Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries/ --ompython_omhome=/usr ModelicaTest_3.2.3_ModelicaTest.Fluid.TestComponents.Machines.TestWaterPumpDefaultLV.conf.json loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo", uses=false) loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo", uses=false) loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 3.2.3+maint.om/package.mo", uses=false) loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaTest 3.2.3+maint.om/package.mo", uses=false) Using package ModelicaTest with version 3.2.3 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaTest 3.2.3+maint.om/package.mo) Using package Modelica with version 3.2.3 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 3.2.3+maint.om/package.mo) Using package Complex with version 4.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo) Using package ModelicaServices with version 4.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo) Running command: translateModel(ModelicaTest.Fluid.TestComponents.Machines.TestWaterPumpDefaultLV,tolerance=1e-06,outputFormat="mat",numberOfIntervals=5000,variableFilter="time|Source.ports.1..m_flow|Source.ports.1..p|Source.ports.1..h_outflow|Sink.ports.1..m_flow|Sink.ports.1..p|Sink.ports.1..h_outflow|pump.port_b.m_flow|pump.port_b.p|pump.port_b.h_outflow|valveOpening.y|Valve.port_b.m_flow|Valve.port_b.p|Valve.port_b.h_outflow|downstreamPressure.y",fileNamePrefix="ModelicaTest_3.2.3_ModelicaTest.Fluid.TestComponents.Machines.TestWaterPumpDefaultLV") translateModel(ModelicaTest.Fluid.TestComponents.Machines.TestWaterPumpDefaultLV,tolerance=1e-06,outputFormat="mat",numberOfIntervals=5000,variableFilter="time|Source.ports.1..m_flow|Source.ports.1..p|Source.ports.1..h_outflow|Sink.ports.1..m_flow|Sink.ports.1..p|Sink.ports.1..h_outflow|pump.port_b.m_flow|pump.port_b.p|pump.port_b.h_outflow|valveOpening.y|Valve.port_b.m_flow|Valve.port_b.p|Valve.port_b.h_outflow|downstreamPressure.y",fileNamePrefix="ModelicaTest_3.2.3_ModelicaTest.Fluid.TestComponents.Machines.TestWaterPumpDefaultLV") Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo): time 0.001101/0.001101, allocations: 106.4 kB / 17.04 MB, free: 6.152 MB / 14.72 MB Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo): time 0.001056/0.001056, allocations: 195.5 kB / 17.98 MB, free: 5.242 MB / 14.72 MB Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 3.2.3+maint.om/package.mo): time 1.144/1.144, allocations: 205.1 MB / 223.8 MB, free: 12.27 MB / 190.1 MB Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaTest 3.2.3+maint.om/package.mo): time 0.1758/0.1758, allocations: 43.51 MB / 314.7 MB, free: 496 kB / 254.1 MB Notification: Performance of FrontEnd - Absyn->SCode: time 2.028e-05/2.035e-05, allocations: 6.219 kB / 384.1 MB, free: 56.39 MB / 318.1 MB Notification: Performance of NFInst.instantiate(ModelicaTest.Fluid.TestComponents.Machines.TestWaterPumpDefaultLV): time 0.0265/0.02654, allocations: 41.2 MB / 425.3 MB, free: 22.48 MB / 318.1 MB Notification: Performance of NFInst.instExpressions: time 0.0121/0.03868, allocations: 16.24 MB / 441.6 MB, free: 6.219 MB / 318.1 MB Notification: Performance of NFInst.updateImplicitVariability: time 0.0003857/0.03909, allocations: 19.88 kB / 441.6 MB, free: 6.199 MB / 318.1 MB Notification: Performance of NFTyping.typeComponents: time 0.0008735/0.03998, allocations: 437.3 kB / 442 MB, free: 5.77 MB / 318.1 MB Notification: Performance of NFTyping.typeBindings: time 0.01032/0.05034, allocations: 4.912 MB / 446.9 MB, free: 0.8672 MB / 318.1 MB Notification: Performance of NFTyping.typeClassSections: time 0.004785/0.05514, allocations: 2.24 MB / 449.2 MB, free: 14.63 MB / 334.1 MB Notification: Performance of NFFlatten.flatten: time 0.001751/0.0569, allocations: 1.774 MB / 450.9 MB, free: 12.85 MB / 334.1 MB Notification: Performance of NFFlatten.resolveConnections: time 0.0004875/0.0574, allocations: 427.6 kB / 451.4 MB, free: 12.45 MB / 334.1 MB Notification: Performance of NFEvalConstants.evaluate: time 0.000981/0.05839, allocations: 0.7706 MB / 452.1 MB, free: 11.67 MB / 334.1 MB Notification: Performance of NFSimplifyModel.simplify: time 0.003249/0.06165, allocations: 2.088 MB / 454.2 MB, free: 9.559 MB / 334.1 MB Notification: Performance of NFPackage.collectConstants: time 8.757e-05/0.06175, allocations: 60 kB / 454.3 MB, free: 9.5 MB / 334.1 MB Notification: Performance of NFFlatten.collectFunctions: time 0.009855/0.07161, allocations: 7.108 MB / 461.4 MB, free: 2.387 MB / 334.1 MB Notification: Performance of combineBinaries: time 0.0009993/0.07263, allocations: 1.3 MB / 462.7 MB, free: 1.074 MB / 334.1 MB Notification: Performance of replaceArrayConstructors: time 0.0004517/0.07309, allocations: 0.8393 MB / 463.5 MB, free: 236 kB / 334.1 MB Notification: Performance of NFVerifyModel.verify: time 0.0001776/0.07327, allocations: 131.7 kB / 463.7 MB, free: 104 kB / 334.1 MB Notification: Performance of FrontEnd: time 0.0001313/0.07341, allocations: 19.94 kB / 463.7 MB, free: 84 kB / 334.1 MB Notification: Model statistics after passing the front-end and creating the data structures used by the back-end: * Number of equations: 137 (117) * Number of variables: 137 (137) Notification: Performance of Bindings: time 0.003144/0.07656, allocations: 3.735 MB / 467.4 MB, free: 12.21 MB / 350.1 MB Notification: Performance of FunctionAlias: time 0.0002141/0.07678, allocations: 192.7 kB / 467.6 MB, free: 12.02 MB / 350.1 MB Notification: Performance of Early Inline: time 0.00217/0.07896, allocations: 2.289 MB / 469.9 MB, free: 9.684 MB / 350.1 MB Notification: Performance of simplify1: time 0.0001306/0.0791, allocations: 143.8 kB / 470 MB, free: 9.543 MB / 350.1 MB Notification: Performance of Alias: time 0.002071/0.08118, allocations: 2.141 MB / 472.2 MB, free: 7.184 MB / 350.1 MB Notification: Performance of simplify2: time 0.0001214/0.08132, allocations: 143.8 kB / 472.3 MB, free: 7.043 MB / 350.1 MB Notification: Performance of Events: time 0.0004259/0.08175, allocations: 392.4 kB / 472.7 MB, free: 6.676 MB / 350.1 MB Notification: Performance of Detect States: time 0.0005402/0.0823, allocations: 0.5241 MB / 473.2 MB, free: 6.141 MB / 350.1 MB Notification: Performance of Partitioning: time 0.0007792/0.08309, allocations: 0.8399 MB / 474.1 MB, free: 5.188 MB / 350.1 MB Error: Internal error NBSlice.fillDependencyArray failed because number of flattened indices 1 for dependency pump.heatTransfer.states.T could not be devided by the body size 5 without rest. Error: Internal error NBAdjacency.Matrix.createPseudo failed for: [ARRY] (5) pump.heatTransfer.states = {pump.medium.state} ($RES_BND_125) Error: Internal error NBAdjacency.Matrix.create failed to create adjacency matrix for system: System Variables (106/106) **************************** (1) [ALGB] (1) Real pump.head = pump.dp_pump / (pump.g * pump.rho) (2) [ALGB] (1) Real Sink.medium.state.d (start = 150.0, min = 0.0, max = 1e5, nominal = 500.0) (3) [DISC] (1) final input Integer pump.monitoring.state.phase = pump.medium.state.phase (min = 0, max = 2) (4) [ALGB] (1) Real Source.medium.T_degC = Modelica.SIunits.Conversions.to_degC(-((-273.15) - Source.medium.T_degC)) (5) [ALGB] (1) Real Source.medium.sat.psat (start = 5e6, min = 611.657, max = 1e8, nominal = 1e6) (6) [ALGB] (1) protected Real Valve.state_b.p (start = 5e6, min = 611.657, max = 1e8, nominal = 1e6) (7) [ALGB] (1) Real Sink.medium.state.h (start = 1e5, min = -1e10, max = 1e10, nominal = 5e5) (8) [ALGB] (1) Real pump.Wb_flow (9) [ALGB] (1) Real Valve.port_a_T = Modelica.Fluid.Utilities.regStep(-Valve.port_b.m_flow, ModelicaTest.Fluid.TestComponents.Machines.TestWaterPumpDefaultLV.Valve.Medium.temperature(Valve.state_a), ModelicaTest.Fluid.TestComponents.Machines.TestWaterPumpDefaultLV.Valve.Medium.temperature(ModelicaTest.Fluid.TestComponents.Machines.TestWaterPumpDefaultLV.Valve.Medium.setState_phX(99999.99999999999 * pump.medium.p_bar, Valve.port_a.h_outflow, {}, 0, 0)), Valve.m_flow_small) (start = 500.0, min = 273.15, max = 2273.15, nominal = 500.0) (10) [ALGB] (1) protected Real Valve.state_b.h (start = 1e5, min = -1e10, max = 1e10, nominal = 5e5) (11) [ALGB] (1) Real[1] Sink.ports.p (start = {5e6 for $i1 in 1:1}, min = {611.657 for $i1 in 1:1}, max = {1e8 for $i1 in 1:1}, nominal = {1e6 for $i1 in 1:1}) (12) [ALGB] (1) Real Sink.medium.p_bar = Modelica.SIunits.Conversions.to_bar(99999.99999999999 * Sink.medium.p_bar) (13) [ALGB] (1) Real Sink.medium.state.p (start = 5e6, min = 611.657, max = 1e8, nominal = 1e6) (14) [ALGB] (1) Real Valve.port_b.p (start = 5e6, min = 611.657, max = 1e8, nominal = 1e6) (15) [ALGB] (1) stream Real Valve.port_b.h_outflow (start = 1e5, min = -1e10, max = 1e10, nominal = 5e5) (16) [ALGB] (1) protected Real Valve.state_b.d (start = 150.0, min = 0.0, max = 1e5, nominal = 500.0) (17) [ALGB] (1) Real pump.medium.p_bar = Modelica.SIunits.Conversions.to_bar(99999.99999999999 * pump.medium.p_bar) (18) [ALGB] (1) Real pump.medium.state.p (start = 5e6, min = 611.657, max = 1e8, nominal = 1e6) (19) [ALGB] (1) Real pump.Hb_flow (20) [DISC] (1) Integer pump.medium.state.phase (min = 0, max = 2) (21) [DISC] (1) Integer Source.medium.phase (fixed = false, start = 1, min = 0, max = 2) (22) [ALGB] (1) flow Real Valve.port_b.m_flow (min = -1e5, max = 1e60) (23) [ALGB] (1) Real pump.medium.state.h (start = 1e5, min = -1e10, max = 1e10, nominal = 5e5) (24) [ALGB] (1) Real pump.medium.state.d (start = 150.0, min = 0.0, max = 1e5, nominal = 500.0) (25) [ALGB] (1) Real pump.medium.sat.Tsat (start = 500.0, min = 273.15, max = 2273.15, nominal = 500.0) (26) [ALGB] (1) protected Real Valve.state_b.T (start = 500.0, min = 273.15, max = 2273.15, nominal = 500.0) (27) [ALGB] (1) Real pump.V_flow (28) [ALGB] (1) Real Source.medium.u (min = -1e8, max = 1e8, nominal = 1e6) (29) [ALGB] (1) Real pump.Qb_flow (30) [ALGB] (1) Real $FUN_3 (31) [ALGB] (1) Real $FUN_2 (32) [ALGB] (1) stream Real[1] Sink.ports.h_outflow (start = {1e5 for $i1 in 1:1}, min = {-1e10 for $i1 in 1:1}, max = {1e10 for $i1 in 1:1}, nominal = {5e5 for $i1 in 1:1}) (33) [ALGB] (1) Real $FUN_1 (34) [ALGB] (1) Real Sink.medium.u (min = -1e8, max = 1e8, nominal = 1e6) (35) [ALGB] (1) Real[1] pump.heatTransfer.Ts = {ModelicaTest.Fluid.TestComponents.Machines.TestWaterPumpDefaultLV.pump.heatTransfer.Medium.temperature(pump.heatTransfer.states[1])} (start = {288.15 for $i1 in 1:1}, min = {0.0 for $i1 in 1:1}, nominal = {300.0 for $i1 in 1:1}) (36) [ALGB] (1) Real pump.medium.sat.psat (start = 5e6, min = 611.657, max = 1e8, nominal = 1e6) (37) [ALGB] (1) Real pump.rho = pump.rho (start = 150.0, min = 0.0, max = 1e5, nominal = 500.0) (38) [ALGB] (1) Real Source.medium.h (StateSelect = default) (39) [ALGB] (1) Real pump.medium.state.T (start = 500.0, min = 273.15, max = 2273.15, nominal = 500.0) (40) [ALGB] (1) Real pump.m_flow = pump.m_flow (41) [DISC] (1) Integer Sink.medium.phase (fixed = false, start = 1, min = 0, max = 2) (42) [ALGB] (1) Real pump.m (min = 0.0) (43) [ALGB] (1) Real pump.V_flow_single (start = pump.m_flow_start / (pump.nParallel * pump.rho_nominal)) (44) [ALGB] (1) Real Source.medium.d (start = 150.0, min = 0.0, max = 1e5, nominal = 500.0, StateSelect = default) (45) [ALGB] (1) flow Real[1] pump.heatTransfer.heatPorts.Q_flow (46) [DISC] (1) Integer pump.medium.phase (fixed = false, start = 1, min = 0, max = 2) (47) [ALGB] (1) Real Source.medium.state.T (start = 500.0, min = 273.15, max = 2273.15, nominal = 500.0) (48) [ALGB] (1) Real Sink.medium.h (StateSelect = default) (49) [ALGB] (1) Real Sink.medium.sat.Tsat (start = 500.0, min = 273.15, max = 2273.15, nominal = 500.0) (50) [ALGB] (1) Real pump.medium.T_degC = Modelica.SIunits.Conversions.to_degC(-((-273.15) - pump.medium.T_degC)) (51) [ALGB] (1) Real Sink.medium.d (start = 150.0, min = 0.0, max = 1e5, nominal = 500.0, StateSelect = default) (52) [ALGB] (1) stream Real Valve.port_a.h_outflow (start = 1e5, min = -1e10, max = 1e10, nominal = 5e5) (53) [ALGB] (1) Real pump.port_a.p (start = pump.p_a_start, min = 611.657, max = 1e8, nominal = 1e6) (54) [ALGB] (1) final input Real[1, 1] pump.heatTransfer.states.T = {pump.medium.state.T} (start = {500.0 for $i1 in 1:1}, min = {273.15 for $i1 in 1:1}, max = {2273.15 for $i1 in 1:1}, nominal = {500.0 for $i1 in 1:1}) (55) [DISC] (1) Boolean $SEV_16 (56) [ALGB] (1) Real Sink.medium.T_degC = Modelica.SIunits.Conversions.to_degC(-((-273.15) - Sink.medium.T_degC)) (57) [DISC] (1) Boolean $SEV_15 (58) [DISC] (1) Boolean $SEV_14 (59) [DISC] (1) Boolean $SEV_13 (60) [DISC] (1) Boolean $SEV_12 (61) [ALGB] (1) Real Source.medium.state.d (start = 150.0, min = 0.0, max = 1e5, nominal = 500.0) (62) [DISC] (1) Boolean $SEV_11 (63) [ALGB] (1) Real Sink.medium.sat.psat (start = 5e6, min = 611.657, max = 1e8, nominal = 1e6) (64) [ALGB] (1) Real Source.medium.state.h (start = 1e5, min = -1e10, max = 1e10, nominal = 5e5) (65) [ALGB] (1) Real pump.U (66) [ALGB] (1) protected Real Valve.state_a.p (start = 5e6, min = 611.657, max = 1e8, nominal = 1e6) (67) [DISC] (1) final input Integer[1, 1] pump.heatTransfer.states.phase = {pump.medium.state.phase} (min = {0 for $i1 in 1:1}, max = {2 for $i1 in 1:1}) (68) [ALGB] (1) Real Valve.port_b_T = Modelica.Fluid.Utilities.regStep(Valve.port_b.m_flow, ModelicaTest.Fluid.TestComponents.Machines.TestWaterPumpDefaultLV.Valve.Medium.temperature(Valve.state_b), ModelicaTest.Fluid.TestComponents.Machines.TestWaterPumpDefaultLV.Valve.Medium.temperature(ModelicaTest.Fluid.TestComponents.Machines.TestWaterPumpDefaultLV.Valve.Medium.setState_phX(Valve.port_b.p, Valve.port_b.h_outflow, {}, 0, 0)), Valve.m_flow_small) (start = 500.0, min = 273.15, max = 2273.15, nominal = 500.0) (69) [ALGB] (1) Real pump.medium.u (min = -1e8, max = 1e8, nominal = 1e6) (70) [ALGB] (1) final input Real[1, 1] pump.heatTransfer.states.d = {pump.medium.state.d} (start = {150.0 for $i1 in 1:1}, min = {0.0 for $i1 in 1:1}, max = {1e5 for $i1 in 1:1}, nominal = {500.0 for $i1 in 1:1}) (71) [ALGB] (1) Real pump.N (start = pump.N_nominal) (72) [ALGB] (1) protected Real Valve.state_a.h (start = 1e5, min = -1e10, max = 1e10, nominal = 5e5) (73) [ALGB] (1) final input Real[1, 1] pump.heatTransfer.states.h = {pump.medium.state.h} (start = {1e5 for $i1 in 1:1}, min = {-1e10 for $i1 in 1:1}, max = {1e10 for $i1 in 1:1}, nominal = {5e5 for $i1 in 1:1}) (74) [ALGB] (1) flow Real[1] Source.ports.m_flow (min = {-1e60}, max = {1e60}) (75) [ALGB] (1) Real pump.W_single (76) [ALGB] (1) final input Real pump.monitoring.state.T = pump.medium.state.T (start = 500.0, min = 273.15, max = 2273.15, nominal = 500.0) (77) [DISC] (1) Boolean $SEV_8 (78) [ALGB] (1) protected Real Valve.state_a.d (start = 150.0, min = 0.0, max = 1e5, nominal = 500.0) (79) [DISC] (1) Boolean $SEV_5 (80) [ALGB] (1) final input Real pump.monitoring.state_in.T (start = 500.0, min = 273.15, max = 2273.15, nominal = 500.0) (81) [ALGB] (1) Real pump.m_flow_single = pump.m_flow / pump.nParallel (82) [ALGB] (1) final input Real[1, 1] pump.heatTransfer.states.p = {pump.medium.state.p} (start = {5e6 for $i1 in 1:1}, min = {611.657 for $i1 in 1:1}, max = {1e8 for $i1 in 1:1}, nominal = {1e6 for $i1 in 1:1}) (83) [DISC] (1) Boolean $SEV_2 (84) [DISC] (1) Boolean $SEV_1 (85) [DISC] (1) Boolean $SEV_0 (86) [ALGB] (1) Real pump.dp_pump = 99999.99999999999 * pump.medium.p_bar - pump.port_a.p (87) [DISC] (1) Integer Sink.medium.state.phase (min = 0, max = 2) (88) [ALGB] (1) Real Valve.dp (start = Valve.dp_start) (89) [DISC] (1) Boolean $TEV_1 (90) [ALGB] (1) Real[1] pump.heatTransfer.Q_flows (91) [DISC] (1) Boolean $TEV_0 (92) [ALGB] (1) final input Real pump.monitoring.state.d = pump.medium.state.d (start = 150.0, min = 0.0, max = 1e5, nominal = 500.0) (93) [ALGB] (1) protected Real Valve.state_a.T (start = 500.0, min = 273.15, max = 2273.15, nominal = 500.0) (94) [ALGB] (1) Real pump.eta (95) [ALGB] (1) final input Real pump.monitoring.state_in.d (start = 150.0, min = 0.0, max = 1e5, nominal = 500.0) (96) [ALGB] (1) final input Real pump.monitoring.state.h = pump.medium.state.h (start = 1e5, min = -1e10, max = 1e10, nominal = 5e5) (97) [DISC] (1) Integer Source.medium.state.phase (min = 0, max = 2) (98) [ALGB] (1) Real Sink.medium.state.T (start = 500.0, min = 273.15, max = 2273.15, nominal = 500.0) (99) [ALGB] (1) flow Real[1] Sink.ports.m_flow (min = {-1e60}, max = {1e60}) (100) [ALGB] (1) final input Real pump.monitoring.state_in.h (start = 1e5, min = -1e10, max = 1e10, nominal = 5e5) (101) [ALGB] (1) stream Real[1] Source.ports.h_outflow (start = {1e5 for $i1 in 1:1}, min = {-1e10 for $i1 in 1:1}, max = {1e10 for $i1 in 1:1}, nominal = {5e5 for $i1 in 1:1}) (102) [ALGB] (1) Real Valve.V_flow = (-Valve.port_b.m_flow) / Modelica.Fluid.Utilities.regStep(-Valve.port_b.m_flow, ModelicaTest.Fluid.TestComponents.Machines.TestWaterPumpDefaultLV.Valve.Medium.density(Valve.state_a), ModelicaTest.Fluid.TestComponents.Machines.TestWaterPumpDefaultLV.Valve.Medium.density(Valve.state_b), Valve.m_flow_small) (103) [ALGB] (1) Real[1] pump.heatTransfer.heatPorts.T (start = {288.15 for $i1 in 1:1}, min = {0.0 for $i1 in 1:1}, nominal = {300.0 for $i1 in 1:1}) (104) [ALGB] (1) final input Real pump.monitoring.state.p = pump.medium.state.p (start = 5e6, min = 611.657, max = 1e8, nominal = 1e6) (105) [ALGB] (1) Real[1] Source.ports.p (start = {5e6 for $i1 in 1:1}, min = {611.657 for $i1 in 1:1}, max = {1e8 for $i1 in 1:1}, nominal = {1e6 for $i1 in 1:1}) (106) [ALGB] (1) final input Real pump.monitoring.state_in.p (start = 5e6, min = 611.657, max = 1e8, nominal = 1e6) System Equations (98/106) *************************** (1) [SCAL] (1) Sink.medium.h = Modelica.Media.Water.IF97_Utilities.h_pT(99999.99999999999 * Sink.medium.p_bar, Sink.T, 0) ($RES_SIM_50) (2) [SCAL] (1) Valve.state_a.h = Valve.port_b.h_outflow ($RES_SIM_132) (3) [SCAL] (1) Valve.state_a.d = Modelica.Media.Water.IF97_Utilities.rho_ph(99999.99999999999 * pump.medium.p_bar, Valve.port_b.h_outflow, 0, 0) ($RES_SIM_133) (4) [SCAL] (1) Valve.state_a.T = Modelica.Media.Water.IF97_Utilities.T_ph(99999.99999999999 * pump.medium.p_bar, Valve.port_b.h_outflow, 0, 0) ($RES_SIM_134) (5) [SCAL] (1) pump.Hb_flow = smooth(0, pump.m_flow * (if $SEV_0 then Source.ports[1].h_outflow else Valve.port_b.h_outflow)) + smooth(0, Valve.port_b.m_flow * (if $SEV_1 then Valve.port_a.h_outflow else Valve.port_b.h_outflow)) ($RES_SIM_18) (6) [SCAL] (1) Valve.state_a.p = 99999.99999999999 * pump.medium.p_bar ($RES_SIM_135) (7) [SCAL] (1) pump.Qb_flow = pump.heatTransfer.Q_flows[1] ($RES_SIM_19) (8) [SCAL] (1) Source.medium.u = Source.medium.h - Source.p / Source.medium.d ($RES_SIM_90) (9) [SCAL] (1) Valve.state_b.h = Sink.ports[1].h_outflow ($RES_SIM_137) (10) [SCAL] (1) Source.medium.sat.psat = Source.p ($RES_SIM_91) (11) [SCAL] (1) Valve.state_b.d = Modelica.Media.Water.IF97_Utilities.rho_ph(Valve.port_b.p, Sink.ports[1].h_outflow, 0, 0) ($RES_SIM_138) (12) [SCAL] (1) Valve.state_b.T = Modelica.Media.Water.IF97_Utilities.T_ph(Valve.port_b.p, Sink.ports[1].h_outflow, 0, 0) ($RES_SIM_139) (13) [SCAL] (1) -((-273.15) - Source.medium.T_degC) = Modelica.Media.Water.IF97_Utilities.T_props_ph(Source.p, Source.medium.h, Modelica.Media.Water.IF97_Utilities.waterBaseProp_ph(Source.p, Source.medium.h, Source.medium.phase, 0)) ($RES_SIM_93) (14) [SCAL] (1) Source.medium.d = Modelica.Media.Water.IF97_Utilities.rho_props_ph(Source.p, Source.medium.h, Modelica.Media.Water.IF97_Utilities.waterBaseProp_ph(Source.p, Source.medium.h, Source.medium.phase, 0)) ($RES_SIM_94) (15) [SCAL] (1) Sink.medium.phase = Sink.medium.state.phase ($RES_SIM_59) (16) [SCAL] (1) Source.medium.phase = if $SEV_11 then 1 else 2 ($RES_SIM_95) (17) [SCAL] (1) Valve.port_b.m_flow + Sink.ports[1].m_flow = 0.0 ($RES_SIM_97) (18) [SCAL] (1) $SEV_12 = Valve.port_b.m_flow > Valve.m_flow_small ($RES_EVT_170) (19) [SCAL] (1) $SEV_13 = Valve.port_b.m_flow < (-Valve.m_flow_small) ($RES_EVT_171) (20) [SCAL] (1) pump.heatTransfer.heatPorts[1].Q_flow = 0.0 ($RES_SIM_99) (21) [SCAL] (1) $SEV_14 = Valve.m_flow_small > 0.0 ($RES_EVT_172) (22) [SCAL] (1) $SEV_15 = (-Valve.port_b.m_flow) > Valve.m_flow_small ($RES_EVT_173) (23) [SCAL] (1) $SEV_16 = (-Valve.port_b.m_flow) < (-Valve.m_flow_small) ($RES_EVT_174) (24) [SCAL] (1) pump.m_flow + Source.ports[1].m_flow = 0.0 ($RES_SIM_100) (25) [ARRY] (1) pump.heatTransfer.Ts = {pump.heatTransfer.states.h} ($RES_BND_115) (26) [SCAL] (1) pump.W_single = homotopy((pump.V_flow_single * pump.dp_pump) / pump.eta, (pump.V_flow_single_init * pump.dp_pump) / pump.eta) ($RES_SIM_21) (27) [SCAL] (1) pump.port_a.p = Source.ports[1].p ($RES_SIM_103) (28) [SCAL] (1) pump.eta = homotopy(0.8, 0.8) ($RES_SIM_22) (29) [SCAL] (1) pump.dp_pump = 99999.99999999999 * pump.medium.p_bar - pump.port_a.p ($RES_BND_117) (30) [SCAL] (1) Valve.port_b.p = Sink.ports[1].p ($RES_SIM_105) (31) [SCAL] (1) pump.head = pump.dp_pump / (pump.g * pump.rho) ($RES_BND_118) (32) [SCAL] (1) Valve.state_b.p = Valve.port_b.p ($RES_SIM_140) (33) [SCAL] (1) pump.head = homotopy((pump.N / pump.N_nominal) ^ 2.0 * $FUN_1, (pump.N / pump.N_nominal) * ($FUN_2 + (pump.V_flow_single - pump.V_flow_single_init) * noEvent(if $SEV_2 then (10.0 * pump.delta_head_init) / pump.V_flow_single_init else 0.0))) ($RES_SIM_24) (34) [SCAL] (1) Sink.medium.d = Sink.medium.state.d ($RES_SIM_60) (35) [SCAL] (1) pump.V_flow_single = pump.V_flow / pump.nParallel ($RES_SIM_25) (36) [SCAL] (1) pump.monitoring.state_in.h = Source.ports[1].h_outflow ($RES_SIM_142) (37) [SCAL] (1) -((-273.15) - Sink.medium.T_degC) = Sink.medium.state.T ($RES_SIM_61) (38) [SCAL] (1) pump.V_flow = homotopy(pump.m_flow / pump.rho, pump.m_flow / pump.rho_nominal) ($RES_SIM_26) (39) [SCAL] (1) pump.monitoring.state_in.d = Modelica.Media.Water.IF97_Utilities.rho_ph(pump.port_a.p, Source.ports[1].h_outflow, 0, 0) ($RES_SIM_143) (40) [SCAL] (1) 99999.99999999999 * Sink.medium.p_bar = Sink.medium.state.p ($RES_SIM_62) (41) [SCAL] (1) pump.N = max(pump.N_const, 0.001) ($RES_SIM_27) (42) [SCAL] (1) pump.monitoring.state_in.T = Modelica.Media.Water.IF97_Utilities.T_ph(pump.port_a.p, Source.ports[1].h_outflow, 0, 0) ($RES_SIM_144) (43) [SCAL] (1) Sink.medium.h = Sink.medium.state.h ($RES_SIM_63) (44) [SCAL] (1) pump.monitoring.state_in.p = pump.port_a.p ($RES_SIM_145) (45) [ARRY] (1) pump.heatTransfer.Q_flows = pump.heatTransfer.heatPorts.Q_flow ($RES_SIM_29) (46) [SCAL] (1) $FUN_1 = ModelicaTest.Fluid.TestComponents.Machines.TestWaterPumpDefaultLV.pump.flowCharacteristic((pump.N_nominal * pump.V_flow_single) / pump.N, {0.0, 0.001, 0.0015}, {100.0, 50.0, 0.0}) ($RES_$AUX_130) (47) [SCAL] (1) Sink.medium.u = Sink.medium.h - (99999.99999999999 * Sink.medium.p_bar) / Sink.medium.d ($RES_SIM_65) (48) [SCAL] (1) Sink.medium.sat.psat = 99999.99999999999 * Sink.medium.p_bar ($RES_SIM_66) (49) [SCAL] (1) Sink.medium.sat.Tsat = Modelica.Media.Water.IF97_Utilities.BaseIF97.Basic.tsat(99999.99999999999 * Sink.medium.p_bar) ($RES_SIM_67) (50) [SCAL] (1) -((-273.15) - Sink.medium.T_degC) = Modelica.Media.Water.IF97_Utilities.T_props_ph(99999.99999999999 * Sink.medium.p_bar, Sink.medium.h, Modelica.Media.Water.IF97_Utilities.waterBaseProp_ph(99999.99999999999 * Sink.medium.p_bar, Sink.medium.h, Sink.medium.phase, 0)) ($RES_SIM_68) (51) [SCAL] (1) Sink.medium.d = Modelica.Media.Water.IF97_Utilities.rho_props_ph(99999.99999999999 * Sink.medium.p_bar, Sink.medium.h, Modelica.Media.Water.IF97_Utilities.waterBaseProp_ph(99999.99999999999 * Sink.medium.p_bar, Sink.medium.h, Sink.medium.phase, 0)) ($RES_SIM_69) (52) [SCAL] (1) pump.m_flow_single = pump.m_flow / pump.nParallel ($RES_BND_120) (53) [SCAL] (1) pump.Wb_flow = pump.W_single * pump.nParallel ($RES_BND_121) (54) [SCAL] (1) Valve.V_flow = -Valve.port_b.m_flow / smooth(1, if $SEV_15 then Valve.state_a.d else if $SEV_16 then Valve.state_b.d else if $SEV_14 then 0.5 * (Valve.state_a.d + Valve.state_b.d) - 0.25 * (Valve.state_b.d - Valve.state_a.d) * ((-3.0) + (Valve.port_b.m_flow / (-Valve.m_flow_small)) ^ 2.0) * (Valve.port_b.m_flow / Valve.m_flow_small) else 0.5 * (Valve.state_a.d + Valve.state_b.d)) ($RES_BND_122) (55) [SCAL] (1) Valve.port_a_T = smooth(1, if $SEV_15 then Valve.state_a.T else if $SEV_16 then Modelica.Media.Water.IF97_Utilities.T_ph(99999.99999999999 * pump.medium.p_bar, Valve.port_a.h_outflow, 0, 0) else if $SEV_14 then 0.5 * (Valve.state_a.T + Modelica.Media.Water.IF97_Utilities.T_ph(99999.99999999999 * pump.medium.p_bar, Valve.port_a.h_outflow, 0, 0)) - 0.25 * (Modelica.Media.Water.IF97_Utilities.T_ph(99999.99999999999 * pump.medium.p_bar, Valve.port_a.h_outflow, 0, 0) - Valve.state_a.T) * ((-3.0) + (Valve.port_b.m_flow / (-Valve.m_flow_small)) ^ 2.0) * (Valve.port_b.m_flow / Valve.m_flow_small) else 0.5 * (Valve.state_a.T + Modelica.Media.Water.IF97_Utilities.T_ph(99999.99999999999 * pump.medium.p_bar, Valve.port_a.h_outflow, 0, 0))) ($RES_BND_123) (56) [SCAL] (1) Valve.port_b_T = smooth(1, if $SEV_12 then Valve.state_b.T else if $SEV_13 then Modelica.Media.Water.IF97_Utilities.T_ph(Valve.port_b.p, Valve.port_b.h_outflow, 0, 0) else if $SEV_14 then 0.25 * (Modelica.Media.Water.IF97_Utilities.T_ph(Valve.port_b.p, Valve.port_b.h_outflow, 0, 0) - Valve.state_b.T) * ((-3.0) + (Valve.port_b.m_flow / Valve.m_flow_small) ^ 2.0) * (Valve.port_b.m_flow / Valve.m_flow_small) + 0.5 * (Valve.state_b.T + Modelica.Media.Water.IF97_Utilities.T_ph(Valve.port_b.p, Valve.port_b.h_outflow, 0, 0)) else 0.5 * (Valve.state_b.T + Modelica.Media.Water.IF97_Utilities.T_ph(Valve.port_b.p, Valve.port_b.h_outflow, 0, 0))) ($RES_BND_124) (57) [ARRY] (1) pump.heatTransfer.Ts = pump.heatTransfer.heatPorts.T ($RES_SIM_30) (58) [ARRY] (5) pump.heatTransfer.states = {pump.medium.state} ($RES_BND_125) (59) [SCAL] (1) $FUN_2 = ModelicaTest.Fluid.TestComponents.Machines.TestWaterPumpDefaultLV.pump.flowCharacteristic(pump.V_flow_single_init, {0.0, 0.001, 0.0015}, {100.0, 50.0, 0.0}) ($RES_$AUX_129) (60) [SCAL] (1) $FUN_3 = abs(pump.V_flow_single_init) ($RES_$AUX_128) (61) [RECD] (5) pump.monitoring.state = pump.medium.state ($RES_BND_127) (62) [SCAL] (1) Sink.medium.phase = if $SEV_8 then 1 else 2 ($RES_SIM_70) (63) [SCAL] (1) pump.medium.phase = pump.medium.state.phase ($RES_SIM_35) (64) [SCAL] (1) pump.rho = pump.medium.state.d ($RES_SIM_36) (65) [SCAL] (1) Source.ports[1].p = Source.p ($RES_SIM_72) (66) [SCAL] (1) -((-273.15) - pump.medium.T_degC) = pump.medium.state.T ($RES_SIM_37) (67) [SCAL] (1) Source.ports[1].h_outflow = Source.medium.h ($RES_SIM_73) (68) [SCAL] (1) 99999.99999999999 * pump.medium.p_bar = pump.medium.state.p ($RES_SIM_38) (69) [SCAL] (1) Source.medium.h = Modelica.Media.Water.IF97_Utilities.h_pT(Source.p, Source.T, 0) ($RES_SIM_74) (70) [SCAL] (1) Valve.port_b.h_outflow = pump.medium.state.h ($RES_SIM_39) (71) [SCAL] (1) $TEV_0 = time < downstreamPressure.startTime ($RES_EVT_156) (72) [SCAL] (1) $TEV_1 = time < (downstreamPressure.startTime + downstreamPressure.duration) ($RES_EVT_157) (73) [SCAL] (1) $SEV_0 = pump.m_flow > 0.0 ($RES_EVT_158) (74) [SCAL] (1) $SEV_1 = Valve.port_b.m_flow > 0.0 ($RES_EVT_159) (75) [SCAL] (1) pump.medium.u = Valve.port_b.h_outflow - (99999.99999999999 * pump.medium.p_bar) / pump.rho ($RES_SIM_41) (76) [SCAL] (1) pump.medium.sat.psat = 99999.99999999999 * pump.medium.p_bar ($RES_SIM_42) (77) [SCAL] (1) pump.medium.sat.Tsat = Modelica.Media.Water.IF97_Utilities.BaseIF97.Basic.tsat(99999.99999999999 * pump.medium.p_bar) ($RES_SIM_43) (78) [SCAL] (1) -((-273.15) - pump.medium.T_degC) = Modelica.Media.Water.IF97_Utilities.T_props_ph(99999.99999999999 * pump.medium.p_bar, Valve.port_b.h_outflow, Modelica.Media.Water.IF97_Utilities.waterBaseProp_ph(99999.99999999999 * pump.medium.p_bar, Valve.port_b.h_outflow, pump.medium.phase, 0)) ($RES_SIM_44) (79) [SCAL] (1) pump.rho = Modelica.Media.Water.IF97_Utilities.rho_props_ph(99999.99999999999 * pump.medium.p_bar, Valve.port_b.h_outflow, Modelica.Media.Water.IF97_Utilities.waterBaseProp_ph(99999.99999999999 * pump.medium.p_bar, Valve.port_b.h_outflow, pump.medium.phase, 0)) ($RES_SIM_45) (80) [SCAL] (1) pump.medium.phase = if $SEV_5 then 1 else 2 ($RES_SIM_46) (81) [SCAL] (1) Sink.ports[1].p = 99999.99999999999 * Sink.medium.p_bar ($RES_SIM_48) (82) [SCAL] (1) Source.medium.phase = Source.medium.state.phase ($RES_SIM_84) (83) [SCAL] (1) Sink.ports[1].h_outflow = Sink.medium.h ($RES_SIM_49) (84) [SCAL] (1) Source.medium.d = Source.medium.state.d ($RES_SIM_85) (85) [SCAL] (1) -((-273.15) - Source.medium.T_degC) = Source.medium.state.T ($RES_SIM_86) (86) [SCAL] (1) $SEV_2 = $FUN_3 > 0.0 ($RES_EVT_160) (87) [SCAL] (1) Source.medium.h = Source.medium.state.h ($RES_SIM_88) (88) [SCAL] (1) $SEV_5 = (Valve.port_b.h_outflow < Modelica.Media.Water.IF97_Utilities.BaseIF97.Regions.hvl_p(pump.medium.sat.psat, Modelica.Media.Water.IF97_Utilities.BaseIF97.Regions.boilingcurve_p(pump.medium.sat.psat)) or Valve.port_b.h_outflow > Modelica.Media.Water.IF97_Utilities.BaseIF97.Regions.hvl_p(pump.medium.sat.psat, Modelica.Media.Water.IF97_Utilities.BaseIF97.Regions.dewcurve_p(pump.medium.sat.psat))) or 99999.99999999999 * pump.medium.p_bar > 2.2064e7 ($RES_EVT_163) (89) [SCAL] (1) $SEV_8 = (Sink.medium.h < Modelica.Media.Water.IF97_Utilities.BaseIF97.Regions.hvl_p(Sink.medium.sat.psat, Modelica.Media.Water.IF97_Utilities.BaseIF97.Regions.boilingcurve_p(Sink.medium.sat.psat)) or Sink.medium.h > Modelica.Media.Water.IF97_Utilities.BaseIF97.Regions.hvl_p(Sink.medium.sat.psat, Modelica.Media.Water.IF97_Utilities.BaseIF97.Regions.dewcurve_p(Sink.medium.sat.psat))) or 99999.99999999999 * Sink.medium.p_bar > 2.2064e7 ($RES_EVT_166) (90) [SCAL] (1) -Valve.port_b.m_flow = Valve.k * valveOpening.k * Valve.dp ($RES_SIM_8) (91) [SCAL] (1) Valve.port_a.h_outflow = Sink.ports[1].h_outflow ($RES_SIM_7) (92) [SCAL] (1) $SEV_11 = (Source.medium.h < Modelica.Media.Water.IF97_Utilities.BaseIF97.Regions.hvl_p(Source.medium.sat.psat, Modelica.Media.Water.IF97_Utilities.BaseIF97.Regions.boilingcurve_p(Source.medium.sat.psat)) or Source.medium.h > Modelica.Media.Water.IF97_Utilities.BaseIF97.Regions.hvl_p(Source.medium.sat.psat, Modelica.Media.Water.IF97_Utilities.BaseIF97.Regions.dewcurve_p(Source.medium.sat.psat))) or Source.p > 2.2064e7 ($RES_EVT_169) (93) [SCAL] (1) Valve.dp = 99999.99999999999 * pump.medium.p_bar - Valve.port_b.p ($RES_SIM_3) (94) [SCAL] (1) 99999.99999999999 * Sink.medium.p_bar = downstreamPressure.offset + (if $TEV_0 then 0.0 else if $TEV_1 then (downstreamPressure.height * (time - downstreamPressure.startTime)) / downstreamPressure.duration else downstreamPressure.height) ($RES_SIM_0) (95) [SCAL] (1) 0.0 = pump.Qb_flow + pump.Hb_flow + pump.Wb_flow ($RES_SIM_11) (96) [SCAL] (1) pump.U = pump.m * pump.medium.u ($RES_SIM_12) (97) [SCAL] (1) pump.m = 0.0 ($RES_SIM_13) (98) [SCAL] (1) 0.0 = pump.m_flow + Valve.port_b.m_flow ($RES_SIM_14)