DER.idealGasConstantGamma.adiabaticModel.state_in.p (StateSelect = avoid) (698|714) [DDER] (1) final Real $DER.idealGasConstantGamma.adiabaticModel.p_in (StateSelect = avoid) (699|715) [DSTA] (1) Real perfetGas2.m_flow = perfetGas2.m_flow (StateSelect = default) (700|716) [DSTA] (1) Real idealGasConstantGamma2.m_flow = idealGasConstantGamma2.m_flow (StateSelect = default) System Equations (632/684) **************************** (1|1) [SCAL] (1) $FUN_34.p = perfetGas.p_out ($RES_SIM_1029) (2|2) [SCAL] (1) $FUN_31.T = perfetGas.adiabaticModel.T_out ($RES_SIM_1028) (3|3) [SCAL] (1) $FUN_31.p = perfetGas.p_out ($RES_SIM_1027) (4|4) [SCAL] (1) $FUN_30.T = source2.T0_par ($RES_SIM_1026) (5|5) [SCAL] (1) $FUN_30.p = source2.p0_par ($RES_SIM_1025) (6|6) [SCAL] (1) $FUN_29.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma2.Medium.T_h(idealGasConstantGamma2.h_out) ($RES_SIM_1024) (7|7) [SCAL] (1) $FUN_29.p = idealGasConstantGamma2.p_out ($RES_SIM_1023) (8|8) [SCAL] (1) $FUN_24.T = idealGasConstantGamma2.adiabaticModel.T_out_is ($RES_SIM_1022) (9|9) [SCAL] (1) $FUN_24.p = idealGasConstantGamma2.p_out ($RES_SIM_1021) (10|10) [SCAL] (1) $FUN_23.T = source6.T0_par ($RES_SIM_1020) (11|11) [SCAL] (1) idealGasConstantGamma3.dh = idealGasConstantGamma3.h_out - idealGasConstantGamma3.h_in ($RES_SIM_50) (12|12) [SCAL] (1) $FUN_195 = sign(idealGasConstantGamma1.adiabaticModel.Z_out - 1/(1.0 + idealGasConstantGamma1.adiabaticModel.relTolZ)) ($RES_AUX_800) (13|13) [SCAL] (1) $FUN_194 = sign((1.0 + idealGasConstantGamma1.adiabaticModel.relTolZ) - idealGasConstantGamma1.adiabaticModel.Z_out) ($RES_AUX_801) (14|14) [SCAL] (1) idealGasConstantGamma1.adiabaticModel.isGammaWithinTol = sign(idealGasConstantGamma1.adiabaticModel.relTolGamma - idealGasConstantGamma1.adiabaticModel.delta_gamma_rel) ($RES_AUX_802) (15|15) [SCAL] (1) idealGasConstantGamma1.adiabaticModel.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), idealGasConstantGamma1.adiabaticModel.state_in.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_803) (16|16) [SCAL] (1) idealGasConstantGamma2.p_in = idealGasConstantGamma2.inlet.state.p ($RES_AUX_804) (17|17) [SCAL] (1) idealGasConstantGamma3.adiabaticModel.w_t = if $SEV_10 then idealGasConstantGamma3.adiabaticModel.w_t_is / idealGasConstantGamma3.eta_fixed else idealGasConstantGamma3.adiabaticModel.w_t_is * idealGasConstantGamma3.eta_fixed ($RES_SIM_55) (18|18) [SCAL] (1) idealGasConstantGamma2.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), idealGasConstantGamma2.inlet.state.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_805) (19|19) [SCAL] (1) idealGasConstantGamma2.adiabaticModel.p_in = idealGasConstantGamma2.adiabaticModel.state_in.p ($RES_AUX_806) (20|20) [SCAL] (1) idealGasConstantGamma2.adiabaticModel.T_in = idealGasConstantGamma2.adiabaticModel.state_in.T ($RES_AUX_807) (21|21) [SCAL] (1) idealGasConstantGamma3.adiabaticModel.Z_out = (0.005293126209252852 * idealGasConstantGamma3.p_out) / ($FUN_56 * idealGasConstantGamma3.adiabaticModel.rho_out) ($RES_SIM_58) (22|22) [SCAL] (1) idealGasConstantGamma2.adiabaticModel.gamma = smooth(0, if noEvent(idealGasConstantGamma2.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma2.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma2.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma2.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma2.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma2.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma2.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T))) / ((-188.9244822140674) + smooth(0, if noEvent(idealGasConstantGamma2.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma2.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma2.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma2.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma2.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma2.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma2.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T)))) ($RES_AUX_808) (23|23) [SCAL] (1) idealGasConstantGamma3.adiabaticModel.Z_in = (0.005293126209252852 * idealGasConstantGamma3.adiabaticModel.p_in) / (idealGasConstantGamma3.adiabaticModel.T_in * idealGasConstantGamma3.adiabaticModel.rho_in) ($RES_SIM_59) (24|24) [SCAL] (1) idealGasConstantGamma2.adiabaticModel.gamma_out = smooth(0, if noEvent($FUN_185.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_185.T * ((-626.411601) + $FUN_185.T * (5.30172524 + $FUN_185.T * (0.002503813816 + $FUN_185.T * ((-2.127308728e-7) + $FUN_185.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_185.T)))))) * (1/($FUN_185.T * $FUN_185.T)) else 188.9244822140674 * (117696.2419 + $FUN_185.T * ((-1788.791477) + $FUN_185.T * (8.29152319 + $FUN_185.T * ((-9.22315678e-5) + $FUN_185.T * (4.86367688e-9 + $FUN_185.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_185.T)))))) * (1/($FUN_185.T * $FUN_185.T))) / ((-188.9244822140674) + smooth(0, if noEvent($FUN_185.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_185.T * ((-626.411601) + $FUN_185.T * (5.30172524 + $FUN_185.T * (0.002503813816 + $FUN_185.T * ((-2.127308728e-7) + $FUN_185.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_185.T)))))) * (1/($FUN_185.T * $FUN_185.T)) else 188.9244822140674 * (117696.2419 + $FUN_185.T * ((-1788.791477) + $FUN_185.T * (8.29152319 + $FUN_185.T * ((-9.22315678e-5) + $FUN_185.T * (4.86367688e-9 + $FUN_185.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_185.T)))))) * (1/($FUN_185.T * $FUN_185.T)))) ($RES_AUX_809) (25|25) [SCAL] (1) $FUN_23.p = source6.p0_par ($RES_SIM_1019) (26|26) [SCAL] (1) $FUN_22.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma1.Medium.T_h(idealGasConstantGamma1.h_out) ($RES_SIM_1018) (27|27) [SCAL] (1) $FUN_22.p = idealGasConstantGamma1.p_out ($RES_SIM_1017) (28|28) [SCAL] (1) $FUN_17.T = idealGasConstantGamma1.adiabaticModel.T_out_is ($RES_SIM_1016) (29|29) [SCAL] (1) $FUN_17.p = idealGasConstantGamma1.p_out ($RES_SIM_1015) (30|30) [SCAL] (1) $FUN_16.T = source5.T0_par ($RES_SIM_1014) (31|31) [SCAL] (1) $FUN_16.p = source5.p0_par ($RES_SIM_1013) (32|32) [SCAL] (1) $FUN_15.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium2.Medium.T_h(fullMedium2.h_out) ($RES_SIM_1012) (33|33) [SCAL] (1) $FUN_15.p = fullMedium2.p_out ($RES_SIM_1011) (34|34) [SCAL] (1) $FUN_12.T = source4.T0_par ($RES_SIM_1010) (35|35) [SCAL] (1) idealGasConstantGamma3.adiabaticModel.T_out_is = idealGasConstantGamma3.adiabaticModel.T_in * (idealGasConstantGamma3.p_out / idealGasConstantGamma3.adiabaticModel.p_in) ^ ((idealGasConstantGamma3.adiabaticModel.gamma - 1.0) / idealGasConstantGamma3.adiabaticModel.gamma) ($RES_SIM_60) (36|36) [SCAL] (1) $FUN_184 = abs(idealGasConstantGamma2.adiabaticModel.gamma_out - idealGasConstantGamma2.adiabaticModel.gamma) ($RES_AUX_811) (37|37) [SCAL] (1) idealGasConstantGamma2.adiabaticModel.rho_in = (0.005293120236618753 * idealGasConstantGamma2.adiabaticModel.state_in.p) / idealGasConstantGamma2.adiabaticModel.state_in.T ($RES_AUX_812) (38|38) [SCAL] (1) idealGasConstantGamma2.adiabaticModel.rho_out = (0.005293120236618753 * idealGasConstantGamma2.adiabaticModel.state_out.p) / idealGasConstantGamma2.adiabaticModel.state_out.T ($RES_AUX_813) (39|39) [SCAL] (1) idealGasConstantGamma3.adiabaticModel.w_t = idealGasConstantGamma3.h_out - idealGasConstantGamma3.adiabaticModel.h_in ($RES_SIM_65) (40|40) [SCAL] (1) $FUN_180 = sign(idealGasConstantGamma2.adiabaticModel.Z_in - 1/(1.0 + idealGasConstantGamma2.adiabaticModel.relTolZ)) ($RES_AUX_815) (41|41) [SCAL] (1) idealGasConstantGamma3.adiabaticModel.w_t_is = idealGasConstantGamma3.adiabaticModel.h_out_is - idealGasConstantGamma3.adiabaticModel.h_in ($RES_SIM_66) (42|42) [SCAL] (1) $FUN_179 = sign((1.0 + idealGasConstantGamma2.adiabaticModel.relTolZ) - idealGasConstantGamma2.adiabaticModel.Z_in) ($RES_AUX_816) (43|43) [SCAL] (1) idealGasConstantGamma3.adiabaticModel.rho_out = (0.005293120236618753 * idealGasConstantGamma3.adiabaticModel.state_out.p) / idealGasConstantGamma3.adiabaticModel.state_out.T ($RES_AUX_900) (44|44) [SCAL] (1) $FUN_178 = sign(idealGasConstantGamma2.adiabaticModel.Z_out - 1/(1.0 + idealGasConstantGamma2.adiabaticModel.relTolZ)) ($RES_AUX_817) (45|45) [SCAL] (1) $FUN_177 = sign((1.0 + idealGasConstantGamma2.adiabaticModel.relTolZ) - idealGasConstantGamma2.adiabaticModel.Z_out) ($RES_AUX_818) (46|46) [SCAL] (1) $FUN_93 = sign(idealGasConstantGamma3.adiabaticModel.Z_in - 1/(1.0 + idealGasConstantGamma3.adiabaticModel.relTolZ)) ($RES_AUX_902) (47|47) [SCAL] (1) idealGasConstantGamma2.adiabaticModel.isGammaWithinTol = sign(idealGasConstantGamma2.adiabaticModel.relTolGamma - idealGasConstantGamma2.adiabaticModel.delta_gamma_rel) ($RES_AUX_819) (48|48) [SCAL] (1) $FUN_92 = sign((1.0 + idealGasConstantGamma3.adiabaticModel.relTolZ) - idealGasConstantGamma3.adiabaticModel.Z_in) ($RES_AUX_903) (49|49) [SCAL] (1) $FUN_91 = sign(idealGasConstantGamma3.adiabaticModel.Z_out - 1/(1.0 + idealGasConstantGamma3.adiabaticModel.relTolZ)) ($RES_AUX_904) (50|50) [SCAL] (1) $FUN_90 = sign((1.0 + idealGasConstantGamma3.adiabaticModel.relTolZ) - idealGasConstantGamma3.adiabaticModel.Z_out) ($RES_AUX_905) (51|51) [SCAL] (1) idealGasConstantGamma3.adiabaticModel.isGammaWithinTol = sign(idealGasConstantGamma3.adiabaticModel.relTolGamma - idealGasConstantGamma3.adiabaticModel.delta_gamma_rel) ($RES_AUX_906) (52|52) [SCAL] (1) idealGasConstantGamma3.adiabaticModel.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), idealGasConstantGamma3.adiabaticModel.state_in.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_907) (53|53) [SCAL] (1) sink11.p = sink11.inlet.state.p ($RES_AUX_908) (54|54) [SCAL] (1) perfetGas3.p_in = perfetGas3.inlet.state.p ($RES_AUX_909) (55|55) [SCAL] (1) $FUN_12.p = source4.p0_par ($RES_SIM_1009) (56|56) [SCAL] (1) $FUN_11.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium1.Medium.T_h(fullMedium1.h_out) ($RES_SIM_1008) (57|57) [SCAL] (1) $FUN_11.p = fullMedium1.p_out ($RES_SIM_1007) (58|58) [SCAL] (1) $FUN_8.T = source3.T0_par ($RES_SIM_1006) (59|59) [SCAL] (1) $FUN_8.p = source3.p0_par ($RES_SIM_1005) (60|60) [SCAL] (1) $FUN_7.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma.Medium.T_h(idealGasConstantGamma.h_out) ($RES_SIM_1004) (61|61) [SCAL] (1) $FUN_7.p = idealGasConstantGamma.p_out ($RES_SIM_1003) (62|62) [SCAL] (1) $FUN_4.T = idealGasConstantGamma.adiabaticModel.T_out_is ($RES_SIM_1002) (63|63) [SCAL] (1) $FUN_4.p = idealGasConstantGamma.p_out ($RES_SIM_1001) (64|64) [SCAL] (1) $FUN_3.T = source1.T0_par ($RES_SIM_1000) (65|65) [RECD] (2) source10.outlet.state = $FUN_53 ($RES_SIM_71) (66|67) [SCAL] (1) idealGasConstantGamma2.adiabaticModel.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), idealGasConstantGamma2.adiabaticModel.state_in.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_820) (67|68) [SCAL] (1) sink2.p = sink2.inlet.state.p ($RES_AUX_821) (68|69) [SCAL] (1) perfetGas.p_in = perfetGas.inlet.state.p ($RES_AUX_822) (69|70) [SCAL] (1) perfetGas.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), perfetGas.inlet.state.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_823) (70|71) [SCAL] (1) perfetGas.adiabaticModel.p_in = perfetGas.adiabaticModel.state_in.p ($RES_AUX_824) (71|72) [RECD] (2) fullMedium3.outlet.state = $FUN_52 ($RES_SIM_76) (72|74) [SCAL] (1) perfetGas.adiabaticModel.T_in = perfetGas.adiabaticModel.state_in.T ($RES_AUX_825) (73|75) [SCAL] (1) perfetGas.adiabaticModel.gamma = smooth(0, if noEvent(perfetGas.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + perfetGas.adiabaticModel.state_in.T * ((-626.411601) + perfetGas.adiabaticModel.state_in.T * (5.30172524 + perfetGas.adiabaticModel.state_in.T * (0.002503813816 + perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T)))))) * (1/(perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + perfetGas.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas.adiabaticModel.state_in.T * (8.29152319 + perfetGas.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T)))))) * (1/(perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T))) / ((-188.9244822140674) + smooth(0, if noEvent(perfetGas.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + perfetGas.adiabaticModel.state_in.T * ((-626.411601) + perfetGas.adiabaticModel.state_in.T * (5.30172524 + perfetGas.adiabaticModel.state_in.T * (0.002503813816 + perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T)))))) * (1/(perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + perfetGas.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas.adiabaticModel.state_in.T * (8.29152319 + perfetGas.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T)))))) * (1/(perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T)))) ($RES_AUX_826) (74|76) [SCAL] (1) fullMedium3.p_out = fullMedium3.p_in + fullMedium3.dp ($RES_SIM_78) (75|77) [SCAL] (1) perfetGas3.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), perfetGas3.inlet.state.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_910) (76|78) [SCAL] (1) perfetGas.adiabaticModel.gamma_out = smooth(0, if noEvent($FUN_156.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_156.T * ((-626.411601) + $FUN_156.T * (5.30172524 + $FUN_156.T * (0.002503813816 + $FUN_156.T * ((-2.127308728e-7) + $FUN_156.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_156.T)))))) * (1/($FUN_156.T * $FUN_156.T)) else 188.9244822140674 * (117696.2419 + $FUN_156.T * ((-1788.791477) + $FUN_156.T * (8.29152319 + $FUN_156.T * ((-9.22315678e-5) + $FUN_156.T * (4.86367688e-9 + $FUN_156.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_156.T)))))) * (1/($FUN_156.T * $FUN_156.T))) / ((-188.9244822140674) + smooth(0, if noEvent($FUN_156.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_156.T * ((-626.411601) + $FUN_156.T * (5.30172524 + $FUN_156.T * (0.002503813816 + $FUN_156.T * ((-2.127308728e-7) + $FUN_156.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_156.T)))))) * (1/($FUN_156.T * $FUN_156.T)) else 188.9244822140674 * (117696.2419 + $FUN_156.T * ((-1788.791477) + $FUN_156.T * (8.29152319 + $FUN_156.T * ((-9.22315678e-5) + $FUN_156.T * (4.86367688e-9 + $FUN_156.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_156.T)))))) * (1/($FUN_156.T * $FUN_156.T)))) ($RES_AUX_827) (77|79) [SCAL] (1) perfetGas3.adiabaticModel.p_in = perfetGas3.adiabaticModel.state_in.p ($RES_AUX_911) (78|80) [SCAL] (1) $FUN_167 = abs(perfetGas.adiabaticModel.gamma_out - perfetGas.adiabaticModel.gamma) ($RES_AUX_828) (79|81) [SCAL] (1) perfetGas3.adiabaticModel.T_in = perfetGas3.adiabaticModel.state_in.T ($RES_AUX_912) (80|82) [SCAL] (1) perfetGas.adiabaticModel.rho_in = (0.005293120236618753 * perfetGas.adiabaticModel.state_in.p) / perfetGas.adiabaticModel.state_in.T ($RES_AUX_829) (81|83) [SCAL] (1) perfetGas3.adiabaticModel.gamma = smooth(0, if noEvent(perfetGas3.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + perfetGas3.adiabaticModel.state_in.T * ((-626.411601) + perfetGas3.adiabaticModel.state_in.T * (5.30172524 + perfetGas3.adiabaticModel.state_in.T * (0.002503813816 + perfetGas3.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas3.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas3.adiabaticModel.state_in.T)))))) * (1/(perfetGas3.adiabaticModel.state_in.T * perfetGas3.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + perfetGas3.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas3.adiabaticModel.state_in.T * (8.29152319 + perfetGas3.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas3.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas3.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas3.adiabaticModel.state_in.T)))))) * (1/(perfetGas3.adiabaticModel.state_in.T * perfetGas3.adiabaticModel.state_in.T))) / ((-188.9244822140674) + smooth(0, if noEvent(perfetGas3.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + perfetGas3.adiabaticModel.state_in.T * ((-626.411601) + perfetGas3.adiabaticModel.state_in.T * (5.30172524 + perfetGas3.adiabaticModel.state_in.T * (0.002503813816 + perfetGas3.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas3.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas3.adiabaticModel.state_in.T)))))) * (1/(perfetGas3.adiabaticModel.state_in.T * perfetGas3.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + perfetGas3.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas3.adiabaticModel.state_in.T * (8.29152319 + perfetGas3.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas3.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas3.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas3.adiabaticModel.state_in.T)))))) * (1/(perfetGas3.adiabaticModel.state_in.T * perfetGas3.adiabaticModel.state_in.T)))) ($RES_AUX_913) (82|84) [SCAL] (1) perfetGas3.adiabaticModel.gamma_out = smooth(0, if noEvent($FUN_69.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_69.T * ((-626.411601) + $FUN_69.T * (5.30172524 + $FUN_69.T * (0.002503813816 + $FUN_69.T * ((-2.127308728e-7) + $FUN_69.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_69.T)))))) * (1/($FUN_69.T * $FUN_69.T)) else 188.9244822140674 * (117696.2419 + $FUN_69.T * ((-1788.791477) + $FUN_69.T * (8.29152319 + $FUN_69.T * ((-9.22315678e-5) + $FUN_69.T * (4.86367688e-9 + $FUN_69.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_69.T)))))) * (1/($FUN_69.T * $FUN_69.T))) / ((-188.9244822140674) + smooth(0, if noEvent($FUN_69.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_69.T * ((-626.411601) + $FUN_69.T * (5.30172524 + $FUN_69.T * (0.002503813816 + $FUN_69.T * ((-2.127308728e-7) + $FUN_69.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_69.T)))))) * (1/($FUN_69.T * $FUN_69.T)) else 188.9244822140674 * (117696.2419 + $FUN_69.T * ((-1788.791477) + $FUN_69.T * (8.29152319 + $FUN_69.T * ((-9.22315678e-5) + $FUN_69.T * (4.86367688e-9 + $FUN_69.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_69.T)))))) * (1/($FUN_69.T * $FUN_69.T)))) ($RES_AUX_914) (83|85) [SCAL] (1) $FUN_80 = abs(perfetGas3.adiabaticModel.gamma_out - perfetGas3.adiabaticModel.gamma) ($RES_AUX_915) (84|86) [SCAL] (1) perfetGas3.adiabaticModel.rho_in = (0.005293120236618753 * perfetGas3.adiabaticModel.state_in.p) / perfetGas3.adiabaticModel.state_in.T ($RES_AUX_916) (85|87) [SCAL] (1) perfetGas3.adiabaticModel.rho_out = (0.005293120236618753 * perfetGas3.adiabaticModel.state_out.p) / perfetGas3.adiabaticModel.state_out.T ($RES_AUX_917) (86|88) [SCAL] (1) $FUN_76 = sign(perfetGas3.adiabaticModel.Z_in - 1/(1.0 + perfetGas3.adiabaticModel.relTolZ)) ($RES_AUX_919) (87|89) [SCAL] (1) perfetGas2.pRatio = fullMedium.p_out / fullMedium.p_in ($RES_BND_516) (88|90) [SCAL] (1) idealGasConstantGamma2.adiabaticModel.isInletIdealGas = CAST(Real, $FUN_179 * $FUN_180) ($RES_BND_601) (89|91) [SCAL] (1) fullMedium3.singularityRegime = if noEvent($FUN_50 > 2.220446049250313e-16 and $FUN_51 < 2.220446049250313e-16) then 1.0 else 0.0 ($RES_SIM_81) (90|92) [SCAL] (1) perfetGas.adiabaticModel.rho_out = (0.005293120236618753 * perfetGas.adiabaticModel.state_out.p) / perfetGas.adiabaticModel.state_out.T ($RES_AUX_830) (91|93) [SCAL] (1) idealGasConstantGamma2.adiabaticModel.isOutletIdealGas = CAST(Real, $FUN_177 * $FUN_178) ($RES_BND_602) (92|94) [SCAL] (1) fullMedium3.P = sink9.m_flow_fixed * fullMedium3.dh ($RES_SIM_82) (93|95) [SCAL] (1) sink.p = sink.inlet.state.p ($RES_AUX_748) (94|96) [SCAL] (1) $FUN_163 = sign(perfetGas.adiabaticModel.Z_in - 1/(1.0 + perfetGas.adiabaticModel.relTolZ)) ($RES_AUX_832) (95|97) [SCAL] (1) fullMedium.p_in = fullMedium.inlet.state.p ($RES_AUX_749) (96|98) [SCAL] (1) fullMedium3.dh = fullMedium3.h_out - fullMedium3.h_in ($RES_SIM_84) (97|99) [SCAL] (1) $FUN_162 = sign((1.0 + perfetGas.adiabaticModel.relTolZ) - perfetGas.adiabaticModel.Z_in) ($RES_AUX_833) (98|100) [SCAL] (1) ($DER.fullMedium3.dp * fullMedium3.TC) / fullMedium3.dp_nom = (fullMedium1.P_in_internal - fullMedium3.P) / fullMedium3.P_nom ($RES_SIM_85) (99|101) [SCAL] (1) $FUN_161 = sign(perfetGas.adiabaticModel.Z_out - 1/(1.0 + perfetGas.adiabaticModel.relTolZ)) ($RES_AUX_834) (100|102) [SCAL] (1) $FUN_160 = sign((1.0 + perfetGas.adiabaticModel.relTolZ) - perfetGas.adiabaticModel.Z_out) ($RES_AUX_835) (101|103) [SCAL] (1) perfetGas.adiabaticModel.isGammaWithinTol = sign(perfetGas.adiabaticModel.relTolGamma - perfetGas.adiabaticModel.delta_gamma_rel) ($RES_AUX_836) (102|104) [SCAL] (1) $FUN_75 = sign((1.0 + perfetGas3.adiabaticModel.relTolZ) - perfetGas3.adiabaticModel.Z_in) ($RES_AUX_920) (103|105) [SCAL] (1) perfetGas.adiabaticModel.cp = smooth(0, if noEvent(perfetGas.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + perfetGas.adiabaticModel.state_in.T * ((-626.411601) + perfetGas.adiabaticModel.state_in.T * (5.30172524 + perfetGas.adiabaticModel.state_in.T * (0.002503813816 + perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T)))))) * (1/(perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + perfetGas.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas.adiabaticModel.state_in.T * (8.29152319 + perfetGas.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T)))))) * (1/(perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T))) ($RES_AUX_837) (104|106) [SCAL] (1) fullMedium3.adiabaticModel.w_t = if $SEV_9 then fullMedium3.adiabaticModel.w_t_is / fullMedium3.eta_fixed else fullMedium3.adiabaticModel.w_t_is * fullMedium3.eta_fixed ($RES_SIM_89) (105|107) [SCAL] (1) $FUN_74 = sign(perfetGas3.adiabaticModel.Z_out - 1/(1.0 + perfetGas3.adiabaticModel.relTolZ)) ($RES_AUX_921) (106|108) [SCAL] (1) perfetGas.adiabaticModel.cp_out = smooth(0, if noEvent($FUN_156.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_156.T * ((-626.411601) + $FUN_156.T * (5.30172524 + $FUN_156.T * (0.002503813816 + $FUN_156.T * ((-2.127308728e-7) + $FUN_156.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_156.T)))))) * (1/($FUN_156.T * $FUN_156.T)) else 188.9244822140674 * (117696.2419 + $FUN_156.T * ((-1788.791477) + $FUN_156.T * (8.29152319 + $FUN_156.T * ((-9.22315678e-5) + $FUN_156.T * (4.86367688e-9 + $FUN_156.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_156.T)))))) * (1/($FUN_156.T * $FUN_156.T))) ($RES_AUX_838) (107|109) [SCAL] (1) $FUN_73 = sign((1.0 + perfetGas3.adiabaticModel.relTolZ) - perfetGas3.adiabaticModel.Z_out) ($RES_AUX_922) (108|110) [SCAL] (1) perfetGas3.adiabaticModel.isGammaWithinTol = sign(perfetGas3.adiabaticModel.relTolGamma - perfetGas3.adiabaticModel.delta_gamma_rel) ($RES_AUX_923) (109|111) [SCAL] (1) perfetGas3.adiabaticModel.cp = smooth(0, if noEvent(perfetGas3.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + perfetGas3.adiabaticModel.state_in.T * ((-626.411601) + perfetGas3.adiabaticModel.state_in.T * (5.30172524 + perfetGas3.adiabaticModel.state_in.T * (0.002503813816 + perfetGas3.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas3.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas3.adiabaticModel.state_in.T)))))) * (1/(perfetGas3.adiabaticModel.state_in.T * perfetGas3.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + perfetGas3.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas3.adiabaticModel.state_in.T * (8.29152319 + perfetGas3.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas3.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas3.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas3.adiabaticModel.state_in.T)))))) * (1/(perfetGas3.adiabaticModel.state_in.T * perfetGas3.adiabaticModel.state_in.T))) ($RES_AUX_924) (110|112) [SCAL] (1) perfetGas3.adiabaticModel.cp_out = smooth(0, if noEvent($FUN_69.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_69.T * ((-626.411601) + $FUN_69.T * (5.30172524 + $FUN_69.T * (0.002503813816 + $FUN_69.T * ((-2.127308728e-7) + $FUN_69.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_69.T)))))) * (1/($FUN_69.T * $FUN_69.T)) else 188.9244822140674 * (117696.2419 + $FUN_69.T * ((-1788.791477) + $FUN_69.T * (8.29152319 + $FUN_69.T * ((-9.22315678e-5) + $FUN_69.T * (4.86367688e-9 + $FUN_69.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_69.T)))))) * (1/($FUN_69.T * $FUN_69.T))) ($RES_AUX_925) (111|113) [SCAL] (1) $FUN_68 = abs(perfetGas3.adiabaticModel.cp_out - perfetGas3.adiabaticModel.cp) ($RES_AUX_927) (112|114) [SCAL] (1) perfetGas3.adiabaticModel.isCpWithinTol = sign(perfetGas3.adiabaticModel.relTolCp - perfetGas3.adiabaticModel.delta_cp_rel) ($RES_AUX_928) (113|115) [SCAL] (1) fullMedium.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), fullMedium.inlet.state.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_750) (114|116) [SCAL] (1) fullMedium.adiabaticModel.p_in = fullMedium.adiabaticModel.state_in.p ($RES_AUX_751) (115|117) [SCAL] (1) fullMedium.adiabaticModel.s_in = (if noEvent(fullMedium.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (((-7.04827944) + 626.411601 / fullMedium.adiabaticModel.state_in.T + 5.30172524 * log(fullMedium.adiabaticModel.state_in.T) + fullMedium.adiabaticModel.state_in.T * (0.002503813816 + fullMedium.adiabaticModel.state_in.T * ((-1.063654364e-7) + fullMedium.adiabaticModel.state_in.T * ((-2.563329593333333e-10) + 7.1241945025e-14 * fullMedium.adiabaticModel.state_in.T)))) - 24718.2527 / (fullMedium.adiabaticModel.state_in.T * fullMedium.adiabaticModel.state_in.T)) else 188.9244822140674 * (((-26.52669281) + 1788.791477 / fullMedium.adiabaticModel.state_in.T + 8.29152319 * log(fullMedium.adiabaticModel.state_in.T) + fullMedium.adiabaticModel.state_in.T * ((-9.22315678e-5) + fullMedium.adiabaticModel.state_in.T * (2.43183844e-9 + fullMedium.adiabaticModel.state_in.T * ((-6.303511039999999e-13) + 1.5825091474999999e-16 * fullMedium.adiabaticModel.state_in.T)))) - 58848.12095 / (fullMedium.adiabaticModel.state_in.T * fullMedium.adiabaticModel.state_in.T))) - 188.9244822140674 * log(9.869232667160129e-6 * fullMedium.adiabaticModel.state_in.p) ($RES_AUX_752) (116|118) [SCAL] (1) fullMedium.adiabaticModel.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), fullMedium.adiabaticModel.state_in.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_753) (117|119) [SCAL] (1) fullMedium.adiabaticModel.h_out_is = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium.adiabaticModel.Medium.T_ps(fullMedium.p_out, fullMedium.adiabaticModel.s_in), true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_754) (118|120) [SCAL] (1) sink1.p = sink1.inlet.state.p ($RES_AUX_755) (119|121) [SCAL] (1) perfetGas2.pRatio = perfetGas.p_out / perfetGas.p_in ($RES_BND_610) (120|122) [SCAL] (1) idealGasConstantGamma.p_in = idealGasConstantGamma.inlet.state.p ($RES_AUX_756) (121|123) [SCAL] (1) perfetGas2.pRatio = idealGasConstantGamma.p_out / idealGasConstantGamma.p_in ($RES_BND_528) (122|124) [SCAL] (1) $FUN_155 = abs(perfetGas.adiabaticModel.cp_out - perfetGas.adiabaticModel.cp) ($RES_AUX_840) (123|125) [SCAL] (1) idealGasConstantGamma.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), idealGasConstantGamma.inlet.state.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_757) (124|126) [SCAL] (1) fullMedium3.adiabaticModel.w_t = fullMedium3.h_out - fullMedium3.adiabaticModel.h_in ($RES_SIM_92) (125|127) [SCAL] (1) perfetGas.adiabaticModel.isCpWithinTol = sign(perfetGas.adiabaticModel.relTolCp - perfetGas.adiabaticModel.delta_cp_rel) ($RES_AUX_841) (126|128) [SCAL] (1) idealGasConstantGamma.adiabaticModel.p_in = idealGasConstantGamma.adiabaticModel.state_in.p ($RES_AUX_758) (127|129) [SCAL] (1) fullMedium3.adiabaticModel.w_t_is = fullMedium3.adiabaticModel.h_out_is - fullMedium3.adiabaticModel.h_in ($RES_SIM_93) (128|130) [SCAL] (1) sink7.p = sink7.inlet.state.p ($RES_AUX_842) (129|131) [SCAL] (1) idealGasConstantGamma.adiabaticModel.T_in = idealGasConstantGamma.adiabaticModel.state_in.T ($RES_AUX_759) (130|132) [SCAL] (1) perfetGas1.p_in = perfetGas1.inlet.state.p ($RES_AUX_843) (131|133) [SCAL] (1) perfetGas1.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), perfetGas1.inlet.state.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_844) (132|134) [SCAL] (1) perfetGas1.adiabaticModel.p_in = perfetGas1.adiabaticModel.state_in.p ($RES_AUX_845) (133|135) [SCAL] (1) perfetGas.adiabaticModel.delta_gamma_rel = $FUN_167 / max(perfetGas.adiabaticModel.gamma_out, perfetGas.adiabaticModel.gamma) ($RES_BND_617) (134|136) [RECD] (2) source9.outlet.state = $FUN_49 ($RES_SIM_97) (135|138) [SCAL] (1) perfetGas1.adiabaticModel.T_in = perfetGas1.adiabaticModel.state_in.T ($RES_AUX_846) (136|139) [SCAL] (1) idealGasConstantGamma3.adiabaticModel.isInletIdealGas = CAST(Real, $FUN_92 * $FUN_93) ($RES_BND_701) (137|140) [SCAL] (1) $FUN_65 = abs(sink11.m_flow_fixed) ($RES_AUX_930) (138|141) [SCAL] (1) perfetGas1.adiabaticModel.gamma = smooth(0, if noEvent(perfetGas1.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + perfetGas1.adiabaticModel.state_in.T * ((-626.411601) + perfetGas1.adiabaticModel.state_in.T * (5.30172524 + perfetGas1.adiabaticModel.state_in.T * (0.002503813816 + perfetGas1.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas1.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas1.adiabaticModel.state_in.T)))))) * (1/(perfetGas1.adiabaticModel.state_in.T * perfetGas1.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + perfetGas1.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas1.adiabaticModel.state_in.T * (8.29152319 + perfetGas1.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas1.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas1.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas1.adiabaticModel.state_in.T)))))) * (1/(perfetGas1.adiabaticModel.state_in.T * perfetGas1.adiabaticModel.state_in.T))) / ((-188.9244822140674) + smooth(0, if noEvent(perfetGas1.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + perfetGas1.adiabaticModel.state_in.T * ((-626.411601) + perfetGas1.adiabaticModel.state_in.T * (5.30172524 + perfetGas1.adiabaticModel.state_in.T * (0.002503813816 + perfetGas1.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas1.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas1.adiabaticModel.state_in.T)))))) * (1/(perfetGas1.adiabaticModel.state_in.T * perfetGas1.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + perfetGas1.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas1.adiabaticModel.state_in.T * (8.29152319 + perfetGas1.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas1.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas1.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas1.adiabaticModel.state_in.T)))))) * (1/(perfetGas1.adiabaticModel.state_in.T * perfetGas1.adiabaticModel.state_in.T)))) ($RES_AUX_847) (139|142) [SCAL] (1) idealGasConstantGamma3.adiabaticModel.isOutletIdealGas = CAST(Real, $FUN_90 * $FUN_91) ($RES_BND_702) (140|143) [SCAL] (1) $FUN_64 = abs(perfetGas3.P) ($RES_AUX_931) (141|144) [SCAL] (1) perfetGas1.adiabaticModel.gamma_out = smooth(0, if noEvent($FUN_135.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_135.T * ((-626.411601) + $FUN_135.T * (5.30172524 + $FUN_135.T * (0.002503813816 + $FUN_135.T * ((-2.127308728e-7) + $FUN_135.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_135.T)))))) * (1/($FUN_135.T * $FUN_135.T)) else 188.9244822140674 * (117696.2419 + $FUN_135.T * ((-1788.791477) + $FUN_135.T * (8.29152319 + $FUN_135.T * ((-9.22315678e-5) + $FUN_135.T * (4.86367688e-9 + $FUN_135.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_135.T)))))) * (1/($FUN_135.T * $FUN_135.T))) / ((-188.9244822140674) + smooth(0, if noEvent($FUN_135.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_135.T * ((-626.411601) + $FUN_135.T * (5.30172524 + $FUN_135.T * (0.002503813816 + $FUN_135.T * ((-2.127308728e-7) + $FUN_135.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_135.T)))))) * (1/($FUN_135.T * $FUN_135.T)) else 188.9244822140674 * (117696.2419 + $FUN_135.T * ((-1788.791477) + $FUN_135.T * (8.29152319 + $FUN_135.T * ((-9.22315678e-5) + $FUN_135.T * (4.86367688e-9 + $FUN_135.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_135.T)))))) * (1/($FUN_135.T * $FUN_135.T)))) ($RES_AUX_848) (142|145) [SCAL] (1) $FUN_63 = perfetGas3.adiabaticModel.state_out.T ($RES_AUX_932) (143|146) [SCAL] (1) $FUN_146 = abs(perfetGas1.adiabaticModel.gamma_out - perfetGas1.adiabaticModel.gamma) ($RES_AUX_849) (144|147) [SCAL] (1) perfetGas3.h_out = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), $FUN_61.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_933) (145|148) [SCAL] (1) $FUN_58 = abs(sink10.m_flow_fixed) ($RES_AUX_937) (146|149) [SCAL] (1) $FUN_57 = abs(idealGasConstantGamma1.P_in_internal) ($RES_AUX_938) (147|150) [SCAL] (1) $FUN_56 = idealGasConstantGamma3.adiabaticModel.state_out.T ($RES_AUX_939) (148|151) [SCAL] (1) perfetGas1.P_in_internal = -gain2.k * perfetGas.P_in_internal ($RES_SIM_102) (149|152) [RECD] (2) perfetGas2.outlet.state = $FUN_48 ($RES_SIM_103) (150|154) [SCAL] (1) perfetGas2.p_out = perfetGas2.p_in + perfetGas2.dp ($RES_SIM_105) (151|155) [SCAL] (1) perfetGas2.outlet.r = source8.outlet.r - $DER.perfetGas2.m_flow * perfetGas2.L ($RES_SIM_106) (152|156) [SCAL] (1) perfetGas2.singularityRegime = if noEvent($FUN_46 > 2.220446049250313e-16 and $FUN_47 < 2.220446049250313e-16) then -1.0 else 0.0 ($RES_SIM_108) (153|157) [SCAL] (1) idealGasConstantGamma.adiabaticModel.gamma = smooth(0, if noEvent(idealGasConstantGamma.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T))) / ((-188.9244822140674) + smooth(0, if noEvent(idealGasConstantGamma.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T)))) ($RES_AUX_760) (154|158) [SCAL] (1) idealGasConstantGamma.adiabaticModel.gamma_out = smooth(0, if noEvent($FUN_233.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_233.T * ((-626.411601) + $FUN_233.T * (5.30172524 + $FUN_233.T * (0.002503813816 + $FUN_233.T * ((-2.127308728e-7) + $FUN_233.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_233.T)))))) * (1/($FUN_233.T * $FUN_233.T)) else 188.9244822140674 * (117696.2419 + $FUN_233.T * ((-1788.791477) + $FUN_233.T * (8.29152319 + $FUN_233.T * ((-9.22315678e-5) + $FUN_233.T * (4.86367688e-9 + $FUN_233.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_233.T)))))) * (1/($FUN_233.T * $FUN_233.T))) / ((-188.9244822140674) + smooth(0, if noEvent($FUN_233.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_233.T * ((-626.411601) + $FUN_233.T * (5.30172524 + $FUN_233.T * (0.002503813816 + $FUN_233.T * ((-2.127308728e-7) + $FUN_233.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_233.T)))))) * (1/($FUN_233.T * $FUN_233.T)) else 188.9244822140674 * (117696.2419 + $FUN_233.T * ((-1788.791477) + $FUN_233.T * (8.29152319 + $FUN_233.T * ((-9.22315678e-5) + $FUN_233.T * (4.86367688e-9 + $FUN_233.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_233.T)))))) * (1/($FUN_233.T * $FUN_233.T)))) ($RES_AUX_761) (155|159) [SCAL] (1) $FUN_232 = abs(idealGasConstantGamma.adiabaticModel.gamma_out - idealGasConstantGamma.adiabaticModel.gamma) ($RES_AUX_763) (156|160) [SCAL] (1) idealGasConstantGamma.adiabaticModel.delta_gamma_rel = $FUN_232 / max(idealGasConstantGamma.adiabaticModel.gamma_out, idealGasConstantGamma.adiabaticModel.gamma) ($RES_BND_535) (157|161) [SCAL] (1) idealGasConstantGamma.adiabaticModel.rho_in = (0.005293120236618753 * idealGasConstantGamma.adiabaticModel.state_in.p) / idealGasConstantGamma.adiabaticModel.state_in.T ($RES_AUX_764) (158|162) [SCAL] (1) idealGasConstantGamma.adiabaticModel.rho_out = (0.005293120236618753 * idealGasConstantGamma.adiabaticModel.state_out.p) / idealGasConstantGamma.adiabaticModel.state_out.T ($RES_AUX_765) (159|163) [SCAL] (1) perfetGas.adiabaticModel.isInletIdealGas = CAST(Real, $FUN_162 * $FUN_163) ($RES_BND_621) (160|164) [SCAL] (1) perfetGas1.adiabaticModel.rho_in = (0.005293120236618753 * perfetGas1.adiabaticModel.state_in.p) / perfetGas1.adiabaticModel.state_in.T ($RES_AUX_850) (161|165) [SCAL] (1) $FUN_228 = sign(idealGasConstantGamma.adiabaticModel.Z_in - 1/(1.0 + idealGasConstantGamma.adiabaticModel.relTolZ)) ($RES_AUX_767) (162|166) [SCAL] (1) perfetGas.adiabaticModel.isOutletIdealGas = CAST(Real, $FUN_160 * $FUN_161) ($RES_BND_622) (163|167) [SCAL] (1) idealGasConstantGamma.adiabaticModel.isInletIdealGas = CAST(Real, $FUN_227 * $FUN_228) ($RES_BND_539) (164|168) [SCAL] (1) perfetGas1.adiabaticModel.rho_out = (0.005293120236618753 * perfetGas1.adiabaticModel.state_out.p) / perfetGas1.adiabaticModel.state_out.T ($RES_AUX_851) (165|169) [SCAL] (1) $FUN_227 = sign((1.0 + idealGasConstantGamma.adiabaticModel.relTolZ) - idealGasConstantGamma.adiabaticModel.Z_in) ($RES_AUX_768) (166|170) [SCAL] (1) $FUN_226 = sign(idealGasConstantGamma.adiabaticModel.Z_out - 1/(1.0 + idealGasConstantGamma.adiabaticModel.relTolZ)) ($RES_AUX_769) (167|171) [SCAL] (1) $FUN_142 = sign(perfetGas1.adiabaticModel.Z_in - 1/(1.0 + perfetGas1.adiabaticModel.relTolZ)) ($RES_AUX_853) (168|172) [SCAL] (1) $FUN_141 = sign((1.0 + perfetGas1.adiabaticModel.relTolZ) - perfetGas1.adiabaticModel.Z_in) ($RES_AUX_854) (169|173) [SCAL] (1) perfetGas.adiabaticModel.delta_cp_rel = $FUN_155 / max(perfetGas.adiabaticModel.cp_out, perfetGas.adiabaticModel.cp) ($RES_BND_626) (170|174) [SCAL] (1) $FUN_140 = sign(perfetGas1.adiabaticModel.Z_out - 1/(1.0 + perfetGas1.adiabaticModel.relTolZ)) ($RES_AUX_855) (171|175) [SCAL] (1) perfetGas3.pRatio = perfetGas3.p_out / perfetGas3.p_in ($RES_BND_710) (172|176) [SCAL] (1) $FUN_139 = sign((1.0 + perfetGas1.adiabaticModel.relTolZ) - perfetGas1.adiabaticModel.Z_out) ($RES_AUX_856) (173|177) [SCAL] (1) idealGasConstantGamma3.adiabaticModel.h_out_is = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), $FUN_54.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_940) (174|178) [SCAL] (1) perfetGas1.adiabaticModel.isGammaWithinTol = sign(perfetGas1.adiabaticModel.relTolGamma - perfetGas1.adiabaticModel.delta_gamma_rel) ($RES_AUX_857) (175|179) [SCAL] (1) perfetGas1.adiabaticModel.cp = smooth(0, if noEvent(perfetGas1.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + perfetGas1.adiabaticModel.state_in.T * ((-626.411601) + perfetGas1.adiabaticModel.state_in.T * (5.30172524 + perfetGas1.adiabaticModel.state_in.T * (0.002503813816 + perfetGas1.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas1.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas1.adiabaticModel.state_in.T)))))) * (1/(perfetGas1.adiabaticModel.state_in.T * perfetGas1.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + perfetGas1.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas1.adiabaticModel.state_in.T * (8.29152319 + perfetGas1.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas1.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas1.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas1.adiabaticModel.state_in.T)))))) * (1/(perfetGas1.adiabaticModel.state_in.T * perfetGas1.adiabaticModel.state_in.T))) ($RES_AUX_858) (176|180) [SCAL] (1) perfetGas1.adiabaticModel.cp_out = smooth(0, if noEvent($FUN_135.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_135.T * ((-626.411601) + $FUN_135.T * (5.30172524 + $FUN_135.T * (0.002503813816 + $FUN_135.T * ((-2.127308728e-7) + $FUN_135.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_135.T)))))) * (1/($FUN_135.T * $FUN_135.T)) else 188.9244822140674 * (117696.2419 + $FUN_135.T * ((-1788.791477) + $FUN_135.T * (8.29152319 + $FUN_135.T * ((-9.22315678e-5) + $FUN_135.T * (4.86367688e-9 + $FUN_135.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_135.T)))))) * (1/($FUN_135.T * $FUN_135.T))) ($RES_AUX_859) (177|181) [SCAL] (1) $FUN_51 = abs(sink9.m_flow_fixed) ($RES_AUX_944) (178|182) [SCAL] (1) $FUN_50 = abs(fullMedium3.P) ($RES_AUX_945) (179|183) [SCAL] (1) perfetGas3.adiabaticModel.delta_gamma_rel = $FUN_80 / max(perfetGas3.adiabaticModel.gamma_out, perfetGas3.adiabaticModel.gamma) ($RES_BND_717) (180|184) [SCAL] (1) $SEV_11 = perfetGas3.p_out >= perfetGas3.adiabaticModel.p_in ($RES_EVT_1088) (181|185) [SCAL] (1) perfetGas2.m_flow = (perfetGas2.dh * perfetGas1.P_in_internal) / (4.930380657631324e-32 + perfetGas2.dh ^ 2.0) ($RES_SIM_110) (182|186) [SCAL] (1) $FUN_47 = abs(perfetGas2.dh) ($RES_AUX_948) (183|187) [SCAL] (1) $SEV_10 = idealGasConstantGamma3.p_out >= idealGasConstantGamma3.adiabaticModel.p_in ($RES_EVT_1087) (184|188) [SCAL] (1) $FUN_46 = abs(perfetGas1.P_in_internal) ($RES_AUX_949) (185|189) [SCAL] (1) $SEV_9 = fullMedium3.p_out >= fullMedium3.adiabaticModel.p_in ($RES_EVT_1086) (186|190) [SCAL] (1) perfetGas2.dh = perfetGas2.h_out - perfetGas2.h_in ($RES_SIM_112) (187|191) [SCAL] (1) $SEV_8 = perfetGas2.p_out >= perfetGas2.adiabaticModel.p_in ($RES_EVT_1085) (188|192) [SCAL] (1) $SEV_7 = perfetGas1.p_out >= perfetGas1.adiabaticModel.p_in ($RES_EVT_1084) (189|193) [SCAL] (1) $SEV_6 = perfetGas.p_out >= perfetGas.adiabaticModel.p_in ($RES_EVT_1083) (190|194) [SCAL] (1) $SEV_5 = idealGasConstantGamma2.p_out >= idealGasConstantGamma2.adiabaticModel.p_in ($RES_EVT_1082) (191|195) [SCAL] (1) $SEV_4 = idealGasConstantGamma1.p_out >= idealGasConstantGamma1.adiabaticModel.p_in ($RES_EVT_1081) (192|196) [SCAL] (1) perfetGas2.adiabaticModel.w_t = if $SEV_8 then perfetGas2.adiabaticModel.w_t_is / perfetGas2.eta_fixed else perfetGas2.adiabaticModel.w_t_is * perfetGas2.eta_fixed ($RES_SIM_117) (193|197) [SCAL] (1) $SEV_3 = fullMedium2.p_out >= fullMedium2.adiabaticModel.p_in ($RES_EVT_1080) (194|198) [SCAL] (1) idealGasConstantGamma.adiabaticModel.isOutletIdealGas = CAST(Real, $FUN_225 * $FUN_226) ($RES_BND_540) (195|199) [SCAL] (1) $FUN_225 = sign((1.0 + idealGasConstantGamma.adiabaticModel.relTolZ) - idealGasConstantGamma.adiabaticModel.Z_out) ($RES_AUX_770) (196|200) [RECD] (2) source2.outlet.state = $FUN_30 ($RES_SIM_205) (197|202) [SCAL] (1) idealGasConstantGamma.adiabaticModel.isGammaWithinTol = sign(idealGasConstantGamma.adiabaticModel.relTolGamma - idealGasConstantGamma.adiabaticModel.delta_gamma_rel) ($RES_AUX_771) (198|203) [SCAL] (1) idealGasConstantGamma.adiabaticModel.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), idealGasConstantGamma.adiabaticModel.state_in.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_772) (199|204) [SCAL] (1) sink3.p = sink3.inlet.state.p ($RES_AUX_773) (200|205) [SCAL] (1) fullMedium1.p_in = fullMedium1.inlet.state.p ($RES_AUX_774) (201|206) [SCAL] (1) fullMedium1.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), fullMedium1.inlet.state.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_775) (202|207) [SCAL] (1) fullMedium1.adiabaticModel.p_in = fullMedium1.adiabaticModel.state_in.p ($RES_AUX_776) (203|208) [SCAL] (1) fullMedium1.pRatio = fullMedium1.p_out / fullMedium1.p_in ($RES_BND_548) (204|209) [SCAL] (1) fullMedium1.adiabaticModel.s_in = (if noEvent(fullMedium1.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (((-7.04827944) + 626.411601 / fullMedium1.adiabaticModel.state_in.T + 5.30172524 * log(fullMedium1.adiabaticModel.state_in.T) + fullMedium1.adiabaticModel.state_in.T * (0.002503813816 + fullMedium1.adiabaticModel.state_in.T * ((-1.063654364e-7) + fullMedium1.adiabaticModel.state_in.T * ((-2.563329593333333e-10) + 7.1241945025e-14 * fullMedium1.adiabaticModel.state_in.T)))) - 24718.2527 / (fullMedium1.adiabaticModel.state_in.T * fullMedium1.adiabaticModel.state_in.T)) else 188.9244822140674 * (((-26.52669281) + 1788.791477 / fullMedium1.adiabaticModel.state_in.T + 8.29152319 * log(fullMedium1.adiabaticModel.state_in.T) + fullMedium1.adiabaticModel.state_in.T * ((-9.22315678e-5) + fullMedium1.adiabaticModel.state_in.T * (2.43183844e-9 + fullMedium1.adiabaticModel.state_in.T * ((-6.303511039999999e-13) + 1.5825091474999999e-16 * fullMedium1.adiabaticModel.state_in.T)))) - 58848.12095 / (fullMedium1.adiabaticModel.state_in.T * fullMedium1.adiabaticModel.state_in.T))) - 188.9244822140674 * log(9.869232667160129e-6 * fullMedium1.adiabaticModel.state_in.p) ($RES_AUX_777) (205|210) [SCAL] (1) $FUN_134 = abs(perfetGas1.adiabaticModel.cp_out - perfetGas1.adiabaticModel.cp) ($RES_AUX_861) (206|211) [SCAL] (1) fullMedium1.adiabaticModel.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), fullMedium1.adiabaticModel.state_in.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_778) (207|212) [SCAL] (1) perfetGas1.pRatio = perfetGas1.p_out / perfetGas1.p_in ($RES_BND_633) (208|213) [SCAL] (1) perfetGas1.adiabaticModel.isCpWithinTol = sign(perfetGas1.adiabaticModel.relTolCp - perfetGas1.adiabaticModel.delta_cp_rel) ($RES_AUX_862) (209|214) [SCAL] (1) fullMedium1.adiabaticModel.h_out_is = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium1.adiabaticModel.Medium.T_ps(fullMedium1.p_out, fullMedium1.adiabaticModel.s_in), true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_779) (210|215) [SCAL] (1) perfetGas2.p_in = perfetGas2.inlet.state.p ($RES_AUX_863) (211|216) [SCAL] (1) perfetGas2.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), perfetGas2.inlet.state.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_864) (212|217) [SCAL] (1) perfetGas2.adiabaticModel.p_in = perfetGas2.adiabaticModel.state_in.p ($RES_AUX_865) (213|218) [SCAL] (1) perfetGas2.adiabaticModel.T_in = perfetGas2.adiabaticModel.state_in.T ($RES_AUX_866) (214|219) [SCAL] (1) perfetGas3.adiabaticModel.isInletIdealGas = CAST(Real, $FUN_75 * $FUN_76) ($RES_BND_721) (215|220) [SCAL] (1) $FUN_45 = perfetGas2.adiabaticModel.state_out.T ($RES_AUX_950) (216|221) [SCAL] (1) perfetGas2.adiabaticModel.gamma = smooth(0, if noEvent(perfetGas2.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + perfetGas2.adiabaticModel.state_in.T * ((-626.411601) + perfetGas2.adiabaticModel.state_in.T * (5.30172524 + perfetGas2.adiabaticModel.state_in.T * (0.002503813816 + perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T)))))) * (1/(perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + perfetGas2.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas2.adiabaticModel.state_in.T * (8.29152319 + perfetGas2.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T)))))) * (1/(perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T))) / ((-188.9244822140674) + smooth(0, if noEvent(perfetGas2.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + perfetGas2.adiabaticModel.state_in.T * ((-626.411601) + perfetGas2.adiabaticModel.state_in.T * (5.30172524 + perfetGas2.adiabaticModel.state_in.T * (0.002503813816 + perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T)))))) * (1/(perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + perfetGas2.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas2.adiabaticModel.state_in.T * (8.29152319 + perfetGas2.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T)))))) * (1/(perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T)))) ($RES_AUX_867) (217|222) [SCAL] (1) perfetGas3.adiabaticModel.isOutletIdealGas = CAST(Real, $FUN_73 * $FUN_74) ($RES_BND_722) (218|223) [SCAL] (1) perfetGas2.h_out = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), $FUN_43.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_951) (219|224) [SCAL] (1) perfetGas2.adiabaticModel.gamma_out = smooth(0, if noEvent($FUN_115.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_115.T * ((-626.411601) + $FUN_115.T * (5.30172524 + $FUN_115.T * (0.002503813816 + $FUN_115.T * ((-2.127308728e-7) + $FUN_115.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_115.T)))))) * (1/($FUN_115.T * $FUN_115.T)) else 188.9244822140674 * (117696.2419 + $FUN_115.T * ((-1788.791477) + $FUN_115.T * (8.29152319 + $FUN_115.T * ((-9.22315678e-5) + $FUN_115.T * (4.86367688e-9 + $FUN_115.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_115.T)))))) * (1/($FUN_115.T * $FUN_115.T))) / ((-188.9244822140674) + smooth(0, if noEvent($FUN_115.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_115.T * ((-626.411601) + $FUN_115.T * (5.30172524 + $FUN_115.T * (0.002503813816 + $FUN_115.T * ((-2.127308728e-7) + $FUN_115.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_115.T)))))) * (1/($FUN_115.T * $FUN_115.T)) else 188.9244822140674 * (117696.2419 + $FUN_115.T * ((-1788.791477) + $FUN_115.T * (8.29152319 + $FUN_115.T * ((-9.22315678e-5) + $FUN_115.T * (4.86367688e-9 + $FUN_115.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_115.T)))))) * (1/($FUN_115.T * $FUN_115.T)))) ($RES_AUX_868) (220|225) [SCAL] (1) $FUN_126 = abs(perfetGas2.adiabaticModel.gamma_out - perfetGas2.adiabaticModel.gamma) ($RES_AUX_869) (221|226) [SCAL] (1) perfetGas3.adiabaticModel.delta_cp_rel = $FUN_68 / max(perfetGas3.adiabaticModel.cp_out, perfetGas3.adiabaticModel.cp) ($RES_BND_726) (222|227) [SCAL] (1) $FUN_40 = abs(sink7.m_flow_fixed) ($RES_AUX_955) (223|228) [SCAL] (1) $FUN_39 = abs(perfetGas1.P) ($RES_AUX_956) (224|229) [SCAL] (1) $SEV_2 = fullMedium1.p_out >= fullMedium1.adiabaticModel.p_in ($RES_EVT_1079) (225|230) [RECD] (2) fullMedium.adiabaticModel.state_in = fullMedium.inlet.state ($RES_BND_728) (226|232) [SCAL] (1) $FUN_38 = perfetGas1.adiabaticModel.state_out.T ($RES_AUX_957) (227|233) [SCAL] (1) $SEV_1 = idealGasConstantGamma.p_out >= idealGasConstantGamma.adiabaticModel.p_in ($RES_EVT_1078) (228|234) [SCAL] (1) perfetGas2.adiabaticModel.Z_out = (0.005293126209252852 * perfetGas2.p_out) / ($FUN_45 * perfetGas2.adiabaticModel.rho_out) ($RES_SIM_120) (229|235) [SCAL] (1) perfetGas1.h_out = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), $FUN_36.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_958) (230|236) [RECD] (2) idealGasConstantGamma.adiabaticModel.state_in = idealGasConstantGamma.inlet.state ($RES_BND_729) (231|238) [SCAL] (1) $SEV_0 = fullMedium.p_out >= fullMedium.adiabaticModel.p_in ($RES_EVT_1077) (232|239) [SCAL] (1) perfetGas2.adiabaticModel.Z_in = (0.005293126209252852 * perfetGas2.adiabaticModel.p_in) / (perfetGas2.adiabaticModel.T_in * perfetGas2.adiabaticModel.rho_in) ($RES_SIM_121) (233|240) [SCAL] (1) $TEV_1 = time < (pressureRatio.startTime + pressureRatio.duration) ($RES_EVT_1076) (234|241) [SCAL] (1) perfetGas2.adiabaticModel.T_out_is = perfetGas2.adiabaticModel.T_in * (perfetGas2.p_out / perfetGas2.adiabaticModel.p_in) ^ ((perfetGas2.adiabaticModel.gamma - 1.0) / perfetGas2.adiabaticModel.gamma) ($RES_SIM_122) (235|242) [SCAL] (1) $TEV_0 = time < pressureRatio.startTime ($RES_EVT_1075) (236|243) [SCAL] (1) idealGasConstantGamma1.P_in_internal = -gain1.k * idealGasConstantGamma.P_in_internal ($RES_SIM_210) (237|244) [SCAL] (1) fullMedium1.P_in_internal = -gain.k * fullMedium.P_in_internal ($RES_SIM_211) (238|245) [SCAL] (1) perfetGas2.adiabaticModel.w_t = perfetGas2.adiabaticModel.cp * (perfetGas2.adiabaticModel.T_out - perfetGas2.adiabaticModel.T_in) ($RES_SIM_128) (239|246) [RECD] (2) idealGasConstantGamma2.outlet.state = $FUN_29 ($RES_SIM_212) (240|248) [SCAL] (1) perfetGas2.adiabaticModel.w_t_is = perfetGas2.adiabaticModel.cp * (perfetGas2.adiabaticModel.T_out_is - perfetGas2.adiabaticModel.T_in) ($RES_SIM_129) (241|249) [SCAL] (1) idealGasConstantGamma2.p_out = idealGasConstantGamma2.p_in + idealGasConstantGamma2.dp ($RES_SIM_214) (242|250) [SCAL] (1) fullMedium2.p_in = fullMedium2.inlet.state.p ($RES_AUX_780) (243|251) [SCAL] (1) idealGasConstantGamma2.outlet.r = source6.outlet.r - $DER.idealGasConstantGamma2.m_flow * idealGasConstantGamma2.L ($RES_SIM_215) (244|252) [SCAL] (1) fullMedium2.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), fullMedium2.inlet.state.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_781) (245|253) [SCAL] (1) fullMedium2.adiabaticModel.p_in = fullMedium2.adiabaticModel.state_in.p ($RES_AUX_782) (246|254) [SCAL] (1) idealGasConstantGamma2.singularityRegime = if noEvent($FUN_27 > 2.220446049250313e-16 and $FUN_28 < 2.220446049250313e-16) then -1.0 else 0.0 ($RES_SIM_217) (247|255) [SCAL] (1) fullMedium2.adiabaticModel.s_in = (if noEvent(fullMedium2.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (((-7.04827944) + 626.411601 / fullMedium2.adiabaticModel.state_in.T + 5.30172524 * log(fullMedium2.adiabaticModel.state_in.T) + fullMedium2.adiabaticModel.state_in.T * (0.002503813816 + fullMedium2.adiabaticModel.state_in.T * ((-1.063654364e-7) + fullMedium2.adiabaticModel.state_in.T * ((-2.563329593333333e-10) + 7.1241945025e-14 * fullMedium2.adiabaticModel.state_in.T)))) - 24718.2527 / (fullMedium2.adiabaticModel.state_in.T * fullMedium2.adiabaticModel.state_in.T)) else 188.9244822140674 * (((-26.52669281) + 1788.791477 / fullMedium2.adiabaticModel.state_in.T + 8.29152319 * log(fullMedium2.adiabaticModel.state_in.T) + fullMedium2.adiabaticModel.state_in.T * ((-9.22315678e-5) + fullMedium2.adiabaticModel.state_in.T * (2.43183844e-9 + fullMedium2.adiabaticModel.state_in.T * ((-6.303511039999999e-13) + 1.5825091474999999e-16 * fullMedium2.adiabaticModel.state_in.T)))) - 58848.12095 / (fullMedium2.adiabaticModel.state_in.T * fullMedium2.adiabaticModel.state_in.T))) - 188.9244822140674 * log(9.869232667160129e-6 * fullMedium2.adiabaticModel.state_in.p) ($RES_AUX_783) (248|256) [SCAL] (1) fullMedium2.adiabaticModel.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), fullMedium2.adiabaticModel.state_in.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_784) (249|257) [SCAL] (1) idealGasConstantGamma2.m_flow = (idealGasConstantGamma2.dh * idealGasConstantGamma1.P_in_internal) / (4.930380657631324e-32 + idealGasConstantGamma2.dh ^ 2.0) ($RES_SIM_219) (250|258) [SCAL] (1) fullMedium2.adiabaticModel.h_out_is = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium2.adiabaticModel.Medium.T_ps(fullMedium2.p_out, fullMedium2.adiabaticModel.s_in), true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_785) (251|259) [SCAL] (1) sink5.p = sink5.inlet.state.p ($RES_AUX_786) (252|260) [SCAL] (1) perfetGas1.adiabaticModel.delta_gamma_rel = $FUN_146 / max(perfetGas1.adiabaticModel.gamma_out, perfetGas1.adiabaticModel.gamma) ($RES_BND_640) (253|261) [RECD] (2) fullMedium1.outlet.state = $FUN_11 ($RES_SIM_304) (254|263) [SCAL] (1) perfetGas2.adiabaticModel.rho_in = (0.005293120236618753 * perfetGas2.adiabaticModel.state_in.p) / perfetGas2.adiabaticModel.state_in.T ($RES_AUX_870) (255|264) [SCAL] (1) idealGasConstantGamma1.p_in = idealGasConstantGamma1.inlet.state.p ($RES_AUX_787) (256|265) [SCAL] (1) perfetGas2.adiabaticModel.rho_out = (0.005293120236618753 * perfetGas2.adiabaticModel.state_out.p) / perfetGas2.adiabaticModel.state_out.T ($RES_AUX_871) (257|266) [SCAL] (1) idealGasConstantGamma1.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), idealGasConstantGamma1.inlet.state.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_788) (258|267) [SCAL] (1) perfetGas2.pRatio = fullMedium2.p_out / fullMedium2.p_in ($RES_BND_559) (259|268) [SCAL] (1) fullMedium1.p_out = fullMedium1.p_in + fullMedium1.dp ($RES_SIM_306) (260|269) [SCAL] (1) idealGasConstantGamma1.adiabaticModel.p_in = idealGasConstantGamma1.adiabaticModel.state_in.p ($RES_AUX_789) (261|270) [SCAL] (1) $FUN_122 = sign(perfetGas2.adiabaticModel.Z_in - 1/(1.0 + perfetGas2.adiabaticModel.relTolZ)) ($RES_AUX_873) (262|271) [SCAL] (1) perfetGas1.adiabaticModel.isInletIdealGas = CAST(Real, $FUN_141 * $FUN_142) ($RES_BND_644) (263|272) [SCAL] (1) $FUN_121 = sign((1.0 + perfetGas2.adiabaticModel.relTolZ) - perfetGas2.adiabaticModel.Z_in) ($RES_AUX_874) (264|273) [SCAL] (1) perfetGas1.adiabaticModel.isOutletIdealGas = CAST(Real, $FUN_139 * $FUN_140) ($RES_BND_645) (265|274) [SCAL] (1) fullMedium1.singularityRegime = if noEvent($FUN_9 > 2.220446049250313e-16 and $FUN_10 < 2.220446049250313e-16) then 1.0 else 0.0 ($RES_SIM_309) (266|275) [SCAL] (1) $FUN_120 = sign(perfetGas2.adiabaticModel.Z_out - 1/(1.0 + perfetGas2.adiabaticModel.relTolZ)) ($RES_AUX_875) (267|276) [SCAL] (1) $FUN_119 = sign((1.0 + perfetGas2.adiabaticModel.relTolZ) - perfetGas2.adiabaticModel.Z_out) ($RES_AUX_876) (268|277) [RECD] (2) idealGasConstantGamma.adiabaticModel.state_out = $FUN_233 ($RES_BND_730) (269|279) [SCAL] (1) perfetGas2.adiabaticModel.isGammaWithinTol = sign(perfetGas2.adiabaticModel.relTolGamma - perfetGas2.adiabaticModel.delta_gamma_rel) ($RES_AUX_877) (270|280) [RECD] (2) fullMedium1.adiabaticModel.state_in = fullMedium1.inlet.state ($RES_BND_731) (271|282) [SCAL] (1) perfetGas2.adiabaticModel.cp = smooth(0, if noEvent(perfetGas2.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + perfetGas2.adiabaticModel.state_in.T * ((-626.411601) + perfetGas2.adiabaticModel.state_in.T * (5.30172524 + perfetGas2.adiabaticModel.state_in.T * (0.002503813816 + perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T)))))) * (1/(perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + perfetGas2.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas2.adiabaticModel.state_in.T * (8.29152319 + perfetGas2.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T)))))) * (1/(perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T))) ($RES_AUX_878) (272|283) [RECD] (2) fullMedium2.adiabaticModel.state_in = fullMedium2.inlet.state ($RES_BND_732) (273|285) [SCAL] (1) perfetGas1.adiabaticModel.delta_cp_rel = $FUN_134 / max(perfetGas1.adiabaticModel.cp_out, perfetGas1.adiabaticModel.cp) ($RES_BND_649) (274|286) [SCAL] (1) $FUN_33 = perfetGas.adiabaticModel.state_out.T ($RES_AUX_962) (275|287) [SCAL] (1) perfetGas2.adiabaticModel.cp_out = smooth(0, if noEvent($FUN_115.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_115.T * ((-626.411601) + $FUN_115.T * (5.30172524 + $FUN_115.T * (0.002503813816 + $FUN_115.T * ((-2.127308728e-7) + $FUN_115.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_115.T)))))) * (1/($FUN_115.T * $FUN_115.T)) else 188.9244822140674 * (117696.2419 + $FUN_115.T * ((-1788.791477) + $FUN_115.T * (8.29152319 + $FUN_115.T * ((-9.22315678e-5) + $FUN_115.T * (4.86367688e-9 + $FUN_115.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_115.T)))))) * (1/($FUN_115.T * $FUN_115.T))) ($RES_AUX_879) (276|288) [RECD] (2) idealGasConstantGamma1.adiabaticModel.state_in = idealGasConstantGamma1.inlet.state ($RES_BND_733) (277|290) [SCAL] (1) perfetGas.h_out = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), $FUN_31.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_963) (278|291) [RECD] (2) idealGasConstantGamma1.adiabaticModel.state_out = $FUN_202 ($RES_BND_734) (279|293) [RECD] (2) idealGasConstantGamma2.adiabaticModel.state_in = idealGasConstantGamma2.inlet.state ($RES_BND_735) (280|295) [RECD] (2) idealGasConstantGamma2.adiabaticModel.state_out = $FUN_185 ($RES_BND_736) (281|297) [RECD] (2) perfetGas.adiabaticModel.state_in = perfetGas.inlet.state ($RES_BND_737) (282|299) [SCAL] (1) $FUN_28 = abs(idealGasConstantGamma2.dh) ($RES_AUX_967) (283|300) [RECD] (2) perfetGas.adiabaticModel.state_out = $FUN_156 ($RES_BND_738) (284|302) [SCAL] (1) $FUN_27 = abs(idealGasConstantGamma1.P_in_internal) ($RES_AUX_968) (285|303) [RECD] (2) perfetGas1.adiabaticModel.state_in = perfetGas1.inlet.state ($RES_BND_739) (286|305) [SCAL] (1) $FUN_26 = idealGasConstantGamma2.adiabaticModel.state_out.T ($RES_AUX_969) (287|306) [SCAL] (1) $DER.perfetGas2.m_flow * sink8.L = perfetGas2.outlet.r - sink8.r ($RES_SIM_132) (288|307) [RECD] (2) source8.outlet.state = $FUN_42 ($RES_SIM_133) (289|309) [SCAL] (1) source8.L * (-$DER.perfetGas2.m_flow) = source8.outlet.r ($RES_SIM_134) (290|310) [SCAL] (1) idealGasConstantGamma2.dh = idealGasConstantGamma2.h_out - idealGasConstantGamma2.h_in ($RES_SIM_221) (291|311) [RECD] (2) perfetGas1.outlet.state = $FUN_41 ($RES_SIM_138) (292|313) [SCAL] (1) idealGasConstantGamma1.adiabaticModel.T_in = idealGasConstantGamma1.adiabaticModel.state_in.T ($RES_AUX_790) (293|314) [SCAL] (1) idealGasConstantGamma1.adiabaticModel.gamma = smooth(0, if noEvent(idealGasConstantGamma1.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + idealGasConstantGamma1.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma1.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma1.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma1.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma1.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma1.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma1.adiabaticModel.state_in.T * idealGasConstantGamma1.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + idealGasConstantGamma1.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma1.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma1.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma1.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma1.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma1.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma1.adiabaticModel.state_in.T * idealGasConstantGamma1.adiabaticModel.state_in.T))) / ((-188.9244822140674) + smooth(0, if noEvent(idealGasConstantGamma1.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + idealGasConstantGamma1.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma1.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma1.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma1.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma1.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma1.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma1.adiabaticModel.state_in.T * idealGasConstantGamma1.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + idealGasConstantGamma1.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma1.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma1.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma1.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma1.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma1.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma1.adiabaticModel.state_in.T * idealGasConstantGamma1.adiabaticModel.state_in.T)))) ($RES_AUX_791) (294|315) [SCAL] (1) idealGasConstantGamma2.adiabaticModel.w_t = if $SEV_5 then idealGasConstantGamma2.adiabaticModel.w_t_is / idealGasConstantGamma2.eta_fixed else idealGasConstantGamma2.adiabaticModel.w_t_is * idealGasConstantGamma2.eta_fixed ($RES_SIM_226) (295|316) [SCAL] (1) idealGasConstantGamma1.adiabaticModel.gamma_out = smooth(0, if noEvent($FUN_202.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_202.T * ((-626.411601) + $FUN_202.T * (5.30172524 + $FUN_202.T * (0.002503813816 + $FUN_202.T * ((-2.127308728e-7) + $FUN_202.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_202.T)))))) * (1/($FUN_202.T * $FUN_202.T)) else 188.9244822140674 * (117696.2419 + $FUN_202.T * ((-1788.791477) + $FUN_202.T * (8.29152319 + $FUN_202.T * ((-9.22315678e-5) + $FUN_202.T * (4.86367688e-9 + $FUN_202.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_202.T)))))) * (1/($FUN_202.T * $FUN_202.T))) / ((-188.9244822140674) + smooth(0, if noEvent($FUN_202.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_202.T * ((-626.411601) + $FUN_202.T * (5.30172524 + $FUN_202.T * (0.002503813816 + $FUN_202.T * ((-2.127308728e-7) + $FUN_202.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_202.T)))))) * (1/($FUN_202.T * $FUN_202.T)) else 188.9244822140674 * (117696.2419 + $FUN_202.T * ((-1788.791477) + $FUN_202.T * (8.29152319 + $FUN_202.T * ((-9.22315678e-5) + $FUN_202.T * (4.86367688e-9 + $FUN_202.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_202.T)))))) * (1/($FUN_202.T * $FUN_202.T)))) ($RES_AUX_792) (296|317) [SCAL] (1) fullMedium1.P = sink3.m_flow_fixed * fullMedium1.dh ($RES_SIM_310) (297|318) [SCAL] (1) $FUN_201 = abs(idealGasConstantGamma1.adiabaticModel.gamma_out - idealGasConstantGamma1.adiabaticModel.gamma) ($RES_AUX_794) (298|319) [SCAL] (1) fullMedium1.dh = fullMedium1.h_out - fullMedium1.h_in ($RES_SIM_312) (299|320) [SCAL] (1) idealGasConstantGamma2.adiabaticModel.Z_out = (0.005293126209252852 * idealGasConstantGamma2.p_out) / ($FUN_26 * idealGasConstantGamma2.adiabaticModel.rho_out) ($RES_SIM_229) (300|321) [SCAL] (1) idealGasConstantGamma1.adiabaticModel.rho_in = (0.005293120236618753 * idealGasConstantGamma1.adiabaticModel.state_in.p) / idealGasConstantGamma1.adiabaticModel.state_in.T ($RES_AUX_795) (301|322) [SCAL] (1) ($DER.fullMedium1.dp * fullMedium1.TC) / fullMedium1.dp_nom = (fullMedium1.P_in_internal - fullMedium1.P) / fullMedium1.P_nom ($RES_SIM_313) (302|323) [SCAL] (1) idealGasConstantGamma1.adiabaticModel.rho_out = (0.005293120236618753 * idealGasConstantGamma1.adiabaticModel.state_out.p) / idealGasConstantGamma1.adiabaticModel.state_out.T ($RES_AUX_796) (303|324) [SCAL] (1) $FUN_114 = abs(perfetGas2.adiabaticModel.cp_out - perfetGas2.adiabaticModel.cp) ($RES_AUX_881) (304|325) [SCAL] (1) $FUN_197 = sign(idealGasConstantGamma1.adiabaticModel.Z_in - 1/(1.0 + idealGasConstantGamma1.adiabaticModel.relTolZ)) ($RES_AUX_798) (305|326) [SCAL] (1) perfetGas2.adiabaticModel.isCpWithinTol = sign(perfetGas2.adiabaticModel.relTolCp - perfetGas2.adiabaticModel.delta_cp_rel) ($RES_AUX_882) (306|327) [SCAL] (1) $FUN_196 = sign((1.0 + idealGasConstantGamma1.adiabaticModel.relTolZ) - idealGasConstantGamma1.adiabaticModel.Z_in) ($RES_AUX_799) (307|328) [SCAL] (1) fullMedium1.adiabaticModel.w_t = if $SEV_2 then fullMedium1.adiabaticModel.w_t_is / fullMedium1.eta_fixed else fullMedium1.adiabaticModel.w_t_is * fullMedium1.eta_fixed ($RES_SIM_317) (308|329) [SCAL] (1) sink9.p = sink9.inlet.state.p ($RES_AUX_883) (309|330) [SCAL] (1) fullMedium3.p_in = fullMedium3.inlet.state.p ($RES_AUX_884) (310|331) [SCAL] (1) perfetGas2.pRatio = perfetGas2.p_out / perfetGas2.p_in ($RES_BND_655) (311|332) [SCAL] (1) fullMedium3.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), fullMedium3.inlet.state.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_885) (312|333) [SCAL] (1) fullMedium3.adiabaticModel.p_in = fullMedium3.adiabaticModel.state_in.p ($RES_AUX_886) (313|334) [RECD] (2) perfetGas1.adiabaticModel.state_out = $FUN_135 ($RES_BND_740) (314|336) [SCAL] (1) idealGasConstantGamma2.adiabaticModel.h_out_is = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), $FUN_24.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_970) (315|337) [SCAL] (1) fullMedium3.adiabaticModel.s_in = (if noEvent(fullMedium3.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (((-7.04827944) + 626.411601 / fullMedium3.adiabaticModel.state_in.T + 5.30172524 * log(fullMedium3.adiabaticModel.state_in.T) + fullMedium3.adiabaticModel.state_in.T * (0.002503813816 + fullMedium3.adiabaticModel.state_in.T * ((-1.063654364e-7) + fullMedium3.adiabaticModel.state_in.T * ((-2.563329593333333e-10) + 7.1241945025e-14 * fullMedium3.adiabaticModel.state_in.T)))) - 24718.2527 / (fullMedium3.adiabaticModel.state_in.T * fullMedium3.adiabaticModel.state_in.T)) else 188.9244822140674 * (((-26.52669281) + 1788.791477 / fullMedium3.adiabaticModel.state_in.T + 8.29152319 * log(fullMedium3.adiabaticModel.state_in.T) + fullMedium3.adiabaticModel.state_in.T * ((-9.22315678e-5) + fullMedium3.adiabaticModel.state_in.T * (2.43183844e-9 + fullMedium3.adiabaticModel.state_in.T * ((-6.303511039999999e-13) + 1.5825091474999999e-16 * fullMedium3.adiabaticModel.state_in.T)))) - 58848.12095 / (fullMedium3.adiabaticModel.state_in.T * fullMedium3.adiabaticModel.state_in.T))) - 188.9244822140674 * log(9.869232667160129e-6 * fullMedium3.adiabaticModel.state_in.p) ($RES_AUX_887) (316|338) [RECD] (2) perfetGas2.adiabaticModel.state_in = perfetGas2.inlet.state ($RES_BND_741) (317|340) [SCAL] (1) fullMedium3.adiabaticModel.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), fullMedium3.adiabaticModel.state_in.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_888) (318|341) [RECD] (2) perfetGas2.adiabaticModel.state_out = $FUN_115 ($RES_BND_742) (319|343) [SCAL] (1) fullMedium3.adiabaticModel.h_out_is = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium3.adiabaticModel.Medium.T_ps(fullMedium3.p_out, fullMedium3.adiabaticModel.s_in), true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_889) (320|344) [RECD] (2) fullMedium3.adiabaticModel.state_in = fullMedium3.inlet.state ($RES_BND_743) (321|346) [RECD] (2) idealGasConstantGamma3.adiabaticModel.state_in = idealGasConstantGamma3.inlet.state ($RES_BND_744) (322|348) [SCAL] (1) $FUN_21 = abs(sink5.m_flow_fixed) ($RES_AUX_974) (323|349) [RECD] (2) idealGasConstantGamma3.adiabaticModel.state_out = $FUN_98 ($RES_BND_745) (324|351) [SCAL] (1) $FUN_20 = abs(idealGasConstantGamma1.P) ($RES_AUX_975) (325|352) [RECD] (2) perfetGas3.adiabaticModel.state_in = perfetGas3.inlet.state ($RES_BND_746) (326|354) [SCAL] (1) $FUN_19 = idealGasConstantGamma1.adiabaticModel.state_out.T ($RES_AUX_976) (327|355) [RECD] (2) perfetGas3.adiabaticModel.state_out = $FUN_69 ($RES_BND_747) (328|357) [SCAL] (1) idealGasConstantGamma1.adiabaticModel.h_out_is = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), $FUN_17.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_977) (329|358) [SCAL] (1) perfetGas1.p_out = perfetGas1.p_in + perfetGas1.dp ($RES_SIM_140) (330|359) [SCAL] (1) perfetGas1.singularityRegime = if noEvent($FUN_39 > 2.220446049250313e-16 and $FUN_40 < 2.220446049250313e-16) then 1.0 else 0.0 ($RES_SIM_143) (331|360) [SCAL] (1) perfetGas1.P = sink7.m_flow_fixed * perfetGas1.dh ($RES_SIM_144) (332|361) [SCAL] (1) perfetGas1.dh = perfetGas1.h_out - perfetGas1.h_in ($RES_SIM_146) (333|362) [SCAL] (1) idealGasConstantGamma2.adiabaticModel.Z_in = (0.005293126209252852 * idealGasConstantGamma2.adiabaticModel.p_in) / (idealGasConstantGamma2.adiabaticModel.T_in * idealGasConstantGamma2.adiabaticModel.rho_in) ($RES_SIM_230) (334|363) [SCAL] (1) ($DER.perfetGas1.dp * perfetGas1.TC) / perfetGas1.dp_nom = (perfetGas1.P_in_internal - perfetGas1.P) / perfetGas1.P_nom ($RES_SIM_147) (335|364) [SCAL] (1) idealGasConstantGamma2.adiabaticModel.T_out_is = idealGasConstantGamma2.adiabaticModel.T_in * (idealGasConstantGamma2.p_out / idealGasConstantGamma2.adiabaticModel.p_in) ^ ((idealGasConstantGamma2.adiabaticModel.gamma - 1.0) / idealGasConstantGamma2.adiabaticModel.gamma) ($RES_SIM_231) (336|365) [SCAL] (1) idealGasConstantGamma1.pRatio = idealGasConstantGamma1.p_out / idealGasConstantGamma1.p_in ($RES_BND_571) (337|366) [SCAL] (1) idealGasConstantGamma2.adiabaticModel.w_t = idealGasConstantGamma2.h_out - idealGasConstantGamma2.adiabaticModel.h_in ($RES_SIM_236) (338|367) [SCAL] (1) fullMedium1.adiabaticModel.w_t = fullMedium1.h_out - fullMedium1.adiabaticModel.h_in ($RES_SIM_320) (339|368) [SCAL] (1) idealGasConstantGamma2.adiabaticModel.w_t_is = idealGasConstantGamma2.adiabaticModel.h_out_is - idealGasConstantGamma2.adiabaticModel.h_in ($RES_SIM_237) (340|369) [SCAL] (1) fullMedium1.adiabaticModel.w_t_is = fullMedium1.adiabaticModel.h_out_is - fullMedium1.adiabaticModel.h_in ($RES_SIM_321) (341|370) [SCAL] (1) $DER.idealGasConstantGamma2.m_flow * sink6.L = idealGasConstantGamma2.outlet.r - sink6.r ($RES_SIM_239) (342|371) [SCAL] (1) sink10.p = sink10.inlet.state.p ($RES_AUX_890) (343|372) [SCAL] (1) idealGasConstantGamma1.adiabaticModel.delta_gamma_rel = $FUN_201 / max(idealGasConstantGamma1.adiabaticModel.gamma_out, idealGasConstantGamma1.adiabaticModel.gamma) ($RES_BND_578) (344|373) [RECD] (2) source3.outlet.state = $FUN_8 ($RES_SIM_325) (345|375) [SCAL] (1) idealGasConstantGamma3.p_in = idealGasConstantGamma3.inlet.state.p ($RES_AUX_891) (346|376) [SCAL] (1) perfetGas2.adiabaticModel.delta_gamma_rel = $FUN_126 / max(perfetGas2.adiabaticModel.gamma_out, perfetGas2.adiabaticModel.gamma) ($RES_BND_662) (347|377) [SCAL] (1) idealGasConstantGamma3.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), idealGasConstantGamma3.inlet.state.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_892) (348|378) [SCAL] (1) idealGasConstantGamma3.adiabaticModel.p_in = idealGasConstantGamma3.adiabaticModel.state_in.p ($RES_AUX_893) (349|379) [SCAL] (1) idealGasConstantGamma3.adiabaticModel.T_in = idealGasConstantGamma3.adiabaticModel.state_in.T ($RES_AUX_894) (350|380) [SCAL] (1) idealGasConstantGamma3.adiabaticModel.gamma = smooth(0, if noEvent(idealGasConstantGamma3.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + idealGasConstantGamma3.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma3.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma3.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma3.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma3.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma3.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma3.adiabaticModel.state_in.T * idealGasConstantGamma3.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + idealGasConstantGamma3.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma3.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma3.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma3.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma3.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma3.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma3.adiabaticModel.state_in.T * idealGasConstantGamma3.adiabaticModel.state_in.T))) / ((-188.9244822140674) + smooth(0, if noEvent(idealGasConstantGamma3.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + idealGasConstantGamma3.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma3.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma3.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma3.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma3.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma3.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma3.adiabaticModel.state_in.T * idealGasConstantGamma3.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + idealGasConstantGamma3.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma3.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma3.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma3.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma3.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma3.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma3.adiabaticModel.state_in.T * idealGasConstantGamma3.adiabaticModel.state_in.T)))) ($RES_AUX_895) (351|381) [SCAL] (1) perfetGas2.adiabaticModel.isInletIdealGas = CAST(Real, $FUN_121 * $FUN_122) ($RES_BND_666) (352|382) [SCAL] (1) idealGasConstantGamma3.adiabaticModel.gamma_out = smooth(0, if noEvent($FUN_98.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_98.T * ((-626.411601) + $FUN_98.T * (5.30172524 + $FUN_98.T * (0.002503813816 + $FUN_98.T * ((-2.127308728e-7) + $FUN_98.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_98.T)))))) * (1/($FUN_98.T * $FUN_98.T)) else 188.9244822140674 * (117696.2419 + $FUN_98.T * ((-1788.791477) + $FUN_98.T * (8.29152319 + $FUN_98.T * ((-9.22315678e-5) + $FUN_98.T * (4.86367688e-9 + $FUN_98.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_98.T)))))) * (1/($FUN_98.T * $FUN_98.T))) / ((-188.9244822140674) + smooth(0, if noEvent($FUN_98.T < 1000.0) then 188.9244822140674 * (49436.5054 + $FUN_98.T * ((-626.411601) + $FUN_98.T * (5.30172524 + $FUN_98.T * (0.002503813816 + $FUN_98.T * ((-2.127308728e-7) + $FUN_98.T * ((-7.68998878e-10) + 2.849677801e-13 * $FUN_98.T)))))) * (1/($FUN_98.T * $FUN_98.T)) else 188.9244822140674 * (117696.2419 + $FUN_98.T * ((-1788.791477) + $FUN_98.T * (8.29152319 + $FUN_98.T * ((-9.22315678e-5) + $FUN_98.T * (4.86367688e-9 + $FUN_98.T * ((-1.891053312e-12) + 6.330036589999999e-16 * $FUN_98.T)))))) * (1/($FUN_98.T * $FUN_98.T)))) ($RES_AUX_896) (353|383) [SCAL] (1) perfetGas2.adiabaticModel.isOutletIdealGas = CAST(Real, $FUN_119 * $FUN_120) ($RES_BND_667) (354|384) [SCAL] (1) perfetGas3.outlet.state.T = sink11.inlet.state.T ($RES_SIM_415) (355|385) [SCAL] (1) $FUN_14 = abs(fullMedium2.dh) ($RES_AUX_981) (356|386) [SCAL] (1) $FUN_97 = abs(idealGasConstantGamma3.adiabaticModel.gamma_out - idealGasConstantGamma3.adiabaticModel.gamma) ($RES_AUX_898) (357|387) [SCAL] (1) perfetGas3.outlet.state.p = sink11.inlet.state.p ($RES_SIM_416) (358|388) [SCAL] (1) $FUN_13 = abs(fullMedium1.P_in_internal) ($RES_AUX_982) (359|389) [SCAL] (1) idealGasConstantGamma3.adiabaticModel.rho_in = (0.005293120236618753 * idealGasConstantGamma3.adiabaticModel.state_in.p) / idealGasConstantGamma3.adiabaticModel.state_in.T ($RES_AUX_899) (360|390) [SCAL] (1) source1.outlet.state.p = idealGasConstantGamma.inlet.state.p ($RES_SIM_500) (361|391) [SCAL] (1) source11.outlet.state.T = perfetGas3.inlet.state.T ($RES_SIM_418) (362|392) [SCAL] (1) source.outlet.state.T = fullMedium.inlet.state.T ($RES_SIM_502) (363|393) [SCAL] (1) source11.outlet.state.p = perfetGas3.inlet.state.p ($RES_SIM_419) (364|394) [SCAL] (1) $FUN_10 = abs(sink3.m_flow_fixed) ($RES_AUX_985) (365|395) [SCAL] (1) source.outlet.state.p = fullMedium.inlet.state.p ($RES_SIM_503) (366|396) [SCAL] (1) $FUN_9 = abs(fullMedium1.P) ($RES_AUX_986) (367|397) [SCAL] (1) perfetGas1.adiabaticModel.w_t = if $SEV_7 then perfetGas1.adiabaticModel.w_t_is / perfetGas1.eta_fixed else perfetGas1.adiabaticModel.w_t_is * perfetGas1.eta_fixed ($RES_SIM_151) (368|398) [SCAL] (1) $FUN_6 = idealGasConstantGamma.adiabaticModel.state_out.T ($RES_AUX_989) (369|399) [SCAL] (1) perfetGas1.adiabaticModel.Z_out = (0.005293126209252852 * perfetGas1.p_out) / ($FUN_38 * perfetGas1.adiabaticModel.rho_out) ($RES_SIM_154) (370|400) [SCAL] (1) perfetGas1.adiabaticModel.Z_in = (0.005293126209252852 * perfetGas1.adiabaticModel.p_in) / (perfetGas1.adiabaticModel.T_in * perfetGas1.adiabaticModel.rho_in) ($RES_SIM_155) (371|401) [SCAL] (1) perfetGas1.adiabaticModel.T_out_is = perfetGas1.adiabaticModel.T_in * (perfetGas1.p_out / perfetGas1.adiabaticModel.p_in) ^ ((perfetGas1.adiabaticModel.gamma - 1.0) / perfetGas1.adiabaticModel.gamma) ($RES_SIM_156) (372|402) [RECD] (2) source6.outlet.state = $FUN_23 ($RES_SIM_240) (373|404) [SCAL] (1) source6.L * (-$DER.idealGasConstantGamma2.m_flow) = source6.outlet.r ($RES_SIM_241) (374|405) [RECD] (2) idealGasConstantGamma1.outlet.state = $FUN_22 ($RES_SIM_245) (375|407) [SCAL] (1) idealGasConstantGamma1.adiabaticModel.isInletIdealGas = CAST(Real, $FUN_196 * $FUN_197) ($RES_BND_582) (376|408) [SCAL] (1) idealGasConstantGamma1.adiabaticModel.isOutletIdealGas = CAST(Real, $FUN_194 * $FUN_195) ($RES_BND_583) (377|409) [RECD] (2) idealGasConstantGamma.outlet.state = $FUN_7 ($RES_SIM_330) (378|411) [SCAL] (1) idealGasConstantGamma1.p_out = idealGasConstantGamma1.p_in + idealGasConstantGamma1.dp ($RES_SIM_247) (379|412) [SCAL] (1) idealGasConstantGamma.p_out = idealGasConstantGamma.p_in + idealGasConstantGamma.dp ($RES_SIM_332) (380|413) [SCAL] (1) perfetGas2.adiabaticModel.delta_cp_rel = $FUN_114 / max(perfetGas2.adiabaticModel.cp_out, perfetGas2.adiabaticModel.cp) ($RES_BND_671) (381|414) [SCAL] (1) idealGasConstantGamma.P_in_internal = sink1.m_flow_fixed * idealGasConstantGamma.dh ($RES_SIM_336) (382|415) [SCAL] (1) idealGasConstantGamma3.outlet.state.T = sink10.inlet.state.T ($RES_SIM_421) (383|416) [SCAL] (1) idealGasConstantGamma.dh = idealGasConstantGamma.h_out - idealGasConstantGamma.h_in ($RES_SIM_338) (384|417) [SCAL] (1) idealGasConstantGamma3.outlet.state.p = sink10.inlet.state.p ($RES_SIM_422) (385|418) [SCAL] (1) source10.outlet.state.T = idealGasConstantGamma3.inlet.state.T ($RES_SIM_424) (386|419) [SCAL] (1) idealGasConstantGamma.adiabaticModel.h_out_is = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), $FUN_4.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_990) (387|420) [SCAL] (1) fullMedium3.pRatio = fullMedium3.p_out / fullMedium3.p_in ($RES_BND_678) (388|421) [SCAL] (1) source10.outlet.state.p = idealGasConstantGamma3.inlet.state.p ($RES_SIM_425) (389|422) [SCAL] (1) fullMedium3.outlet.state.T = sink9.inlet.state.T ($RES_SIM_427) (390|423) [SCAL] (1) fullMedium3.outlet.state.p = sink9.inlet.state.p ($RES_SIM_428) (391|424) [SCAL] (1) perfetGas1.adiabaticModel.w_t = perfetGas1.adiabaticModel.cp * (perfetGas1.adiabaticModel.T_out - perfetGas1.adiabaticModel.T_in) ($RES_SIM_162) (392|425) [SCAL] (1) perfetGas1.adiabaticModel.w_t_is = perfetGas1.adiabaticModel.cp * (perfetGas1.adiabaticModel.T_out_is - perfetGas1.adiabaticModel.T_in) ($RES_SIM_163) (393|426) [SCAL] (1) idealGasConstantGamma1.singularityRegime = if noEvent($FUN_20 > 2.220446049250313e-16 and $FUN_21 < 2.220446049250313e-16) then 1.0 else 0.0 ($RES_SIM_250) (394|427) [SCAL] (1) idealGasConstantGamma1.P = sink5.m_flow_fixed * idealGasConstantGamma1.dh ($RES_SIM_251) (395|428) [RECD] (2) source7.outlet.state = $FUN_35 ($RES_SIM_169) (396|430) [SCAL] (1) idealGasConstantGamma1.dh = idealGasConstantGamma1.h_out - idealGasConstantGamma1.h_in ($RES_SIM_253) (397|431) [SCAL] (1) perfetGas2.pRatio = idealGasConstantGamma2.p_out / idealGasConstantGamma2.p_in ($RES_BND_590) (398|432) [SCAL] (1) ($DER.idealGasConstantGamma1.dp * idealGasConstantGamma1.TC) / idealGasConstantGamma1.dp_nom = (idealGasConstantGamma1.P_in_internal - idealGasConstantGamma1.P) / idealGasConstantGamma1.P_nom ($RES_SIM_254) (399|433) [SCAL] (1) idealGasConstantGamma1.adiabaticModel.w_t = if $SEV_4 then idealGasConstantGamma1.adiabaticModel.w_t_is / idealGasConstantGamma1.eta_fixed else idealGasConstantGamma1.adiabaticModel.w_t_is * idealGasConstantGamma1.eta_fixed ($RES_SIM_258) (400|434) [SCAL] (1) idealGasConstantGamma2.adiabaticModel.delta_gamma_rel = $FUN_184 / max(idealGasConstantGamma2.adiabaticModel.gamma_out, idealGasConstantGamma2.adiabaticModel.gamma) ($RES_BND_597) (401|435) [SCAL] (1) idealGasConstantGamma.adiabaticModel.w_t = if $SEV_1 then idealGasConstantGamma.adiabaticModel.w_t_is / idealGasConstantGamma.eta_fixed else idealGasConstantGamma.adiabaticModel.w_t_is * idealGasConstantGamma.eta_fixed ($RES_SIM_343) (402|436) [SCAL] (1) idealGasConstantGamma.adiabaticModel.Z_out = (0.005293126209252852 * idealGasConstantGamma.p_out) / ($FUN_6 * idealGasConstantGamma.adiabaticModel.rho_out) ($RES_SIM_346) (403|437) [SCAL] (1) source9.outlet.state.T = fullMedium3.inlet.state.T ($RES_SIM_430) (404|438) [SCAL] (1) idealGasConstantGamma.adiabaticModel.Z_in = (0.005293126209252852 * idealGasConstantGamma.adiabaticModel.p_in) / (idealGasConstantGamma.adiabaticModel.T_in * idealGasConstantGamma.adiabaticModel.rho_in) ($RES_SIM_347) (405|439) [SCAL] (1) source9.outlet.state.p = fullMedium3.inlet.state.p ($RES_SIM_431) (406|440) [SCAL] (1) idealGasConstantGamma.adiabaticModel.T_out_is = idealGasConstantGamma.adiabaticModel.T_in * (idealGasConstantGamma.p_out / idealGasConstantGamma.adiabaticModel.p_in) ^ ((idealGasConstantGamma.adiabaticModel.gamma - 1.0) / idealGasConstantGamma.adiabaticModel.gamma) ($RES_SIM_348) (407|441) [SCAL] (1) perfetGas2.outlet.state.T = sink8.inlet.state.T ($RES_SIM_437) (408|442) [SCAL] (1) perfetGas2.outlet.state.p = sink8.inlet.state.p ($RES_SIM_438) (409|443) [RECD] (2) perfetGas.outlet.state = $FUN_34 ($RES_SIM_174) (410|445) [SCAL] (1) perfetGas.p_out = perfetGas.p_in + perfetGas.dp ($RES_SIM_176) (411|446) [SCAL] (1) idealGasConstantGamma1.adiabaticModel.Z_out = (0.005293126209252852 * idealGasConstantGamma1.p_out) / ($FUN_19 * idealGasConstantGamma1.adiabaticModel.rho_out) ($RES_SIM_261) (412|447) [SCAL] (1) idealGasConstantGamma1.adiabaticModel.Z_in = (0.005293126209252852 * idealGasConstantGamma1.adiabaticModel.p_in) / (idealGasConstantGamma1.adiabaticModel.T_in * idealGasConstantGamma1.adiabaticModel.rho_in) ($RES_SIM_262) (413|448) [SCAL] (1) idealGasConstantGamma1.adiabaticModel.T_out_is = idealGasConstantGamma1.adiabaticModel.T_in * (idealGasConstantGamma1.p_out / idealGasConstantGamma1.adiabaticModel.p_in) ^ ((idealGasConstantGamma1.adiabaticModel.gamma - 1.0) / idealGasConstantGamma1.adiabaticModel.gamma) ($RES_SIM_263) (414|449) [SCAL] (1) idealGasConstantGamma1.adiabaticModel.w_t = idealGasConstantGamma1.h_out - idealGasConstantGamma1.adiabaticModel.h_in ($RES_SIM_268) (415|450) [SCAL] (1) idealGasConstantGamma1.adiabaticModel.w_t_is = idealGasConstantGamma1.adiabaticModel.h_out_is - idealGasConstantGamma1.adiabaticModel.h_in ($RES_SIM_269) (416|451) [SCAL] (1) idealGasConstantGamma3.pRatio = idealGasConstantGamma3.p_out / idealGasConstantGamma3.p_in ($RES_BND_690) (417|452) [SCAL] (1) idealGasConstantGamma.adiabaticModel.w_t = idealGasConstantGamma.h_out - idealGasConstantGamma.adiabaticModel.h_in ($RES_SIM_353) (418|453) [SCAL] (1) idealGasConstantGamma.adiabaticModel.w_t_is = idealGasConstantGamma.adiabaticModel.h_out_is - idealGasConstantGamma.adiabaticModel.h_in ($RES_SIM_354) (419|454) [SCAL] (1) perfetGas1.outlet.state.T = sink7.inlet.state.T ($RES_SIM_440) (420|455) [SCAL] (1) perfetGas1.outlet.state.p = sink7.inlet.state.p ($RES_SIM_441) (421|456) [RECD] (2) source1.outlet.state = $FUN_3 ($RES_SIM_359) (422|458) [SCAL] (1) idealGasConstantGamma3.adiabaticModel.delta_gamma_rel = $FUN_97 / max(idealGasConstantGamma3.adiabaticModel.gamma_out, idealGasConstantGamma3.adiabaticModel.gamma) ($RES_BND_697) (423|459) [SCAL] (1) source8.outlet.state.T = perfetGas2.inlet.state.T ($RES_SIM_443) (424|460) [SCAL] (1) source8.outlet.state.p = perfetGas2.inlet.state.p ($RES_SIM_444) (425|461) [SCAL] (1) source7.outlet.state.T = perfetGas1.inlet.state.T ($RES_SIM_446) (426|462) [SCAL] (1) source7.outlet.state.p = perfetGas1.inlet.state.p ($RES_SIM_447) (427|463) [SCAL] (1) perfetGas.outlet.state.T = sink2.inlet.state.T ($RES_SIM_449) (428|464) [SCAL] (1) perfetGas.P_in_internal = sink2.m_flow_fixed * perfetGas.dh ($RES_SIM_180) (429|465) [SCAL] (1) perfetGas.dh = perfetGas.h_out - perfetGas.h_in ($RES_SIM_182) (430|466) [SCAL] (1) perfetGas.adiabaticModel.w_t = if $SEV_6 then perfetGas.adiabaticModel.w_t_is / perfetGas.eta_fixed else perfetGas.adiabaticModel.w_t_is * perfetGas.eta_fixed ($RES_SIM_187) (431|467) [RECD] (2) source5.outlet.state = $FUN_16 ($RES_SIM_274) (432|469) [RECD] (2) fullMedium2.outlet.state = $FUN_15 ($RES_SIM_279) (433|471) [SCAL] (1) perfetGas2.pRatio = pressureRatio.offset + (if $TEV_0 then 0.0 else if $TEV_1 then (pressureRatio.height * (time - pressureRatio.startTime)) / pressureRatio.duration else pressureRatio.height) ($RES_SIM_364) (434|472) [RECD] (2) fullMedium.outlet.state = $FUN_2 ($RES_SIM_365) (435|474) [SCAL] (1) perfetGas.outlet.state.p = sink2.inlet.state.p ($RES_SIM_450) (436|475) [SCAL] (1) fullMedium.p_out = fullMedium.p_in + fullMedium.dp ($RES_SIM_367) (437|476) [SCAL] (1) source2.outlet.state.T = perfetGas.inlet.state.T ($RES_SIM_452) (438|477) [SCAL] (1) source2.outlet.state.p = perfetGas.inlet.state.p ($RES_SIM_453) (439|478) [SCAL] (1) perfetGas.adiabaticModel.Z_out = (0.005293126209252852 * perfetGas.p_out) / ($FUN_33 * perfetGas.adiabaticModel.rho_out) ($RES_SIM_190) (440|479) [SCAL] (1) perfetGas.adiabaticModel.Z_in = (0.005293126209252852 * perfetGas.adiabaticModel.p_in) / (perfetGas.adiabaticModel.T_in * perfetGas.adiabaticModel.rho_in) ($RES_SIM_191) (441|480) [SCAL] (1) perfetGas.adiabaticModel.T_out_is = perfetGas.adiabaticModel.T_in * (perfetGas.p_out / perfetGas.adiabaticModel.p_in) ^ ((perfetGas.adiabaticModel.gamma - 1.0) / perfetGas.adiabaticModel.gamma) ($RES_SIM_192) (442|481) [SCAL] (1) fullMedium2.p_out = fullMedium2.p_in + fullMedium2.dp ($RES_SIM_281) (443|482) [SCAL] (1) perfetGas.adiabaticModel.w_t = perfetGas.adiabaticModel.cp * (perfetGas.adiabaticModel.T_out - perfetGas.adiabaticModel.T_in) ($RES_SIM_198) (444|483) [SCAL] (1) perfetGas.adiabaticModel.w_t_is = perfetGas.adiabaticModel.cp * (perfetGas.adiabaticModel.T_out_is - perfetGas.adiabaticModel.T_in) ($RES_SIM_199) (445|484) [SCAL] (1) fullMedium2.singularityRegime = if noEvent($FUN_13 > 2.220446049250313e-16 and $FUN_14 < 2.220446049250313e-16) then -1.0 else 0.0 ($RES_SIM_284) (446|485) [SCAL] (1) fullMedium2.m_flow = (fullMedium2.dh * fullMedium1.P_in_internal) / (4.930380657631324e-32 + fullMedium2.dh ^ 2.0) ($RES_SIM_286) (447|486) [SCAL] (1) fullMedium.P_in_internal = sink.m_flow_fixed * fullMedium.dh ($RES_SIM_371) (448|487) [SCAL] (1) fullMedium2.dh = fullMedium2.h_out - fullMedium2.h_in ($RES_SIM_288) (449|488) [SCAL] (1) fullMedium.dh = fullMedium.h_out - fullMedium.h_in ($RES_SIM_373) (450|489) [SCAL] (1) fullMedium.adiabaticModel.w_t = if $SEV_0 then fullMedium.adiabaticModel.w_t_is / fullMedium.eta_fixed else fullMedium.adiabaticModel.w_t_is * fullMedium.eta_fixed ($RES_SIM_378) (451|490) [SCAL] (1) idealGasConstantGamma2.outlet.state.T = sink6.inlet.state.T ($RES_SIM_463) (452|491) [SCAL] (1) idealGasConstantGamma2.outlet.state.p = sink6.inlet.state.p ($RES_SIM_464) (453|492) [SCAL] (1) idealGasConstantGamma1.outlet.state.T = sink5.inlet.state.T ($RES_SIM_466) (454|493) [SCAL] (1) idealGasConstantGamma1.outlet.state.p = sink5.inlet.state.p ($RES_SIM_467) (455|494) [SCAL] (1) source6.outlet.state.T = idealGasConstantGamma2.inlet.state.T ($RES_SIM_469) (456|495) [SCAL] (1) fullMedium2.adiabaticModel.w_t = if $SEV_3 then fullMedium2.adiabaticModel.w_t_is / fullMedium2.eta_fixed else fullMedium2.adiabaticModel.w_t_is * fullMedium2.eta_fixed ($RES_SIM_293) (457|496) [SCAL] (1) fullMedium2.adiabaticModel.w_t = fullMedium2.h_out - fullMedium2.adiabaticModel.h_in ($RES_SIM_296) (458|497) [SCAL] (1) fullMedium2.adiabaticModel.w_t_is = fullMedium2.adiabaticModel.h_out_is - fullMedium2.adiabaticModel.h_in ($RES_SIM_297) (459|498) [SCAL] (1) fullMedium.adiabaticModel.w_t = fullMedium.h_out - fullMedium.adiabaticModel.h_in ($RES_SIM_381) (460|499) [SCAL] (1) fullMedium.adiabaticModel.w_t_is = fullMedium.adiabaticModel.h_out_is - fullMedium.adiabaticModel.h_in ($RES_SIM_382) (461|500) [RECD] (2) source4.outlet.state = $FUN_12 ($RES_SIM_299) (462|502) [RECD] (2) source.outlet.state = $FUN_1 ($RES_SIM_386) (463|504) [SCAL] (1) source6.outlet.state.p = idealGasConstantGamma2.inlet.state.p ($RES_SIM_470) (464|505) [SCAL] (1) source5.outlet.state.T = idealGasConstantGamma1.inlet.state.T ($RES_SIM_472) (465|506) [SCAL] (1) source5.outlet.state.p = idealGasConstantGamma1.inlet.state.p ($RES_SIM_473) (466|507) [SCAL] (1) fullMedium2.outlet.state.T = sink4.inlet.state.T ($RES_SIM_481) (467|508) [SCAL] (1) fullMedium2.outlet.state.p = sink4.inlet.state.p ($RES_SIM_482) (468|509) [SCAL] (1) fullMedium1.outlet.state.T = sink3.inlet.state.T ($RES_SIM_484) (469|510) [SCAL] (1) fullMedium1.outlet.state.p = sink3.inlet.state.p ($RES_SIM_485) (470|511) [SCAL] (1) source4.outlet.state.T = fullMedium2.inlet.state.T ($RES_SIM_487) (471|512) [SCAL] (1) source4.outlet.state.p = fullMedium2.inlet.state.p ($RES_SIM_488) (472|513) [SCAL] (1) source3.outlet.state.T = fullMedium1.inlet.state.T ($RES_SIM_490) (473|514) [SCAL] (1) source3.outlet.state.p = fullMedium1.inlet.state.p ($RES_SIM_491) (474|515) [SCAL] (1) idealGasConstantGamma.outlet.state.T = sink1.inlet.state.T ($RES_SIM_493) (475|516) [SCAL] (1) idealGasConstantGamma.outlet.state.p = sink1.inlet.state.p ($RES_SIM_494) (476|517) [SCAL] (1) fullMedium.outlet.state.T = sink.inlet.state.T ($RES_SIM_496) (477|518) [SCAL] (1) fullMedium.outlet.state.p = sink.inlet.state.p ($RES_SIM_497) (478|519) [SCAL] (1) source1.outlet.state.T = idealGasConstantGamma.inlet.state.T ($RES_SIM_499) (479|520) [SCAL] (1) $FUN_1.p = source.p0_par ($RES_SIM_995) (480|521) [SCAL] (1) $FUN_1.T = source.T0_par ($RES_SIM_996) (481|522) [SCAL] (1) $FUN_2.p = fullMedium.p_out ($RES_SIM_997) (482|523) [SCAL] (1) $FUN_2.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium.Medium.T_h(fullMedium.h_out) ($RES_SIM_998) (483|524) [SCAL] (1) $FUN_3.p = source1.p0_par ($RES_SIM_999) (484|525) [SCAL] (1) $FUN_233.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma.adiabaticModel.Medium.T_h(idealGasConstantGamma.h_out) ($RES_SIM_1074) (485|526) [SCAL] (1) $FUN_233.p = idealGasConstantGamma.p_out ($RES_SIM_1073) (486|527) [SCAL] (1) $FUN_202.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma1.adiabaticModel.Medium.T_h(idealGasConstantGamma1.h_out) ($RES_SIM_1072) (487|528) [SCAL] (1) $FUN_202.p = idealGasConstantGamma1.p_out ($RES_SIM_1071) (488|529) [SCAL] (1) $FUN_185.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma2.adiabaticModel.Medium.T_h(idealGasConstantGamma2.h_out) ($RES_SIM_1070) (489|530) [SCAL] (1) $FUN_185.p = idealGasConstantGamma2.p_out ($RES_SIM_1069) (490|531) [SCAL] (1) $FUN_156.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas.adiabaticModel.Medium.T_h(perfetGas.h_out) ($RES_SIM_1068) (491|532) [SCAL] (1) $FUN_156.p = perfetGas.p_out ($RES_SIM_1067) (492|533) [SCAL] (1) $FUN_135.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas1.adiabaticModel.Medium.T_h(perfetGas1.h_out) ($RES_SIM_1066) (493|534) [SCAL] (1) $FUN_135.p = perfetGas1.p_out ($RES_SIM_1065) (494|535) [SCAL] (1) $FUN_115.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas2.adiabaticModel.Medium.T_h(perfetGas2.h_out) ($RES_SIM_1064) (495|536) [SCAL] (1) $FUN_115.p = perfetGas2.p_out ($RES_SIM_1063) (496|537) [SCAL] (1) $FUN_98.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma3.adiabaticModel.Medium.T_h(idealGasConstantGamma3.h_out) ($RES_SIM_1062) (497|538) [SCAL] (1) $FUN_98.p = idealGasConstantGamma3.p_out ($RES_SIM_1061) (498|539) [SCAL] (1) $FUN_69.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas3.adiabaticModel.Medium.T_h(perfetGas3.h_out) ($RES_SIM_1060) (499|540) [SCAL] (1) perfetGas3.singularityRegime = if noEvent($FUN_64 > 2.220446049250313e-16 and $FUN_65 < 2.220446049250313e-16) then 1.0 else 0.0 ($RES_SIM_10) (500|541) [SCAL] (1) perfetGas3.P = sink11.m_flow_fixed * perfetGas3.dh ($RES_SIM_11) (501|542) [SCAL] (1) perfetGas3.dh = perfetGas3.h_out - perfetGas3.h_in ($RES_SIM_13) (502|543) [SCAL] (1) ($DER.perfetGas3.dp * perfetGas3.TC) / perfetGas3.dp_nom = (perfetGas1.P_in_internal - perfetGas3.P) / perfetGas3.P_nom ($RES_SIM_14) (503|544) [SCAL] (1) perfetGas3.adiabaticModel.w_t = if $SEV_11 then perfetGas3.adiabaticModel.w_t_is / perfetGas3.eta_fixed else perfetGas3.adiabaticModel.w_t_is * perfetGas3.eta_fixed ($RES_SIM_18) (504|545) [SCAL] (1) perfetGas3.p_out = perfetGas3.p_in + perfetGas3.dp ($RES_SIM_7) (505|546) [RECD] (2) perfetGas3.outlet.state = $FUN_66 ($RES_SIM_5) (506|548) [SCAL] (1) $FUN_69.p = perfetGas3.p_out ($RES_SIM_1059) (507|549) [SCAL] (1) $FUN_66.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas3.Medium.T_h(perfetGas3.h_out) ($RES_SIM_1058) (508|550) [SCAL] (1) $FUN_66.p = perfetGas3.p_out ($RES_SIM_1057) (509|551) [SCAL] (1) $FUN_61.T = perfetGas3.adiabaticModel.T_out ($RES_SIM_1056) (510|552) [SCAL] (1) $FUN_61.p = perfetGas3.p_out ($RES_SIM_1055) (511|553) [SCAL] (1) $FUN_60.T = source11.T0_par ($RES_SIM_1054) (512|554) [SCAL] (1) $FUN_60.p = source11.p0_par ($RES_SIM_1053) (513|555) [SCAL] (1) $FUN_59.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.idealGasConstantGamma3.Medium.T_h(idealGasConstantGamma3.h_out) ($RES_SIM_1052) (514|556) [SCAL] (1) $FUN_59.p = idealGasConstantGamma3.p_out ($RES_SIM_1051) (515|557) [SCAL] (1) $FUN_54.T = idealGasConstantGamma3.adiabaticModel.T_out_is ($RES_SIM_1050) (516|558) [SCAL] (1) perfetGas3.adiabaticModel.Z_out = (0.005293126209252852 * perfetGas3.p_out) / ($FUN_63 * perfetGas3.adiabaticModel.rho_out) ($RES_SIM_21) (517|559) [SCAL] (1) perfetGas3.adiabaticModel.Z_in = (0.005293126209252852 * perfetGas3.adiabaticModel.p_in) / (perfetGas3.adiabaticModel.T_in * perfetGas3.adiabaticModel.rho_in) ($RES_SIM_22) (518|560) [SCAL] (1) perfetGas3.adiabaticModel.T_out_is = perfetGas3.adiabaticModel.T_in * (perfetGas3.p_out / perfetGas3.adiabaticModel.p_in) ^ ((perfetGas3.adiabaticModel.gamma - 1.0) / perfetGas3.adiabaticModel.gamma) ($RES_SIM_23) (519|561) [SCAL] (1) perfetGas3.adiabaticModel.w_t = perfetGas3.adiabaticModel.cp * (perfetGas3.adiabaticModel.T_out - perfetGas3.adiabaticModel.T_in) ($RES_SIM_29) (520|562) [SCAL] (1) $FUN_54.p = idealGasConstantGamma3.p_out ($RES_SIM_1049) (521|563) [SCAL] (1) $FUN_53.T = source10.T0_par ($RES_SIM_1048) (522|564) [SCAL] (1) $FUN_53.p = source10.p0_par ($RES_SIM_1047) (523|565) [SCAL] (1) $FUN_52.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.fullMedium3.Medium.T_h(fullMedium3.h_out) ($RES_SIM_1046) (524|566) [SCAL] (1) $FUN_52.p = fullMedium3.p_out ($RES_SIM_1045) (525|567) [SCAL] (1) $FUN_49.T = source9.T0_par ($RES_SIM_1044) (526|568) [SCAL] (1) $FUN_49.p = source9.p0_par ($RES_SIM_1043) (527|569) [SCAL] (1) $FUN_48.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas2.Medium.T_h(perfetGas2.h_out) ($RES_SIM_1042) (528|570) [SCAL] (1) $FUN_48.p = perfetGas2.p_out ($RES_SIM_1041) (529|571) [SCAL] (1) $FUN_43.T = perfetGas2.adiabaticModel.T_out ($RES_SIM_1040) (530|572) [SCAL] (1) perfetGas3.adiabaticModel.w_t_is = perfetGas3.adiabaticModel.cp * (perfetGas3.adiabaticModel.T_out_is - perfetGas3.adiabaticModel.T_in) ($RES_SIM_30) (531|573) [RECD] (2) source11.outlet.state = $FUN_60 ($RES_SIM_36) (532|575) [SCAL] (1) $FUN_43.p = perfetGas2.p_out ($RES_SIM_1039) (533|576) [SCAL] (1) $FUN_42.T = source8.T0_par ($RES_SIM_1038) (534|577) [SCAL] (1) $FUN_42.p = source8.p0_par ($RES_SIM_1037) (535|578) [SCAL] (1) $FUN_41.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas1.Medium.T_h(perfetGas1.h_out) ($RES_SIM_1036) (536|579) [SCAL] (1) $FUN_41.p = perfetGas1.p_out ($RES_SIM_1035) (537|580) [SCAL] (1) $FUN_36.T = perfetGas1.adiabaticModel.T_out ($RES_SIM_1034) (538|581) [SCAL] (1) $FUN_36.p = perfetGas1.p_out ($RES_SIM_1033) (539|582) [SCAL] (1) $FUN_35.T = source7.T0_par ($RES_SIM_1032) (540|583) [SCAL] (1) $FUN_35.p = source7.p0_par ($RES_SIM_1031) (541|584) [SCAL] (1) $FUN_34.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Compressor.perfetGas.Medium.T_h(perfetGas.h_out) ($RES_SIM_1030) (542|585) [RECD] (2) idealGasConstantGamma3.outlet.state = $FUN_59 ($RES_SIM_41) (543|587) [SCAL] (1) idealGasConstantGamma3.p_out = idealGasConstantGamma3.p_in + idealGasConstantGamma3.dp ($RES_SIM_43) (544|588) [SCAL] (1) idealGasConstantGamma3.singularityRegime = if noEvent($FUN_57 > 2.220446049250313e-16 and $FUN_58 < 2.220446049250313e-16) then 1.0 else 0.0 ($RES_SIM_46) (545|589) [SCAL] (1) idealGasConstantGamma3.dh = (sink10.m_flow_fixed * idealGasConstantGamma1.P_in_internal) / (4.930380657631324e-32 + sink10.m_flow_fixed ^ 2.0) ($RES_SIM_48) (546|590) [SCAL] (1) $DER.idealGasConstantGamma.P_in_internal = sink1.m_flow_fixed * $DER.idealGasConstantGamma.dh ($RES_SIM_1089) (547|591) [SCAL] (1) $DER.$FUN_31.T = $DER.perfetGas.adiabaticModel.T_out ($RES_SIM_1090) (548|592) [SCAL] (1) $DER.idealGasConstantGamma.dh = $DER.idealGasConstantGamma.h_out - $DER.idealGasConstantGamma.h_in ($RES_SIM_1091) (549|593) [SCAL] (1) $DER.idealGasConstantGamma.adiabaticModel.T_in = $DER.idealGasConstantGamma.adiabaticModel.state_in.T ($RES_SIM_1092) (550|594) [SCAL] (1) $DER.$FUN_30.T = 0.0 ($RES_SIM_1093) (551|595) [SCAL] (1) $DER.$FUN_30.p = 0.0 ($RES_SIM_1094) (552|596) [SCAL] (1) $DER.idealGasConstantGamma.adiabaticModel.h_out_is = $fDER0.ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), $FUN_4.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0, $DER.$FUN_4.T, 0.0) ($RES_SIM_1095) (553|597) [SCAL] (1) $DER.$FUN_24.T = $DER.idealGasConstantGamma2.adiabaticModel.T_out_is ($RES_SIM_1096) (554|598) [SCAL] (1) $DER.$FUN_23.T = 0.0 ($RES_SIM_1097) (555|599) [SCAL] (1) $DER.idealGasConstantGamma2.p_in = $DER.idealGasConstantGamma2.inlet.state.p ($RES_SIM_1098) (556|600) [SCAL] (1) $DER.perfetGas2.pRatio = ($DER.idealGasConstantGamma2.p_out * idealGasConstantGamma2.p_in - idealGasConstantGamma2.p_out * $DER.idealGasConstantGamma2.p_in) / idealGasConstantGamma2.p_in ^ 2.0 ($RES_SIM_1099) (557|601) [SCAL] (1) $DER.perfetGas2.adiabaticModel.cp = noEvent(if noEvent(perfetGas2.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * ($DER.perfetGas2.adiabaticModel.state_in.T * ((-626.411601) + perfetGas2.adiabaticModel.state_in.T * (5.30172524 + perfetGas2.adiabaticModel.state_in.T * (0.002503813816 + perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T))))) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * (5.30172524 + perfetGas2.adiabaticModel.state_in.T * (0.002503813816 + perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T)))) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * (0.002503813816 + perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T))) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T)) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T) + perfetGas2.adiabaticModel.state_in.T * (2.849677801e-13 * $DER.perfetGas2.adiabaticModel.state_in.T)))))) * (1/(perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T)) - 188.9244822140674 * (49436.5054 + perfetGas2.adiabaticModel.state_in.T * ((-626.411601) + perfetGas2.adiabaticModel.state_in.T * (5.30172524 + perfetGas2.adiabaticModel.state_in.T * (0.002503813816 + perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T)))))) * (($DER.perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T + perfetGas2.adiabaticModel.state_in.T * $DER.perfetGas2.adiabaticModel.state_in.T) / (perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T) ^ 2.0) else 188.9244822140674 * ($DER.perfetGas2.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas2.adiabaticModel.state_in.T * (8.29152319 + perfetGas2.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T))))) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * (8.29152319 + perfetGas2.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T)))) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T))) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T)) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T) + perfetGas2.adiabaticModel.state_in.T * (6.330036589999999e-16 * $DER.perfetGas2.adiabaticModel.state_in.T)))))) * (1/(perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T)) - 188.9244822140674 * (117696.2419 + perfetGas2.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas2.adiabaticModel.state_in.T * (8.29152319 + perfetGas2.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T)))))) * (($DER.perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T + perfetGas2.adiabaticModel.state_in.T * $DER.perfetGas2.adiabaticModel.state_in.T) / (perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T) ^ 2.0)) ($RES_SIM_1100) (558|602) [SCAL] (1) $DER.idealGasConstantGamma2.h_in = $fDER0.ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), idealGasConstantGamma2.inlet.state.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0, $DER.idealGasConstantGamma2.inlet.state.T, 0.0) ($RES_SIM_1101) (559|603) [SCAL] (1) $DER.idealGasConstantGamma2.adiabaticModel.p_in = $DER.idealGasConstantGamma2.adiabaticModel.state_in.p ($RES_SIM_1102) (560|604) [SCAL] (1) $DER.idealGasConstantGamma2.adiabaticModel.T_in = $DER.idealGasConstantGamma2.adiabaticModel.state_in.T ($RES_SIM_1103) (561|605) [SCAL] (1) $DER.idealGasConstantGamma.adiabaticModel.w_t = if $SEV_1 then ($DER.idealGasConstantGamma.adiabaticModel.w_t_is * idealGasConstantGamma.eta_fixed) / idealGasConstantGamma.eta_fixed ^ 2.0 else $DER.idealGasConstantGamma.adiabaticModel.w_t_is * idealGasConstantGamma.eta_fixed ($RES_SIM_1104) (562|606) [SCAL] (1) $DER.$FUN_43.T = $DER.perfetGas2.adiabaticModel.T_out ($RES_SIM_1105) (563|607) [SCAL] (1) $DER.perfetGas1.P_in_internal = -gain2.k * $DER.perfetGas.P_in_internal ($RES_SIM_1106) (564|608) [SCAL] (1) $DER.idealGasConstantGamma2.adiabaticModel.gamma = (noEvent(if noEvent(idealGasConstantGamma2.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma2.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma2.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma2.adiabaticModel.state_in.T))))) + idealGasConstantGamma2.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma2.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma2.adiabaticModel.state_in.T)))) + idealGasConstantGamma2.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma2.adiabaticModel.state_in.T))) + idealGasConstantGamma2.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma2.adiabaticModel.state_in.T)) + idealGasConstantGamma2.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma2.adiabaticModel.state_in.T) + idealGasConstantGamma2.adiabaticModel.state_in.T * (2.849677801e-13 * $DER.idealGasConstantGamma2.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T)) - 188.9244822140674 * (49436.5054 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma2.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma2.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma2.adiabaticModel.state_in.T)))))) * (($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T + idealGasConstantGamma2.adiabaticModel.state_in.T * $DER.idealGasConstantGamma2.adiabaticModel.state_in.T) / (idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T) ^ 2.0) else 188.9244822140674 * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma2.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma2.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma2.adiabaticModel.state_in.T))))) + idealGasConstantGamma2.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma2.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma2.adiabaticModel.state_in.T)))) + idealGasConstantGamma2.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma2.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma2.adiabaticModel.state_in.T))) + idealGasConstantGamma2.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma2.adiabaticModel.state_in.T)) + idealGasConstantGamma2.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma2.adiabaticModel.state_in.T) + idealGasConstantGamma2.adiabaticModel.state_in.T * (6.330036589999999e-16 * $DER.idealGasConstantGamma2.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T)) - 188.9244822140674 * (117696.2419 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma2.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma2.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma2.adiabaticModel.state_in.T)))))) * (($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T + idealGasConstantGamma2.adiabaticModel.state_in.T * $DER.idealGasConstantGamma2.adiabaticModel.state_in.T) / (idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T) ^ 2.0)) * ((-188.9244822140674) + smooth(0, if noEvent(idealGasConstantGamma2.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma2.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma2.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma2.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma2.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma2.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma2.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T)))) - noEvent(if noEvent(idealGasConstantGamma2.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma2.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma2.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma2.adiabaticModel.state_in.T))))) + idealGasConstantGamma2.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma2.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma2.adiabaticModel.state_in.T)))) + idealGasConstantGamma2.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma2.adiabaticModel.state_in.T))) + idealGasConstantGamma2.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma2.adiabaticModel.state_in.T)) + idealGasConstantGamma2.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma2.adiabaticModel.state_in.T) + idealGasConstantGamma2.adiabaticModel.state_in.T * (2.849677801e-13 * $DER.idealGasConstantGamma2.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T)) - 188.9244822140674 * (49436.5054 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma2.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma2.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma2.adiabaticModel.state_in.T)))))) * (($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T + idealGasConstantGamma2.adiabaticModel.state_in.T * $DER.idealGasConstantGamma2.adiabaticModel.state_in.T) / (idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T) ^ 2.0) else 188.9244822140674 * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma2.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma2.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma2.adiabaticModel.state_in.T))))) + idealGasConstantGamma2.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma2.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma2.adiabaticModel.state_in.T)))) + idealGasConstantGamma2.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma2.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma2.adiabaticModel.state_in.T))) + idealGasConstantGamma2.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma2.adiabaticModel.state_in.T)) + idealGasConstantGamma2.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma2.adiabaticModel.state_in.T) + idealGasConstantGamma2.adiabaticModel.state_in.T * (6.330036589999999e-16 * $DER.idealGasConstantGamma2.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T)) - 188.9244822140674 * (117696.2419 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma2.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma2.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma2.adiabaticModel.state_in.T)))))) * (($DER.idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T + idealGasConstantGamma2.adiabaticModel.state_in.T * $DER.idealGasConstantGamma2.adiabaticModel.state_in.T) / (idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T) ^ 2.0)) * smooth(0, if noEvent(idealGasConstantGamma2.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma2.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma2.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma2.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma2.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma2.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma2.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T)))) / ((-188.9244822140674) + smooth(0, if noEvent(idealGasConstantGamma2.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma2.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma2.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma2.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma2.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma2.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma2.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma2.adiabaticModel.state_in.T * idealGasConstantGamma2.adiabaticModel.state_in.T)))) ^ 2.0 ($RES_SIM_1107) (565|609) [SCAL] (1) $DER.perfetGas.h_out = $fDER0.ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), $FUN_31.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0, $DER.$FUN_31.T, 0.0) ($RES_SIM_1108) (566|610) [RECD] (2) $DER.idealGasConstantGamma2.adiabaticModel.state_in = $DER.idealGasConstantGamma2.inlet.state ($RES_SIM_1109) (567|612) [SCAL] (1) $DER.$FUN_42.T = 0.0 ($RES_SIM_1110) (568|613) [SCAL] (1) $DER.idealGasConstantGamma.adiabaticModel.T_out_is = $DER.idealGasConstantGamma.adiabaticModel.T_in * (idealGasConstantGamma.p_out / idealGasConstantGamma.adiabaticModel.p_in) ^ ((idealGasConstantGamma.adiabaticModel.gamma - 1.0) / idealGasConstantGamma.adiabaticModel.gamma) + idealGasConstantGamma.adiabaticModel.T_in * ((idealGasConstantGamma.p_out / idealGasConstantGamma.adiabaticModel.p_in) ^ ((-1.0) + (idealGasConstantGamma.adiabaticModel.gamma - 1.0) / idealGasConstantGamma.adiabaticModel.gamma) * ((idealGasConstantGamma.p_out / idealGasConstantGamma.adiabaticModel.p_in) * log(idealGasConstantGamma.p_out / idealGasConstantGamma.adiabaticModel.p_in) * (($DER.idealGasConstantGamma.adiabaticModel.gamma * idealGasConstantGamma.adiabaticModel.gamma - (idealGasConstantGamma.adiabaticModel.gamma - 1.0) * $DER.idealGasConstantGamma.adiabaticModel.gamma) / idealGasConstantGamma.adiabaticModel.gamma ^ 2.0) + ((idealGasConstantGamma.adiabaticModel.gamma - 1.0) / idealGasConstantGamma.adiabaticModel.gamma) * (($DER.idealGasConstantGamma.p_out * idealGasConstantGamma.adiabaticModel.p_in - idealGasConstantGamma.p_out * $DER.idealGasConstantGamma.adiabaticModel.p_in) / idealGasConstantGamma.adiabaticModel.p_in ^ 2.0))) ($RES_SIM_1111) (569|614) [SCAL] (1) $DER.$FUN_23.p = 0.0 ($RES_SIM_1112) (570|615) [SCAL] (1) $DER.$FUN_42.p = 0.0 ($RES_SIM_1113) (571|616) [SCAL] (1) $DER.idealGasConstantGamma.adiabaticModel.gamma = (noEvent(if noEvent(idealGasConstantGamma.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma.adiabaticModel.state_in.T))))) + idealGasConstantGamma.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma.adiabaticModel.state_in.T)))) + idealGasConstantGamma.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma.adiabaticModel.state_in.T))) + idealGasConstantGamma.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma.adiabaticModel.state_in.T)) + idealGasConstantGamma.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma.adiabaticModel.state_in.T) + idealGasConstantGamma.adiabaticModel.state_in.T * (2.849677801e-13 * $DER.idealGasConstantGamma.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T)) - 188.9244822140674 * (49436.5054 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma.adiabaticModel.state_in.T)))))) * (($DER.idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T + idealGasConstantGamma.adiabaticModel.state_in.T * $DER.idealGasConstantGamma.adiabaticModel.state_in.T) / (idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T) ^ 2.0) else 188.9244822140674 * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma.adiabaticModel.state_in.T))))) + idealGasConstantGamma.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma.adiabaticModel.state_in.T)))) + idealGasConstantGamma.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma.adiabaticModel.state_in.T))) + idealGasConstantGamma.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma.adiabaticModel.state_in.T)) + idealGasConstantGamma.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma.adiabaticModel.state_in.T) + idealGasConstantGamma.adiabaticModel.state_in.T * (6.330036589999999e-16 * $DER.idealGasConstantGamma.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T)) - 188.9244822140674 * (117696.2419 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma.adiabaticModel.state_in.T)))))) * (($DER.idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T + idealGasConstantGamma.adiabaticModel.state_in.T * $DER.idealGasConstantGamma.adiabaticModel.state_in.T) / (idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T) ^ 2.0)) * ((-188.9244822140674) + smooth(0, if noEvent(idealGasConstantGamma.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T)))) - noEvent(if noEvent(idealGasConstantGamma.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma.adiabaticModel.state_in.T))))) + idealGasConstantGamma.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma.adiabaticModel.state_in.T)))) + idealGasConstantGamma.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma.adiabaticModel.state_in.T))) + idealGasConstantGamma.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma.adiabaticModel.state_in.T)) + idealGasConstantGamma.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma.adiabaticModel.state_in.T) + idealGasConstantGamma.adiabaticModel.state_in.T * (2.849677801e-13 * $DER.idealGasConstantGamma.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T)) - 188.9244822140674 * (49436.5054 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma.adiabaticModel.state_in.T)))))) * (($DER.idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T + idealGasConstantGamma.adiabaticModel.state_in.T * $DER.idealGasConstantGamma.adiabaticModel.state_in.T) / (idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T) ^ 2.0) else 188.9244822140674 * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma.adiabaticModel.state_in.T))))) + idealGasConstantGamma.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma.adiabaticModel.state_in.T)))) + idealGasConstantGamma.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma.adiabaticModel.state_in.T))) + idealGasConstantGamma.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma.adiabaticModel.state_in.T)) + idealGasConstantGamma.adiabaticModel.state_in.T * ($DER.idealGasConstantGamma.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma.adiabaticModel.state_in.T) + idealGasConstantGamma.adiabaticModel.state_in.T * (6.330036589999999e-16 * $DER.idealGasConstantGamma.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T)) - 188.9244822140674 * (117696.2419 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma.adiabaticModel.state_in.T)))))) * (($DER.idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T + idealGasConstantGamma.adiabaticModel.state_in.T * $DER.idealGasConstantGamma.adiabaticModel.state_in.T) / (idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T) ^ 2.0)) * smooth(0, if noEvent(idealGasConstantGamma.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T)))) / ((-188.9244822140674) + smooth(0, if noEvent(idealGasConstantGamma.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-626.411601) + idealGasConstantGamma.adiabaticModel.state_in.T * (5.30172524 + idealGasConstantGamma.adiabaticModel.state_in.T * (0.002503813816 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-2.127308728e-7) + idealGasConstantGamma.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * idealGasConstantGamma.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1788.791477) + idealGasConstantGamma.adiabaticModel.state_in.T * (8.29152319 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-9.22315678e-5) + idealGasConstantGamma.adiabaticModel.state_in.T * (4.86367688e-9 + idealGasConstantGamma.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * idealGasConstantGamma.adiabaticModel.state_in.T)))))) * (1/(idealGasConstantGamma.adiabaticModel.state_in.T * idealGasConstantGamma.adiabaticModel.state_in.T)))) ^ 2.0 ($RES_SIM_1114) (572|617) [RECD] (2) $DER.perfetGas.adiabaticModel.state_in = $DER.perfetGas.inlet.state ($RES_SIM_1115) (573|619) [RECD] (2) $DER.source8.outlet.state = $DER.$FUN_42 ($RES_SIM_1116) (574|621) [SCAL] (1) $DER.idealGasConstantGamma2.dh = $DER.idealGasConstantGamma2.h_out - $DER.idealGasConstantGamma2.h_in ($RES_SIM_1117) (575|622) [SCAL] (1) $DER.idealGasConstantGamma.adiabaticModel.w_t = $DER.idealGasConstantGamma.h_out - $DER.idealGasConstantGamma.adiabaticModel.h_in ($RES_SIM_1118) (576|623) [SCAL] (1) $DER.idealGasConstantGamma.adiabaticModel.w_t_is = $DER.idealGasConstantGamma.adiabaticModel.h_out_is - $DER.idealGasConstantGamma.adiabaticModel.h_in ($RES_SIM_1119) (577|624) [RECD] (2) $DER.source1.outlet.state = $DER.$FUN_3 ($RES_SIM_1120) (578|626) [SCAL] (1) $DER.idealGasConstantGamma2.adiabaticModel.w_t = if $SEV_5 then ($DER.idealGasConstantGamma2.adiabaticModel.w_t_is * idealGasConstantGamma2.eta_fixed) / idealGasConstantGamma2.eta_fixed ^ 2.0 else $DER.idealGasConstantGamma2.adiabaticModel.w_t_is * idealGasConstantGamma2.eta_fixed ($RES_SIM_1121) (579|627) [SCAL] (1) $DER.source8.outlet.state.T = $DER.perfetGas2.inlet.state.T ($RES_SIM_1122) (580|628) [SCAL] (1) $DER.source8.outlet.state.p = $DER.perfetGas2.inlet.state.p ($RES_SIM_1123) (581|629) [SCAL] (1) $DER.perfetGas.P_in_internal = sink2.m_flow_fixed * $DER.perfetGas.dh ($RES_SIM_1124) (582|630) [SCAL] (1) $DER.perfetGas.dh = $DER.perfetGas.h_out - $DER.perfetGas.h_in ($RES_SIM_1125) (583|631) [SCAL] (1) $DER.perfetGas.adiabaticModel.w_t = if $SEV_6 then ($DER.perfetGas.adiabaticModel.w_t_is * perfetGas.eta_fixed) / perfetGas.eta_fixed ^ 2.0 else $DER.perfetGas.adiabaticModel.w_t_is * perfetGas.eta_fixed ($RES_SIM_1126) (584|632) [SCAL] (1) $DER.perfetGas2.pRatio = if $TEV_0 then 0.0 else if $TEV_1 then (pressureRatio.height * pressureRatio.duration) / pressureRatio.duration ^ 2.0 else 0.0 ($RES_SIM_1127) (585|633) [SCAL] (1) $DER.perfetGas2.m_flow = (($DER.perfetGas2.dh * perfetGas1.P_in_internal + perfetGas2.dh * $DER.perfetGas1.P_in_internal) * (4.930380657631324e-32 + perfetGas2.dh ^ 2.0) - (2.0 * perfetGas2.dh * $DER.perfetGas2.dh) * perfetGas2.dh * perfetGas1.P_in_internal) / (4.930380657631324e-32 + perfetGas2.dh ^ 2.0) ^ 2.0 ($RES_SIM_1128) (586|634) [SCAL] (1) $DER.source2.outlet.state.T = $DER.perfetGas.inlet.state.T ($RES_SIM_1129) (587|635) [SCAL] (1) $DER.perfetGas2.pRatio = ($DER.perfetGas2.p_out * perfetGas2.p_in - perfetGas2.p_out * $DER.perfetGas2.p_in) / perfetGas2.p_in ^ 2.0 ($RES_SIM_1130) (588|636) [SCAL] (1) $DER.source2.outlet.state.p = $DER.perfetGas.inlet.state.p ($RES_SIM_1131) (589|637) [SCAL] (1) $DER.perfetGas2.dh = $DER.perfetGas2.h_out - $DER.perfetGas2.h_in ($RES_SIM_1132) (590|638) [SCAL] (1) $DER.perfetGas.adiabaticModel.T_out_is = $DER.perfetGas.adiabaticModel.T_in * (perfetGas.p_out / perfetGas.adiabaticModel.p_in) ^ ((perfetGas.adiabaticModel.gamma - 1.0) / perfetGas.adiabaticModel.gamma) + perfetGas.adiabaticModel.T_in * ((perfetGas.p_out / perfetGas.adiabaticModel.p_in) ^ ((-1.0) + (perfetGas.adiabaticModel.gamma - 1.0) / perfetGas.adiabaticModel.gamma) * ((perfetGas.p_out / perfetGas.adiabaticModel.p_in) * log(perfetGas.p_out / perfetGas.adiabaticModel.p_in) * (($DER.perfetGas.adiabaticModel.gamma * perfetGas.adiabaticModel.gamma - (perfetGas.adiabaticModel.gamma - 1.0) * $DER.perfetGas.adiabaticModel.gamma) / perfetGas.adiabaticModel.gamma ^ 2.0) + ((perfetGas.adiabaticModel.gamma - 1.0) / perfetGas.adiabaticModel.gamma) * (($DER.perfetGas.p_out * perfetGas.adiabaticModel.p_in - perfetGas.p_out * $DER.perfetGas.adiabaticModel.p_in) / perfetGas.adiabaticModel.p_in ^ 2.0))) ($RES_SIM_1133) (591|639) [SCAL] (1) $DER.idealGasConstantGamma2.adiabaticModel.h_out_is = $fDER0.ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), $FUN_24.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0, $DER.$FUN_24.T, 0.0) ($RES_SIM_1134) (592|640) [SCAL] (1) $DER.perfetGas.adiabaticModel.w_t = $DER.perfetGas.adiabaticModel.cp * (perfetGas.adiabaticModel.T_out - perfetGas.adiabaticModel.T_in) + perfetGas.adiabaticModel.cp * ($DER.perfetGas.adiabaticModel.T_out - $DER.perfetGas.adiabaticModel.T_in) ($RES_SIM_1135) (593|641) [RECD] (2) $DER.perfetGas2.adiabaticModel.state_in = $DER.perfetGas2.inlet.state ($RES_SIM_1136) (594|643) [SCAL] (1) $DER.$FUN_4.T = $DER.idealGasConstantGamma.adiabaticModel.T_out_is ($RES_SIM_1137) (595|644) [SCAL] (1) $DER.perfetGas.adiabaticModel.w_t_is = $DER.perfetGas.adiabaticModel.cp * (perfetGas.adiabaticModel.T_out_is - perfetGas.adiabaticModel.T_in) + perfetGas.adiabaticModel.cp * ($DER.perfetGas.adiabaticModel.T_out_is - $DER.perfetGas.adiabaticModel.T_in) ($RES_SIM_1138) (596|645) [SCAL] (1) $DER.$FUN_3.T = 0.0 ($RES_SIM_1139) (597|646) [SCAL] (1) $DER.perfetGas2.adiabaticModel.w_t = if $SEV_8 then ($DER.perfetGas2.adiabaticModel.w_t_is * perfetGas2.eta_fixed) / perfetGas2.eta_fixed ^ 2.0 else $DER.perfetGas2.adiabaticModel.w_t_is * perfetGas2.eta_fixed ($RES_SIM_1140) (598|647) [SCAL] (1) $DER.idealGasConstantGamma2.adiabaticModel.h_in = $fDER0.ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), idealGasConstantGamma2.adiabaticModel.state_in.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0, $DER.idealGasConstantGamma2.adiabaticModel.state_in.T, 0.0) ($RES_SIM_1141) (599|648) [SCAL] (1) $DER.perfetGas.p_in = $DER.perfetGas.inlet.state.p ($RES_SIM_1142) (600|649) [RECD] (2) $DER.source2.outlet.state = $DER.$FUN_30 ($RES_SIM_1143) (601|651) [SCAL] (1) $DER.perfetGas.h_in = $fDER0.ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), perfetGas.inlet.state.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0, $DER.perfetGas.inlet.state.T, 0.0) ($RES_SIM_1144) (602|652) [SCAL] (1) $DER.perfetGas.adiabaticModel.p_in = $DER.perfetGas.adiabaticModel.state_in.p ($RES_SIM_1145) (603|653) [SCAL] (1) $DER.idealGasConstantGamma.adiabaticModel.h_in = $fDER0.ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), idealGasConstantGamma.adiabaticModel.state_in.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0, $DER.idealGasConstantGamma.adiabaticModel.state_in.T, 0.0) ($RES_SIM_1146) (604|654) [SCAL] (1) $DER.perfetGas.adiabaticModel.T_in = $DER.perfetGas.adiabaticModel.state_in.T ($RES_SIM_1147) (605|655) [SCAL] (1) $DER.perfetGas.adiabaticModel.gamma = (noEvent(if noEvent(perfetGas.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * ($DER.perfetGas.adiabaticModel.state_in.T * ((-626.411601) + perfetGas.adiabaticModel.state_in.T * (5.30172524 + perfetGas.adiabaticModel.state_in.T * (0.002503813816 + perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T))))) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * (5.30172524 + perfetGas.adiabaticModel.state_in.T * (0.002503813816 + perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T)))) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * (0.002503813816 + perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T))) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T)) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T) + perfetGas.adiabaticModel.state_in.T * (2.849677801e-13 * $DER.perfetGas.adiabaticModel.state_in.T)))))) * (1/(perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T)) - 188.9244822140674 * (49436.5054 + perfetGas.adiabaticModel.state_in.T * ((-626.411601) + perfetGas.adiabaticModel.state_in.T * (5.30172524 + perfetGas.adiabaticModel.state_in.T * (0.002503813816 + perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T)))))) * (($DER.perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T + perfetGas.adiabaticModel.state_in.T * $DER.perfetGas.adiabaticModel.state_in.T) / (perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T) ^ 2.0) else 188.9244822140674 * ($DER.perfetGas.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas.adiabaticModel.state_in.T * (8.29152319 + perfetGas.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T))))) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * (8.29152319 + perfetGas.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T)))) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T))) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T)) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T) + perfetGas.adiabaticModel.state_in.T * (6.330036589999999e-16 * $DER.perfetGas.adiabaticModel.state_in.T)))))) * (1/(perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T)) - 188.9244822140674 * (117696.2419 + perfetGas.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas.adiabaticModel.state_in.T * (8.29152319 + perfetGas.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T)))))) * (($DER.perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T + perfetGas.adiabaticModel.state_in.T * $DER.perfetGas.adiabaticModel.state_in.T) / (perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T) ^ 2.0)) * ((-188.9244822140674) + smooth(0, if noEvent(perfetGas.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + perfetGas.adiabaticModel.state_in.T * ((-626.411601) + perfetGas.adiabaticModel.state_in.T * (5.30172524 + perfetGas.adiabaticModel.state_in.T * (0.002503813816 + perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T)))))) * (1/(perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + perfetGas.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas.adiabaticModel.state_in.T * (8.29152319 + perfetGas.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T)))))) * (1/(perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T)))) - noEvent(if noEvent(perfetGas.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * ($DER.perfetGas.adiabaticModel.state_in.T * ((-626.411601) + perfetGas.adiabaticModel.state_in.T * (5.30172524 + perfetGas.adiabaticModel.state_in.T * (0.002503813816 + perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T))))) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * (5.30172524 + perfetGas.adiabaticModel.state_in.T * (0.002503813816 + perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T)))) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * (0.002503813816 + perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T))) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T)) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T) + perfetGas.adiabaticModel.state_in.T * (2.849677801e-13 * $DER.perfetGas.adiabaticModel.state_in.T)))))) * (1/(perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T)) - 188.9244822140674 * (49436.5054 + perfetGas.adiabaticModel.state_in.T * ((-626.411601) + perfetGas.adiabaticModel.state_in.T * (5.30172524 + perfetGas.adiabaticModel.state_in.T * (0.002503813816 + perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T)))))) * (($DER.perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T + perfetGas.adiabaticModel.state_in.T * $DER.perfetGas.adiabaticModel.state_in.T) / (perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T) ^ 2.0) else 188.9244822140674 * ($DER.perfetGas.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas.adiabaticModel.state_in.T * (8.29152319 + perfetGas.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T))))) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * (8.29152319 + perfetGas.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T)))) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T))) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T)) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T) + perfetGas.adiabaticModel.state_in.T * (6.330036589999999e-16 * $DER.perfetGas.adiabaticModel.state_in.T)))))) * (1/(perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T)) - 188.9244822140674 * (117696.2419 + perfetGas.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas.adiabaticModel.state_in.T * (8.29152319 + perfetGas.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T)))))) * (($DER.perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T + perfetGas.adiabaticModel.state_in.T * $DER.perfetGas.adiabaticModel.state_in.T) / (perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T) ^ 2.0)) * smooth(0, if noEvent(perfetGas.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + perfetGas.adiabaticModel.state_in.T * ((-626.411601) + perfetGas.adiabaticModel.state_in.T * (5.30172524 + perfetGas.adiabaticModel.state_in.T * (0.002503813816 + perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T)))))) * (1/(perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + perfetGas.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas.adiabaticModel.state_in.T * (8.29152319 + perfetGas.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T)))))) * (1/(perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T)))) / ((-188.9244822140674) + smooth(0, if noEvent(perfetGas.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + perfetGas.adiabaticModel.state_in.T * ((-626.411601) + perfetGas.adiabaticModel.state_in.T * (5.30172524 + perfetGas.adiabaticModel.state_in.T * (0.002503813816 + perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T)))))) * (1/(perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + perfetGas.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas.adiabaticModel.state_in.T * (8.29152319 + perfetGas.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T)))))) * (1/(perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T)))) ^ 2.0 ($RES_SIM_1148) (606|656) [SCAL] (1) $DER.source6.outlet.state.T = $DER.idealGasConstantGamma2.inlet.state.T ($RES_SIM_1149) (607|657) [SCAL] (1) $DER.idealGasConstantGamma2.adiabaticModel.T_out_is = $DER.idealGasConstantGamma2.adiabaticModel.T_in * (idealGasConstantGamma2.p_out / idealGasConstantGamma2.adiabaticModel.p_in) ^ ((idealGasConstantGamma2.adiabaticModel.gamma - 1.0) / idealGasConstantGamma2.adiabaticModel.gamma) + idealGasConstantGamma2.adiabaticModel.T_in * ((idealGasConstantGamma2.p_out / idealGasConstantGamma2.adiabaticModel.p_in) ^ ((-1.0) + (idealGasConstantGamma2.adiabaticModel.gamma - 1.0) / idealGasConstantGamma2.adiabaticModel.gamma) * ((idealGasConstantGamma2.p_out / idealGasConstantGamma2.adiabaticModel.p_in) * log(idealGasConstantGamma2.p_out / idealGasConstantGamma2.adiabaticModel.p_in) * (($DER.idealGasConstantGamma2.adiabaticModel.gamma * idealGasConstantGamma2.adiabaticModel.gamma - (idealGasConstantGamma2.adiabaticModel.gamma - 1.0) * $DER.idealGasConstantGamma2.adiabaticModel.gamma) / idealGasConstantGamma2.adiabaticModel.gamma ^ 2.0) + ((idealGasConstantGamma2.adiabaticModel.gamma - 1.0) / idealGasConstantGamma2.adiabaticModel.gamma) * (($DER.idealGasConstantGamma2.p_out * idealGasConstantGamma2.adiabaticModel.p_in - idealGasConstantGamma2.p_out * $DER.idealGasConstantGamma2.adiabaticModel.p_in) / idealGasConstantGamma2.adiabaticModel.p_in ^ 2.0))) ($RES_SIM_1150) (608|658) [SCAL] (1) $DER.source6.outlet.state.p = $DER.idealGasConstantGamma2.inlet.state.p ($RES_SIM_1151) (609|659) [SCAL] (1) $DER.perfetGas2.p_in = $DER.perfetGas2.inlet.state.p ($RES_SIM_1152) (610|660) [SCAL] (1) $DER.idealGasConstantGamma2.adiabaticModel.w_t = $DER.idealGasConstantGamma2.h_out - $DER.idealGasConstantGamma2.adiabaticModel.h_in ($RES_SIM_1153) (611|661) [SCAL] (1) $DER.perfetGas2.h_in = $fDER0.ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), perfetGas2.inlet.state.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0, $DER.perfetGas2.inlet.state.T, 0.0) ($RES_SIM_1154) (612|662) [SCAL] (1) $DER.perfetGas2.adiabaticModel.p_in = $DER.perfetGas2.adiabaticModel.state_in.p ($RES_SIM_1155) (613|663) [SCAL] (1) $DER.idealGasConstantGamma2.adiabaticModel.w_t_is = $DER.idealGasConstantGamma2.adiabaticModel.h_out_is - $DER.idealGasConstantGamma2.adiabaticModel.h_in ($RES_SIM_1156) (614|664) [SCAL] (1) $DER.perfetGas2.adiabaticModel.T_in = $DER.perfetGas2.adiabaticModel.state_in.T ($RES_SIM_1157) (615|665) [SCAL] (1) $DER.perfetGas2.adiabaticModel.gamma = (noEvent(if noEvent(perfetGas2.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * ($DER.perfetGas2.adiabaticModel.state_in.T * ((-626.411601) + perfetGas2.adiabaticModel.state_in.T * (5.30172524 + perfetGas2.adiabaticModel.state_in.T * (0.002503813816 + perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T))))) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * (5.30172524 + perfetGas2.adiabaticModel.state_in.T * (0.002503813816 + perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T)))) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * (0.002503813816 + perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T))) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T)) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T) + perfetGas2.adiabaticModel.state_in.T * (2.849677801e-13 * $DER.perfetGas2.adiabaticModel.state_in.T)))))) * (1/(perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T)) - 188.9244822140674 * (49436.5054 + perfetGas2.adiabaticModel.state_in.T * ((-626.411601) + perfetGas2.adiabaticModel.state_in.T * (5.30172524 + perfetGas2.adiabaticModel.state_in.T * (0.002503813816 + perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T)))))) * (($DER.perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T + perfetGas2.adiabaticModel.state_in.T * $DER.perfetGas2.adiabaticModel.state_in.T) / (perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T) ^ 2.0) else 188.9244822140674 * ($DER.perfetGas2.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas2.adiabaticModel.state_in.T * (8.29152319 + perfetGas2.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T))))) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * (8.29152319 + perfetGas2.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T)))) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T))) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T)) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T) + perfetGas2.adiabaticModel.state_in.T * (6.330036589999999e-16 * $DER.perfetGas2.adiabaticModel.state_in.T)))))) * (1/(perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T)) - 188.9244822140674 * (117696.2419 + perfetGas2.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas2.adiabaticModel.state_in.T * (8.29152319 + perfetGas2.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T)))))) * (($DER.perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T + perfetGas2.adiabaticModel.state_in.T * $DER.perfetGas2.adiabaticModel.state_in.T) / (perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T) ^ 2.0)) * ((-188.9244822140674) + smooth(0, if noEvent(perfetGas2.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + perfetGas2.adiabaticModel.state_in.T * ((-626.411601) + perfetGas2.adiabaticModel.state_in.T * (5.30172524 + perfetGas2.adiabaticModel.state_in.T * (0.002503813816 + perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T)))))) * (1/(perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + perfetGas2.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas2.adiabaticModel.state_in.T * (8.29152319 + perfetGas2.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T)))))) * (1/(perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T)))) - noEvent(if noEvent(perfetGas2.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * ($DER.perfetGas2.adiabaticModel.state_in.T * ((-626.411601) + perfetGas2.adiabaticModel.state_in.T * (5.30172524 + perfetGas2.adiabaticModel.state_in.T * (0.002503813816 + perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T))))) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * (5.30172524 + perfetGas2.adiabaticModel.state_in.T * (0.002503813816 + perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T)))) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * (0.002503813816 + perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T))) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T)) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T) + perfetGas2.adiabaticModel.state_in.T * (2.849677801e-13 * $DER.perfetGas2.adiabaticModel.state_in.T)))))) * (1/(perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T)) - 188.9244822140674 * (49436.5054 + perfetGas2.adiabaticModel.state_in.T * ((-626.411601) + perfetGas2.adiabaticModel.state_in.T * (5.30172524 + perfetGas2.adiabaticModel.state_in.T * (0.002503813816 + perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T)))))) * (($DER.perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T + perfetGas2.adiabaticModel.state_in.T * $DER.perfetGas2.adiabaticModel.state_in.T) / (perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T) ^ 2.0) else 188.9244822140674 * ($DER.perfetGas2.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas2.adiabaticModel.state_in.T * (8.29152319 + perfetGas2.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T))))) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * (8.29152319 + perfetGas2.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T)))) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T))) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T)) + perfetGas2.adiabaticModel.state_in.T * ($DER.perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T) + perfetGas2.adiabaticModel.state_in.T * (6.330036589999999e-16 * $DER.perfetGas2.adiabaticModel.state_in.T)))))) * (1/(perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T)) - 188.9244822140674 * (117696.2419 + perfetGas2.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas2.adiabaticModel.state_in.T * (8.29152319 + perfetGas2.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T)))))) * (($DER.perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T + perfetGas2.adiabaticModel.state_in.T * $DER.perfetGas2.adiabaticModel.state_in.T) / (perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T) ^ 2.0)) * smooth(0, if noEvent(perfetGas2.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + perfetGas2.adiabaticModel.state_in.T * ((-626.411601) + perfetGas2.adiabaticModel.state_in.T * (5.30172524 + perfetGas2.adiabaticModel.state_in.T * (0.002503813816 + perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T)))))) * (1/(perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + perfetGas2.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas2.adiabaticModel.state_in.T * (8.29152319 + perfetGas2.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T)))))) * (1/(perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T)))) / ((-188.9244822140674) + smooth(0, if noEvent(perfetGas2.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (49436.5054 + perfetGas2.adiabaticModel.state_in.T * ((-626.411601) + perfetGas2.adiabaticModel.state_in.T * (5.30172524 + perfetGas2.adiabaticModel.state_in.T * (0.002503813816 + perfetGas2.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas2.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas2.adiabaticModel.state_in.T)))))) * (1/(perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T)) else 188.9244822140674 * (117696.2419 + perfetGas2.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas2.adiabaticModel.state_in.T * (8.29152319 + perfetGas2.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas2.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas2.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas2.adiabaticModel.state_in.T)))))) * (1/(perfetGas2.adiabaticModel.state_in.T * perfetGas2.adiabaticModel.state_in.T)))) ^ 2.0 ($RES_SIM_1158) (616|666) [SCAL] (1) $DER.perfetGas2.h_out = $fDER0.ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), $FUN_43.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0, $DER.$FUN_43.T, 0.0) ($RES_SIM_1159) (617|667) [SCAL] (1) $DER.source1.outlet.state.T = $DER.idealGasConstantGamma.inlet.state.T ($RES_SIM_1160) (618|668) [SCAL] (1) $DER.$FUN_3.p = 0.0 ($RES_SIM_1161) (619|669) [SCAL] (1) $DER.perfetGas.adiabaticModel.cp = noEvent(if noEvent(perfetGas.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * ($DER.perfetGas.adiabaticModel.state_in.T * ((-626.411601) + perfetGas.adiabaticModel.state_in.T * (5.30172524 + perfetGas.adiabaticModel.state_in.T * (0.002503813816 + perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T))))) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * (5.30172524 + perfetGas.adiabaticModel.state_in.T * (0.002503813816 + perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T)))) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * (0.002503813816 + perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T))) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T)) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T) + perfetGas.adiabaticModel.state_in.T * (2.849677801e-13 * $DER.perfetGas.adiabaticModel.state_in.T)))))) * (1/(perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T)) - 188.9244822140674 * (49436.5054 + perfetGas.adiabaticModel.state_in.T * ((-626.411601) + perfetGas.adiabaticModel.state_in.T * (5.30172524 + perfetGas.adiabaticModel.state_in.T * (0.002503813816 + perfetGas.adiabaticModel.state_in.T * ((-2.127308728e-7) + perfetGas.adiabaticModel.state_in.T * ((-7.68998878e-10) + 2.849677801e-13 * perfetGas.adiabaticModel.state_in.T)))))) * (($DER.perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T + perfetGas.adiabaticModel.state_in.T * $DER.perfetGas.adiabaticModel.state_in.T) / (perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T) ^ 2.0) else 188.9244822140674 * ($DER.perfetGas.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas.adiabaticModel.state_in.T * (8.29152319 + perfetGas.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T))))) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * (8.29152319 + perfetGas.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T)))) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T))) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T)) + perfetGas.adiabaticModel.state_in.T * ($DER.perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T) + perfetGas.adiabaticModel.state_in.T * (6.330036589999999e-16 * $DER.perfetGas.adiabaticModel.state_in.T)))))) * (1/(perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T)) - 188.9244822140674 * (117696.2419 + perfetGas.adiabaticModel.state_in.T * ((-1788.791477) + perfetGas.adiabaticModel.state_in.T * (8.29152319 + perfetGas.adiabaticModel.state_in.T * ((-9.22315678e-5) + perfetGas.adiabaticModel.state_in.T * (4.86367688e-9 + perfetGas.adiabaticModel.state_in.T * ((-1.891053312e-12) + 6.330036589999999e-16 * perfetGas.adiabaticModel.state_in.T)))))) * (($DER.perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T + perfetGas.adiabaticModel.state_in.T * $DER.perfetGas.adiabaticModel.state_in.T) / (perfetGas.adiabaticModel.state_in.T * perfetGas.adiabaticModel.state_in.T) ^ 2.0)) ($RES_SIM_1162) (620|670) [RECD] (2) $DER.idealGasConstantGamma.adiabaticModel.state_in = $DER.idealGasConstantGamma.inlet.state ($RES_SIM_1163) (621|672) [SCAL] (1) $DER.source1.outlet.state.p = $DER.idealGasConstantGamma.inlet.state.p ($RES_SIM_1164) (622|673) [SCAL] (1) $DER.perfetGas2.adiabaticModel.T_out_is = $DER.perfetGas2.adiabaticModel.T_in * (perfetGas2.p_out / perfetGas2.adiabaticModel.p_in) ^ ((perfetGas2.adiabaticModel.gamma - 1.0) / perfetGas2.adiabaticModel.gamma) + perfetGas2.adiabaticModel.T_in * ((perfetGas2.p_out / perfetGas2.adiabaticModel.p_in) ^ ((-1.0) + (perfetGas2.adiabaticModel.gamma - 1.0) / perfetGas2.adiabaticModel.gamma) * ((perfetGas2.p_out / perfetGas2.adiabaticModel.p_in) * log(perfetGas2.p_out / perfetGas2.adiabaticModel.p_in) * (($DER.perfetGas2.adiabaticModel.gamma * perfetGas2.adiabaticModel.gamma - (perfetGas2.adiabaticModel.gamma - 1.0) * $DER.perfetGas2.adiabaticModel.gamma) / perfetGas2.adiabaticModel.gamma ^ 2.0) + ((perfetGas2.adiabaticModel.gamma - 1.0) / perfetGas2.adiabaticModel.gamma) * (($DER.perfetGas2.p_out * perfetGas2.adiabaticModel.p_in - perfetGas2.p_out * $DER.perfetGas2.adiabaticModel.p_in) / perfetGas2.adiabaticModel.p_in ^ 2.0))) ($RES_SIM_1165) (623|674) [SCAL] (1) $DER.idealGasConstantGamma1.P_in_internal = -gain1.k * $DER.idealGasConstantGamma.P_in_internal ($RES_SIM_1166) (624|675) [SCAL] (1) $DER.perfetGas2.adiabaticModel.w_t = $DER.perfetGas2.adiabaticModel.cp * (perfetGas2.adiabaticModel.T_out - perfetGas2.adiabaticModel.T_in) + perfetGas2.adiabaticModel.cp * ($DER.perfetGas2.adiabaticModel.T_out - $DER.perfetGas2.adiabaticModel.T_in) ($RES_SIM_1167) (625|676) [SCAL] (1) $DER.perfetGas2.adiabaticModel.w_t_is = $DER.perfetGas2.adiabaticModel.cp * (perfetGas2.adiabaticModel.T_out_is - perfetGas2.adiabaticModel.T_in) + perfetGas2.adiabaticModel.cp * ($DER.perfetGas2.adiabaticModel.T_out_is - $DER.perfetGas2.adiabaticModel.T_in) ($RES_SIM_1168) (626|677) [RECD] (2) $DER.source6.outlet.state = $DER.$FUN_23 ($RES_SIM_1169) (627|679) [SCAL] (1) $DER.perfetGas2.pRatio = ($DER.perfetGas.p_out * perfetGas.p_in - perfetGas.p_out * $DER.perfetGas.p_in) / perfetGas.p_in ^ 2.0 ($RES_SIM_1170) (628|680) [SCAL] (1) $DER.idealGasConstantGamma.p_in = $DER.idealGasConstantGamma.inlet.state.p ($RES_SIM_1171) (629|681) [SCAL] (1) $DER.perfetGas2.pRatio = ($DER.idealGasConstantGamma.p_out * idealGasConstantGamma.p_in - idealGasConstantGamma.p_out * $DER.idealGasConstantGamma.p_in) / idealGasConstantGamma.p_in ^ 2.0 ($RES_SIM_1172) (630|682) [SCAL] (1) $DER.idealGasConstantGamma2.m_flow = (($DER.idealGasConstantGamma2.dh * idealGasConstantGamma1.P_in_internal + idealGasConstantGamma2.dh * $DER.idealGasConstantGamma1.P_in_internal) * (4.930380657631324e-32 + idealGasConstantGamma2.dh ^ 2.0) - (2.0 * idealGasConstantGamma2.dh * $DER.idealGasConstantGamma2.dh) * idealGasConstantGamma2.dh * idealGasConstantGamma1.P_in_internal) / (4.930380657631324e-32 + idealGasConstantGamma2.dh ^ 2.0) ^ 2.0 ($RES_SIM_1173) (631|683) [SCAL] (1) $DER.idealGasConstantGamma.h_in = $fDER0.ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), idealGasConstantGamma.inlet.state.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0, $DER.idealGasConstantGamma.inlet.state.T, 0.0) ($RES_SIM_1174) (632|684) [SCAL] (1) $DER.idealGasConstantGamma.adiabaticModel.p_in = $DER.idealGasConstantGamma.adiabaticModel.state_in.p ($RES_SIM_1175) =================== Scalar Matching =================== variable to equation ********************** var 1 --> eqn 88 var 2 --> eqn 104 var 3 --> eqn 107 var 4 --> eqn 109 var 5 --> eqn 59 var 6 --> eqn -1 var 7 --> eqn 61 var 8 --> eqn 555 var 9 --> eqn 63 var 10 --> eqn 524 var 11 --> eqn 522 var 12 --> eqn 528 var 13 --> eqn 520 var 14 --> eqn 557 var 15 --> eqn 563 var 16 --> eqn 341 var 17 --> eqn 565 var 18 --> eqn 113 var 19 --> eqn 231 var 20 --> eqn 292 var 21 --> eqn 296 var 22 --> eqn 350 var 23 --> eqn 140 var 24 --> eqn 143 var 25 --> eqn 145 var 26 --> eqn 567 var 27 --> eqn 569 var 28 --> eqn 23 var 29 --> eqn 322 var 30 --> eqn 571 var 31 --> eqn 362 var 32 --> eqn 576 var 33 --> eqn 447 var 34 --> eqn 578 var 35 --> eqn 329 var 36 --> eqn 588 var 37 --> eqn 254 var 38 --> eqn 465 var 39 --> eqn 426 var 40 --> eqn 130 var 41 --> eqn 347 var 42 --> eqn 259 var 43 --> eqn 647 var 44 --> eqn 148 var 45 --> eqn 289 var 46 --> eqn 89 var 47 --> eqn 149 var 48 --> eqn 204 var 49 --> eqn 150 var 50 --> eqn 68 var 51 --> eqn 472 var 52 --> eqn 120 var 53 --> eqn 408 var 54 --> eqn -1 var 55 --> eqn 142 var 56 --> eqn 181 var 57 --> eqn 182 var 58 --> eqn 580 var 59 --> eqn 582 var 60 --> eqn 125 var 61 --> eqn 584 var 62 --> eqn 2 var 63 --> eqn 4 var 64 --> eqn 92 var 65 --> eqn 415 var 66 --> eqn 384 var 67 --> eqn 186 var 68 --> eqn 212 var 69 --> eqn 188 var 70 --> eqn 471 var 71 --> eqn 220 var 72 --> eqn 175 var 73 --> eqn 227 var 74 --> eqn 78 var 75 --> eqn 290 var 76 --> eqn -1 var 77 --> eqn 151 var 78 --> eqn 336 var 79 --> eqn 473 var 80 --> eqn 10 var 81 --> eqn 26 var 82 --> eqn 160 var 83 --> eqn 372 var 84 --> eqn 434 var 85 --> eqn 228 var 86 --> eqn 458 var 87 --> eqn 232 var 88 --> eqn 499 var 89 --> eqn 417 var 90 --> eqn 387 var 91 --> eqn 286 var 92 --> eqn 489 var 93 --> eqn 414 var 94 --> eqn 70 var 95 --> eqn 28 var 96 --> eqn 30 var 97 --> eqn 32 var 98 --> eqn 34 var 99 --> eqn 56 var 100 --> eqn 43 var 101 --> eqn 320 var 102 --> eqn 344 var 103 --> eqn 323 var 104 --> eqn 283 var 105 --> eqn 97 var 106 --> eqn 280 var 107 --> eqn 53 var 108 --> eqn 481 var 109 --> eqn 371 var 110 --> eqn 299 var 111 --> eqn 302 var 112 --> eqn 305 var 113 --> eqn 348 var 114 --> eqn 351 var 115 --> eqn 464 var 116 --> eqn 96 var 117 --> eqn 165 var 118 --> eqn 306 var 119 --> eqn 325 var 120 --> eqn 112 var 121 --> eqn 327 var 122 --> eqn 287 var 123 --> eqn 12 var 124 --> eqn 180 var 125 --> eqn 13 var 126 --> eqn 264 var 127 --> eqn 431 var 128 --> eqn 375 var 129 --> eqn 105 var 130 --> eqn 420 var 131 --> eqn 354 var 132 --> eqn 653 var 133 --> eqn 71 var 134 --> eqn 208 var 135 --> eqn 385 var 136 --> eqn 388 var 137 --> eqn 184 var 138 --> eqn 394 var 139 --> eqn 574 var 140 --> eqn 187 var 141 --> eqn 154 var 142 --> eqn 337 var 143 --> eqn -1 var 144 --> eqn 538 var 145 --> eqn 66 var 146 --> eqn 255 var 147 --> eqn 209 var 148 --> eqn 395 var 149 --> eqn 36 var 150 --> eqn 40 var 151 --> eqn 134 var 152 --> eqn 217 var 153 --> eqn 444 var 154 --> eqn 79 var 155 --> eqn 42 var 156 --> eqn 44 var 157 --> eqn 404 var 158 --> eqn 93 var 159 --> eqn 73 var 160 --> eqn 470 var 161 --> eqn 262 var 162 --> eqn 115 var 163 --> eqn 278 var 164 --> eqn 128 var 165 --> eqn 235 var 166 --> eqn 223 var 167 --> eqn 82 var 168 --> eqn 147 var 169 --> eqn 80 var 170 --> eqn 163 var 171 --> eqn 99 var 172 --> eqn 101 var 173 --> eqn 166 var 174 --> eqn 488 var 175 --> eqn 548 var 176 --> eqn 427 var 177 --> eqn 550 var 178 --> eqn 345 var 179 --> eqn 552 var 180 --> eqn 284 var 181 --> eqn 554 var 182 --> eqn 240 var 183 --> eqn 281 var 184 --> eqn 242 var 185 --> eqn 58 var 186 --> eqn -1 var 187 --> eqn 124 var 188 --> eqn 121 var 189 --> eqn 419 var 190 --> eqn 64 var 191 --> eqn 103 var 192 --> eqn 523 var 193 --> eqn 521 var 194 --> eqn 62 var 195 --> eqn 122 var 196 --> eqn 556 var 197 --> eqn 370 var 198 --> eqn 589 var 199 --> eqn 562 var 200 --> eqn 432 var 201 --> eqn 141 var 202 --> eqn 564 var 203 --> eqn 221 var 204 --> eqn 406 var 205 --> eqn 566 var 206 --> eqn 83 var 207 --> eqn 247 var 208 --> eqn 586 var 209 --> eqn 159 var 210 --> eqn 146 var 211 --> eqn 291 var 212 --> eqn 171 var 213 --> eqn 38 var 214 --> eqn 172 var 215 --> eqn 349 var 216 --> eqn 407 var 217 --> eqn 174 var 218 --> eqn 353 var 219 --> eqn 90 var 220 --> eqn -1 var 221 --> eqn 139 var 222 --> eqn 304 var 223 --> eqn 309 var 224 --> eqn 568 var 225 --> eqn 570 var 226 --> eqn 167 var 227 --> eqn 74 var 228 --> eqn 169 var 229 --> eqn 170 var 230 --> eqn 575 var 231 --> eqn 199 var 232 --> eqn 577 var 233 --> eqn 579 var 234 --> eqn 502 var 235 --> eqn 176 var 236 --> eqn 400 var 237 --> eqn 270 var 238 --> eqn 559 var 239 --> eqn 210 var 240 --> eqn 285 var 241 --> eqn 413 var 242 --> eqn 226 var 243 --> eqn 581 var 244 --> eqn 583 var 245 --> eqn 1 var 246 --> eqn -1 var 247 --> eqn 3 var 248 --> eqn 260 var 249 --> eqn 5 var 250 --> eqn -1 var 251 --> eqn 376 var 252 --> eqn 540 var 253 --> eqn 183 var 254 --> eqn 156 var 255 --> eqn 225 var 256 --> eqn 466 var 257 --> eqn 410 var 258 --> eqn 359 var 259 --> eqn 60 var 260 --> eqn -1 var 261 --> eqn 272 var 262 --> eqn 383 var 263 --> eqn 108 var 264 --> eqn 243 var 265 --> eqn 203 var 266 --> eqn 423 var 267 --> eqn 442 var 268 --> eqn 7 var 269 --> eqn 455 var 270 --> eqn 491 var 271 --> eqn 493 var 272 --> eqn 547 var 273 --> eqn 508 var 274 --> eqn 153 var 275 --> eqn 433 var 276 --> eqn 510 var 277 --> eqn 312 var 278 --> eqn 366 var 279 --> eqn 9 var 280 --> eqn 474 var 281 --> eqn 17 var 282 --> eqn 25 var 283 --> eqn 516 var 284 --> eqn 483 var 285 --> eqn 27 var 286 --> eqn 276 var 287 --> eqn 318 var 288 --> eqn 324 var 289 --> eqn 572 var 290 --> eqn 248 var 291 --> eqn 425 var 292 --> eqn 29 var 293 --> eqn 31 var 294 --> eqn 33 var 295 --> eqn 55 var 296 --> eqn 57 var 297 --> eqn 517 var 298 --> eqn 54 var 299 --> eqn 331 var 300 --> eqn 132 var 301 --> eqn 365 var 302 --> eqn -1 var 303 --> eqn -1 var 304 --> eqn 416 var 305 --> eqn 158 var 306 --> eqn 475 var 307 --> eqn 111 var 308 --> eqn 282 var 309 --> eqn 179 var 310 --> eqn 393 var 311 --> eqn 215 var 312 --> eqn 462 var 313 --> eqn 360 var 314 --> eqn 177 var 315 --> eqn 368 var 316 --> eqn 541 var 317 --> eqn 357 var 318 --> eqn 95 var 319 --> eqn 205 var 320 --> eqn 585 var 321 --> eqn 250 var 322 --> eqn 246 var 323 --> eqn 330 var 324 --> eqn 405 var 325 --> eqn -1 var 326 --> eqn 244 var 327 --> eqn 198 var 328 --> eqn 116 var 329 --> eqn 161 var 330 --> eqn 529 var 331 --> eqn 84 var 332 --> eqn 224 var 333 --> eqn 144 var 334 --> eqn 478 var 335 --> eqn 178 var 336 --> eqn 279 var 337 --> eqn 110 var 338 --> eqn 77 var 339 --> eqn 190 var 340 --> eqn 133 var 341 --> eqn 343 var 342 --> eqn 258 var 343 --> eqn 214 var 344 --> eqn 498 var 345 --> eqn 249 var 346 --> eqn 587 var 347 --> eqn 168 var 348 --> eqn 234 var 349 --> eqn 87 var 350 --> eqn 11 var 351 --> eqn 257 var 352 --> eqn 127 var 353 --> eqn 430 var 354 --> eqn 251 var 355 --> eqn 155 var 356 --> eqn 411 var 357 --> eqn 530 var 358 --> eqn 451 var 359 --> eqn 461 var 360 --> eqn 216 var 361 --> eqn 391 var 362 --> eqn 409 var 363 --> eqn 450 var 364 --> eqn 315 var 365 --> eqn 41 var 366 --> eqn 412 var 367 --> eqn 379 var 368 --> eqn 20 var 369 --> eqn 313 var 370 --> eqn 573 var 371 --> eqn 65 var 372 --> eqn 162 var 373 --> eqn 106 var 374 --> eqn 495 var 375 --> eqn 268 var 376 --> eqn 328 var 377 --> eqn 267 var 378 --> eqn 76 var 379 --> eqn 72 var 380 --> eqn 531 var 381 --> eqn 469 var 382 --> eqn 261 var 383 --> eqn 377 var 384 --> eqn 310 var 385 --> eqn 346 var 386 --> eqn 266 var 387 --> eqn 19 var 388 --> eqn 157 var 389 --> eqn 303 var 390 --> eqn 288 var 391 --> eqn 263 var 392 --> eqn 352 var 393 --> eqn 356 var 394 --> eqn 342 var 395 --> eqn 335 var 396 --> eqn 525 var 397 --> eqn 114 var 398 --> eqn 326 var 399 --> eqn 213 var 400 --> eqn 173 var 401 --> eqn 533 var 402 --> eqn 506 var 403 --> eqn 273 var 404 --> eqn 16 var 405 --> eqn -1 var 406 --> eqn 421 var 407 --> eqn 222 var 408 --> eqn 69 var 409 --> eqn 505 var 410 --> eqn 18 var 411 --> eqn 418 var 412 --> eqn 75 var 413 --> eqn 316 var 414 --> eqn 24 var 415 --> eqn 382 var 416 --> eqn 202 var 417 --> eqn 135 var 418 --> eqn 118 var 419 --> eqn 211 var 420 --> eqn 256 var 421 --> eqn 358 var 422 --> eqn 340 var 423 --> eqn 536 var 424 --> eqn 545 var 425 --> eqn 311 var 426 --> eqn 152 var 427 --> eqn 546 var 428 --> eqn 435 var 429 --> eqn 527 var 430 --> eqn 535 var 431 --> eqn 126 var 432 --> eqn 496 var 433 --> eqn 367 var 434 --> eqn 14 var 435 --> eqn 518 var 436 --> eqn 47 var 437 --> eqn 51 var 438 --> eqn 440 var 439 --> eqn 317 var 440 --> eqn 94 var 441 --> eqn 503 var 442 --> eqn 131 var 443 --> eqn 355 var 444 --> eqn 265 var 445 --> eqn 319 var 446 --> eqn 334 var 447 --> eqn 487 var 448 --> eqn 98 var 449 --> eqn 295 var 450 --> eqn 486 var 451 --> eqn 532 var 452 --> eqn 129 var 453 --> eqn 497 var 454 --> eqn 321 var 455 --> eqn 369 var 456 --> eqn 37 var 457 --> eqn 389 var 458 --> eqn 543 var 459 --> eqn 482 var 460 --> eqn 396 var 461 --> eqn 189 var 462 --> eqn 480 var 463 --> eqn 191 var 464 --> eqn 192 var 465 --> eqn 398 var 466 --> eqn 193 var 467 --> eqn 194 var 468 --> eqn 195 var 469 --> eqn 197 var 470 --> eqn 229 var 471 --> eqn 397 var 472 --> eqn 233 var 473 --> eqn 196 var 474 --> eqn 238 var 475 --> eqn 544 var 476 --> eqn 443 var 477 --> eqn 485 var 478 --> eqn 424 var 479 --> eqn 245 var 480 --> eqn 561 var 481 --> eqn 15 var 482 --> eqn 67 var 483 --> eqn 52 var 484 --> eqn 401 var 485 --> eqn 241 var 486 --> eqn 560 var 487 --> eqn 448 var 488 --> eqn 8 var 489 --> eqn 35 var 490 --> eqn 363 var 491 --> eqn 558 var 492 --> eqn 275 var 493 --> eqn 399 var 494 --> eqn 422 var 495 --> eqn 441 var 496 --> eqn 454 var 497 --> eqn 39 var 498 --> eqn 490 var 499 --> eqn 6 var 500 --> eqn 492 var 501 --> eqn 449 var 502 --> eqn 507 var 503 --> eqn 123 var 504 --> eqn 537 var 505 --> eqn 86 var 506 --> eqn 333 var 507 --> eqn 509 var 508 --> eqn 239 var 509 --> eqn 253 var 510 --> eqn 463 var 511 --> eqn 138 var 512 --> eqn 164 var 513 --> eqn 207 var 514 --> eqn 515 var 515 --> eqn 218 var 516 --> eqn 439 var 517 --> eqn 81 var 518 --> eqn 512 var 519 --> eqn 300 var 520 --> eqn 514 var 521 --> eqn 436 var 522 --> eqn 277 var 523 --> eqn 136 var 524 --> eqn 445 var 525 --> eqn 460 var 526 --> eqn 428 var 527 --> eqn 504 var 528 --> eqn 467 var 529 --> eqn 500 var 530 --> eqn 301 var 531 --> eqn 373 var 532 --> eqn 477 var 533 --> eqn 390 var 534 --> eqn 392 var 535 --> eqn 526 var 536 --> eqn 446 var 537 --> eqn 45 var 538 --> eqn 21 var 539 --> eqn 513 var 540 --> eqn 511 var 541 --> eqn 437 var 542 --> eqn 274 var 543 --> eqn 484 var 544 --> eqn 91 var 545 --> eqn 102 var 546 --> eqn 119 var 547 --> eqn 386 var 548 --> eqn 479 var 549 --> eqn 46 var 550 --> eqn 48 var 551 --> eqn 49 var 552 --> eqn 378 var 553 --> eqn 117 var 554 --> eqn 50 var 555 --> eqn 364 var 556 --> eqn 269 var 557 --> eqn 137 var 558 --> eqn 459 var 559 --> eqn 429 var 560 --> eqn 494 var 561 --> eqn 468 var 562 --> eqn 501 var 563 --> eqn 219 var 564 --> eqn 374 var 565 --> eqn 534 var 566 --> eqn 381 var 567 --> eqn 476 var 568 --> eqn 271 var 569 --> eqn 519 var 570 --> eqn 230 var 571 --> eqn 314 var 572 --> eqn 22 var 573 --> eqn 380 var 574 --> eqn -1 var 575 --> eqn 332 var 576 --> eqn 361 var 577 --> eqn 252 var 578 --> eqn 185 var 579 --> eqn 452 var 580 --> eqn 206 var 581 --> eqn 542 var 582 --> eqn 85 var 583 --> eqn 438 var 584 --> eqn 539 var 585 --> eqn 549 var 586 --> eqn 551 var 587 --> eqn 553 var 588 --> eqn 453 var 589 --> eqn 100 var 590 --> eqn 590 var 591 --> eqn 594 var 592 --> eqn 595 var 593 --> eqn 598 var 594 --> eqn 599 var 595 --> eqn 603 var 596 --> eqn 609 var 597 --> eqn -1 var 598 --> eqn -1 var 599 --> eqn 610 var 600 --> eqn 611 var 601 --> eqn 612 var 602 --> eqn -1 var 603 --> eqn 614 var 604 --> eqn 615 var 605 --> eqn 616 var 606 --> eqn -1 var 607 --> eqn -1 var 608 --> eqn 617 var 609 --> eqn 618 var 610 --> eqn -1 var 611 --> eqn -1 var 612 --> eqn 619 var 613 --> eqn 620 var 614 --> eqn 602 var 615 --> eqn 622 var 616 --> eqn -1 var 617 --> eqn 596 var 618 --> eqn 605 var 619 --> eqn 624 var 620 --> eqn 625 var 621 --> eqn -1 var 622 --> eqn -1 var 623 --> eqn 627 var 624 --> eqn 628 var 625 --> eqn 607 var 626 --> eqn -1 var 627 --> eqn 629 var 628 --> eqn 633 var 629 --> eqn 634 var 630 --> eqn 636 var 631 --> eqn -1 var 632 --> eqn 639 var 633 --> eqn 591 var 634 --> eqn 640 var 635 --> eqn -1 var 636 --> eqn -1 var 637 --> eqn 641 var 638 --> eqn 642 var 639 --> eqn 613 var 640 --> eqn 643 var 641 --> eqn 644 var 642 --> eqn 631 var 643 --> eqn 645 var 644 --> eqn 604 var 645 --> eqn -1 var 646 --> eqn 649 var 647 --> eqn 650 var 648 --> eqn -1 var 649 --> eqn -1 var 650 --> eqn 651 var 651 --> eqn 630 var 652 --> eqn 652 var 653 --> eqn -1 var 654 --> eqn 593 var 655 --> eqn 623 var 656 --> eqn 638 var 657 --> eqn 655 var 658 --> eqn -1 var 659 --> eqn 656 var 660 --> eqn 608 var 661 --> eqn 657 var 662 --> eqn 600 var 663 --> eqn -1 var 664 --> eqn 597 var 665 --> eqn -1 var 666 --> eqn 658 var 667 --> eqn 659 var 668 --> eqn 635 var 669 --> eqn 660 var 670 --> eqn -1 var 671 --> eqn 661 var 672 --> eqn 637 var 673 --> eqn 662 var 674 --> eqn -1 var 675 --> eqn 663 var 676 --> eqn 626 var 677 --> eqn 601 var 678 --> eqn 666 var 679 --> eqn -1 var 680 --> eqn 667 var 681 --> eqn 668 var 682 --> eqn 654 var 683 --> eqn 669 var 684 --> eqn -1 var 685 --> eqn -1 var 686 --> eqn 670 var 687 --> eqn 671 var 688 --> eqn -1 var 689 --> eqn 665 var 690 --> eqn -1 var 691 --> eqn -1 var 692 --> eqn 674 var 693 --> eqn 606 var 694 --> eqn 675 var 695 --> eqn 664 var 696 --> eqn 673 var 697 --> eqn 676 var 698 --> eqn 646 var 699 --> eqn 677 var 700 --> eqn 678 var 701 --> eqn -1 var 702 --> eqn -1 var 703 --> eqn 648 var 704 --> eqn 679 var 705 --> eqn 672 var 706 --> eqn 680 var 707 --> eqn 681 var 708 --> eqn 632 var 709 --> eqn 682 var 710 --> eqn 621 var 711 --> eqn 683 var 712 --> eqn 592 var 713 --> eqn 684 var 714 --> eqn -1 var 715 --> eqn -1 var 716 --> eqn -1 equation to variable ********************** eqn 1 --> var 245 eqn 2 --> var 62 eqn 3 --> var 247 eqn 4 --> var 63 eqn 5 --> var 249 eqn 6 --> var 499 eqn 7 --> var 268 eqn 8 --> var 488 eqn 9 --> var 279 eqn 10 --> var 80 eqn 11 --> var 350 eqn 12 --> var 123 eqn 13 --> var 125 eqn 14 --> var 434 eqn 15 --> var 481 eqn 16 --> var 404 eqn 17 --> var 281 eqn 18 --> var 410 eqn 19 --> var 387 eqn 20 --> var 368 eqn 21 --> var 538 eqn 22 --> var 572 eqn 23 --> var 28 eqn 24 --> var 414 eqn 25 --> var 282 eqn 26 --> var 81 eqn 27 --> var 285 eqn 28 --> var 95 eqn 29 --> var 292 eqn 30 --> var 96 eqn 31 --> var 293 eqn 32 --> var 97 eqn 33 --> var 294 eqn 34 --> var 98 eqn 35 --> var 489 eqn 36 --> var 149 eqn 37 --> var 456 eqn 38 --> var 213 eqn 39 --> var 497 eqn 40 --> var 150 eqn 41 --> var 365 eqn 42 --> var 155 eqn 43 --> var 100 eqn 44 --> var 156 eqn 45 --> var 537 eqn 46 --> var 549 eqn 47 --> var 436 eqn 48 --> var 550 eqn 49 --> var 551 eqn 50 --> var 554 eqn 51 --> var 437 eqn 52 --> var 483 eqn 53 --> var 107 eqn 54 --> var 298 eqn 55 --> var 295 eqn 56 --> var 99 eqn 57 --> var 296 eqn 58 --> var 185 eqn 59 --> var 5 eqn 60 --> var 259 eqn 61 --> var 7 eqn 62 --> var 194 eqn 63 --> var 9 eqn 64 --> var 190 eqn 65 --> var 371 eqn 66 --> var 145 eqn 67 --> var 482 eqn 68 --> var 50 eqn 69 --> var 408 eqn 70 --> var 94 eqn 71 --> var 133 eqn 72 --> var 379 eqn 73 --> var 159 eqn 74 --> var 227 eqn 75 --> var 412 eqn 76 --> var 378 eqn 77 --> var 338 eqn 78 --> var 74 eqn 79 --> var 154 eqn 80 --> var 169 eqn 81 --> var 517 eqn 82 --> var 167 eqn 83 --> var 206 eqn 84 --> var 331 eqn 85 --> var 582 eqn 86 --> var 505 eqn 87 --> var 349 eqn 88 --> var 1 eqn 89 --> var 46 eqn 90 --> var 219 eqn 91 --> var 544 eqn 92 --> var 64 eqn 93 --> var 158 eqn 94 --> var 440 eqn 95 --> var 318 eqn 96 --> var 116 eqn 97 --> var 105 eqn 98 --> var 448 eqn 99 --> var 171 eqn 100 --> var 589 eqn 101 --> var 172 eqn 102 --> var 545 eqn 103 --> var 191 eqn 104 --> var 2 eqn 105 --> var 129 eqn 106 --> var 373 eqn 107 --> var 3 eqn 108 --> var 263 eqn 109 --> var 4 eqn 110 --> var 337 eqn 111 --> var 307 eqn 112 --> var 120 eqn 113 --> var 18 eqn 114 --> var 397 eqn 115 --> var 162 eqn 116 --> var 328 eqn 117 --> var 553 eqn 118 --> var 418 eqn 119 --> var 546 eqn 120 --> var 52 eqn 121 --> var 188 eqn 122 --> var 195 eqn 123 --> var 503 eqn 124 --> var 187 eqn 125 --> var 60 eqn 126 --> var 431 eqn 127 --> var 352 eqn 128 --> var 164 eqn 129 --> var 452 eqn 130 --> var 40 eqn 131 --> var 442 eqn 132 --> var 300 eqn 133 --> var 340 eqn 134 --> var 151 eqn 135 --> var 417 eqn 136 --> var 523 eqn 137 --> var 557 eqn 138 --> var 511 eqn 139 --> var 221 eqn 140 --> var 23 eqn 141 --> var 201 eqn 142 --> var 55 eqn 143 --> var 24 eqn 144 --> var 333 eqn 145 --> var 25 eqn 146 --> var 210 eqn 147 --> var 168 eqn 148 --> var 44 eqn 149 --> var 47 eqn 150 --> var 49 eqn 151 --> var 77 eqn 152 --> var 426 eqn 153 --> var 274 eqn 154 --> var 141 eqn 155 --> var 355 eqn 156 --> var 254 eqn 157 --> var 388 eqn 158 --> var 305 eqn 159 --> var 209 eqn 160 --> var 82 eqn 161 --> var 329 eqn 162 --> var 372 eqn 163 --> var 170 eqn 164 --> var 512 eqn 165 --> var 117 eqn 166 --> var 173 eqn 167 --> var 226 eqn 168 --> var 347 eqn 169 --> var 228 eqn 170 --> var 229 eqn 171 --> var 212 eqn 172 --> var 214 eqn 173 --> var 400 eqn 174 --> var 217 eqn 175 --> var 72 eqn 176 --> var 235 eqn 177 --> var 314 eqn 178 --> var 335 eqn 179 --> var 309 eqn 180 --> var 124 eqn 181 --> var 56 eqn 182 --> var 57 eqn 183 --> var 253 eqn 184 --> var 137 eqn 185 --> var 578 eqn 186 --> var 67 eqn 187 --> var 140 eqn 188 --> var 69 eqn 189 --> var 461 eqn 190 --> var 339 eqn 191 --> var 463 eqn 192 --> var 464 eqn 193 --> var 466 eqn 194 --> var 467 eqn 195 --> var 468 eqn 196 --> var 473 eqn 197 --> var 469 eqn 198 --> var 327 eqn 199 --> var 231 eqn 200 --> var -1 eqn 201 --> var -1 eqn 202 --> var 416 eqn 203 --> var 265 eqn 204 --> var 48 eqn 205 --> var 319 eqn 206 --> var 580 eqn 207 --> var 513 eqn 208 --> var 134 eqn 209 --> var 147 eqn 210 --> var 239 eqn 211 --> var 419 eqn 212 --> var 68 eqn 213 --> var 399 eqn 214 --> var 343 eqn 215 --> var 311 eqn 216 --> var 360 eqn 217 --> var 152 eqn 218 --> var 515 eqn 219 --> var 563 eqn 220 --> var 71 eqn 221 --> var 203 eqn 222 --> var 407 eqn 223 --> var 166 eqn 224 --> var 332 eqn 225 --> var 255 eqn 226 --> var 242 eqn 227 --> var 73 eqn 228 --> var 85 eqn 229 --> var 470 eqn 230 --> var 570 eqn 231 --> var 19 eqn 232 --> var 87 eqn 233 --> var 472 eqn 234 --> var 348 eqn 235 --> var 165 eqn 236 --> var -1 eqn 237 --> var -1 eqn 238 --> var 474 eqn 239 --> var 508 eqn 240 --> var 182 eqn 241 --> var 485 eqn 242 --> var 184 eqn 243 --> var 264 eqn 244 --> var 326 eqn 245 --> var 479 eqn 246 --> var 322 eqn 247 --> var 207 eqn 248 --> var 290 eqn 249 --> var 345 eqn 250 --> var 321 eqn 251 --> var 354 eqn 252 --> var 577 eqn 253 --> var 509 eqn 254 --> var 37 eqn 255 --> var 146 eqn 256 --> var 420 eqn 257 --> var 351 eqn 258 --> var 342 eqn 259 --> var 42 eqn 260 --> var 248 eqn 261 --> var 382 eqn 262 --> var 161 eqn 263 --> var 391 eqn 264 --> var 126 eqn 265 --> var 444 eqn 266 --> var 386 eqn 267 --> var 377 eqn 268 --> var 375 eqn 269 --> var 556 eqn 270 --> var 237 eqn 271 --> var 568 eqn 272 --> var 261 eqn 273 --> var 403 eqn 274 --> var 542 eqn 275 --> var 492 eqn 276 --> var 286 eqn 277 --> var 522 eqn 278 --> var 163 eqn 279 --> var 336 eqn 280 --> var 106 eqn 281 --> var 183 eqn 282 --> var 308 eqn 283 --> var 104 eqn 284 --> var 180 eqn 285 --> var 240 eqn 286 --> var 91 eqn 287 --> var 122 eqn 288 --> var 390 eqn 289 --> var 45 eqn 290 --> var 75 eqn 291 --> var 211 eqn 292 --> var 20 eqn 293 --> var -1 eqn 294 --> var -1 eqn 295 --> var 449 eqn 296 --> var 21 eqn 297 --> var -1 eqn 298 --> var -1 eqn 299 --> var 110 eqn 300 --> var 519 eqn 301 --> var 530 eqn 302 --> var 111 eqn 303 --> var 389 eqn 304 --> var 222 eqn 305 --> var 112 eqn 306 --> var 118 eqn 307 --> var -1 eqn 308 --> var -1 eqn 309 --> var 223 eqn 310 --> var 384 eqn 311 --> var 425 eqn 312 --> var 277 eqn 313 --> var 369 eqn 314 --> var 571 eqn 315 --> var 364 eqn 316 --> var 413 eqn 317 --> var 439 eqn 318 --> var 287 eqn 319 --> var 445 eqn 320 --> var 101 eqn 321 --> var 454 eqn 322 --> var 29 eqn 323 --> var 103 eqn 324 --> var 288 eqn 325 --> var 119 eqn 326 --> var 398 eqn 327 --> var 121 eqn 328 --> var 376 eqn 329 --> var 35 eqn 330 --> var 323 eqn 331 --> var 299 eqn 332 --> var 575 eqn 333 --> var 506 eqn 334 --> var 446 eqn 335 --> var 395 eqn 336 --> var 78 eqn 337 --> var 142 eqn 338 --> var -1 eqn 339 --> var -1 eqn 340 --> var 422 eqn 341 --> var 16 eqn 342 --> var 394 eqn 343 --> var 341 eqn 344 --> var 102 eqn 345 --> var 178 eqn 346 --> var 385 eqn 347 --> var 41 eqn 348 --> var 113 eqn 349 --> var 215 eqn 350 --> var 22 eqn 351 --> var 114 eqn 352 --> var 392 eqn 353 --> var 218 eqn 354 --> var 131 eqn 355 --> var 443 eqn 356 --> var 393 eqn 357 --> var 317 eqn 358 --> var 421 eqn 359 --> var 258 eqn 360 --> var 313 eqn 361 --> var 576 eqn 362 --> var 31 eqn 363 --> var 490 eqn 364 --> var 555 eqn 365 --> var 301 eqn 366 --> var 278 eqn 367 --> var 433 eqn 368 --> var 315 eqn 369 --> var 455 eqn 370 --> var 197 eqn 371 --> var 109 eqn 372 --> var 83 eqn 373 --> var 531 eqn 374 --> var 564 eqn 375 --> var 128 eqn 376 --> var 251 eqn 377 --> var 383 eqn 378 --> var 552 eqn 379 --> var 367 eqn 380 --> var 573 eqn 381 --> var 566 eqn 382 --> var 415 eqn 383 --> var 262 eqn 384 --> var 66 eqn 385 --> var 135 eqn 386 --> var 547 eqn 387 --> var 90 eqn 388 --> var 136 eqn 389 --> var 457 eqn 390 --> var 533 eqn 391 --> var 361 eqn 392 --> var 534 eqn 393 --> var 310 eqn 394 --> var 138 eqn 395 --> var 148 eqn 396 --> var 460 eqn 397 --> var 471 eqn 398 --> var 465 eqn 399 --> var 493 eqn 400 --> var 236 eqn 401 --> var 484 eqn 402 --> var -1 eqn 403 --> var -1 eqn 404 --> var 157 eqn 405 --> var 324 eqn 406 --> var 204 eqn 407 --> var 216 eqn 408 --> var 53 eqn 409 --> var 362 eqn 410 --> var 257 eqn 411 --> var 356 eqn 412 --> var 366 eqn 413 --> var 241 eqn 414 --> var 93 eqn 415 --> var 65 eqn 416 --> var 304 eqn 417 --> var 89 eqn 418 --> var 411 eqn 419 --> var 189 eqn 420 --> var 130 eqn 421 --> var 406 eqn 422 --> var 494 eqn 423 --> var 266 eqn 424 --> var 478 eqn 425 --> var 291 eqn 426 --> var 39 eqn 427 --> var 176 eqn 428 --> var 526 eqn 429 --> var 559 eqn 430 --> var 353 eqn 431 --> var 127 eqn 432 --> var 200 eqn 433 --> var 275 eqn 434 --> var 84 eqn 435 --> var 428 eqn 436 --> var 521 eqn 437 --> var 541 eqn 438 --> var 583 eqn 439 --> var 516 eqn 440 --> var 438 eqn 441 --> var 495 eqn 442 --> var 267 eqn 443 --> var 476 eqn 444 --> var 153 eqn 445 --> var 524 eqn 446 --> var 536 eqn 447 --> var 33 eqn 448 --> var 487 eqn 449 --> var 501 eqn 450 --> var 363 eqn 451 --> var 358 eqn 452 --> var 579 eqn 453 --> var 588 eqn 454 --> var 496 eqn 455 --> var 269 eqn 456 --> var -1 eqn 457 --> var -1 eqn 458 --> var 86 eqn 459 --> var 558 eqn 460 --> var 525 eqn 461 --> var 359 eqn 462 --> var 312 eqn 463 --> var 510 eqn 464 --> var 115 eqn 465 --> var 38 eqn 466 --> var 256 eqn 467 --> var 528 eqn 468 --> var 561 eqn 469 --> var 381 eqn 470 --> var 160 eqn 471 --> var 70 eqn 472 --> var 51 eqn 473 --> var 79 eqn 474 --> var 280 eqn 475 --> var 306 eqn 476 --> var 567 eqn 477 --> var 532 eqn 478 --> var 334 eqn 479 --> var 548 eqn 480 --> var 462 eqn 481 --> var 108 eqn 482 --> var 459 eqn 483 --> var 284 eqn 484 --> var 543 eqn 485 --> var 477 eqn 486 --> var 450 eqn 487 --> var 447 eqn 488 --> var 174 eqn 489 --> var 92 eqn 490 --> var 498 eqn 491 --> var 270 eqn 492 --> var 500 eqn 493 --> var 271 eqn 494 --> var 560 eqn 495 --> var 374 eqn 496 --> var 432 eqn 497 --> var 453 eqn 498 --> var 344 eqn 499 --> var 88 eqn 500 --> var 529 eqn 501 --> var 562 eqn 502 --> var 234 eqn 503 --> var 441 eqn 504 --> var 527 eqn 505 --> var 409 eqn 506 --> var 402 eqn 507 --> var 502 eqn 508 --> var 273 eqn 509 --> var 507 eqn 510 --> var 276 eqn 511 --> var 540 eqn 512 --> var 518 eqn 513 --> var 539 eqn 514 --> var 520 eqn 515 --> var 514 eqn 516 --> var 283 eqn 517 --> var 297 eqn 518 --> var 435 eqn 519 --> var 569 eqn 520 --> var 13 eqn 521 --> var 193 eqn 522 --> var 11 eqn 523 --> var 192 eqn 524 --> var 10 eqn 525 --> var 396 eqn 526 --> var 535 eqn 527 --> var 429 eqn 528 --> var 12 eqn 529 --> var 330 eqn 530 --> var 357 eqn 531 --> var 380 eqn 532 --> var 451 eqn 533 --> var 401 eqn 534 --> var 565 eqn 535 --> var 430 eqn 536 --> var 423 eqn 537 --> var 504 eqn 538 --> var 144 eqn 539 --> var 584 eqn 540 --> var 252 eqn 541 --> var 316 eqn 542 --> var 581 eqn 543 --> var 458 eqn 544 --> var 475 eqn 545 --> var 424 eqn 546 --> var 427 eqn 547 --> var 272 eqn 548 --> var 175 eqn 549 --> var 585 eqn 550 --> var 177 eqn 551 --> var 586 eqn 552 --> var 179 eqn 553 --> var 587 eqn 554 --> var 181 eqn 555 --> var 8 eqn 556 --> var 196 eqn 557 --> var 14 eqn 558 --> var 491 eqn 559 --> var 238 eqn 560 --> var 486 eqn 561 --> var 480 eqn 562 --> var 199 eqn 563 --> var 15 eqn 564 --> var 202 eqn 565 --> var 17 eqn 566 --> var 205 eqn 567 --> var 26 eqn 568 --> var 224 eqn 569 --> var 27 eqn 570 --> var 225 eqn 571 --> var 30 eqn 572 --> var 289 eqn 573 --> var 370 eqn 574 --> var 139 eqn 575 --> var 230 eqn 576 --> var 32 eqn 577 --> var 232 eqn 578 --> var 34 eqn 579 --> var 233 eqn 580 --> var 58 eqn 581 --> var 243 eqn 582 --> var 59 eqn 583 --> var 244 eqn 584 --> var 61 eqn 585 --> var 320 eqn 586 --> var 208 eqn 587 --> var 346 eqn 588 --> var 36 eqn 589 --> var 198 eqn 590 --> var 590 eqn 591 --> var 633 eqn 592 --> var 712 eqn 593 --> var 654 eqn 594 --> var 591 eqn 595 --> var 592 eqn 596 --> var 617 eqn 597 --> var 664 eqn 598 --> var 593 eqn 599 --> var 594 eqn 600 --> var 662 eqn 601 --> var 677 eqn 602 --> var 614 eqn 603 --> var 595 eqn 604 --> var 644 eqn 605 --> var 618 eqn 606 --> var 693 eqn 607 --> var 625 eqn 608 --> var 660 eqn 609 --> var 596 eqn 610 --> var 599 eqn 611 --> var 600 eqn 612 --> var 601 eqn 613 --> var 639 eqn 614 --> var 603 eqn 615 --> var 604 eqn 616 --> var 605 eqn 617 --> var 608 eqn 618 --> var 609 eqn 619 --> var 612 eqn 620 --> var 613 eqn 621 --> var 710 eqn 622 --> var 615 eqn 623 --> var 655 eqn 624 --> var 619 eqn 625 --> var 620 eqn 626 --> var 676 eqn 627 --> var 623 eqn 628 --> var 624 eqn 629 --> var 627 eqn 630 --> var 651 eqn 631 --> var 642 eqn 632 --> var 708 eqn 633 --> var 628 eqn 634 --> var 629 eqn 635 --> var 668 eqn 636 --> var 630 eqn 637 --> var 672 eqn 638 --> var 656 eqn 639 --> var 632 eqn 640 --> var 634 eqn 641 --> var 637 eqn 642 --> var 638 eqn 643 --> var 640 eqn 644 --> var 641 eqn 645 --> var 643 eqn 646 --> var 698 eqn 647 --> var 43 eqn 648 --> var 703 eqn 649 --> var 646 eqn 650 --> var 647 eqn 651 --> var 650 eqn 652 --> var 652 eqn 653 --> var 132 eqn 654 --> var 682 eqn 655 --> var 657 eqn 656 --> var 659 eqn 657 --> var 661 eqn 658 --> var 666 eqn 659 --> var 667 eqn 660 --> var 669 eqn 661 --> var 671 eqn 662 --> var 673 eqn 663 --> var 675 eqn 664 --> var 695 eqn 665 --> var 689 eqn 666 --> var 678 eqn 667 --> var 680 eqn 668 --> var 681 eqn 669 --> var 683 eqn 670 --> var 686 eqn 671 --> var 687 eqn 672 --> var 705 eqn 673 --> var 696 eqn 674 --> var 692 eqn 675 --> var 694 eqn 676 --> var 697 eqn 677 --> var 699 eqn 678 --> var 700 eqn 679 --> var 704 eqn 680 --> var 706 eqn 681 --> var 707 eqn 682 --> var 709 eqn 683 --> var 711 eqn 684 --> var 713 " [Timeout remaining time 657] [Calling sys.exit(0), Time elapsed: 6.021254103630781] Failed to read output from testmodel.py, exit status != 0: 3.4390535466372967 3.451034828 2.030476559 Calling exit ...