Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries --ompython_omhome=/usr ThermoPower_4.0.0-dev_ThermoPower.Test.GasComponents.TestCompressorInertia.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 0.0009156/0.0009156, allocations: 88.17 kB / 21.56 MB, free: 2.961 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 0.0008878/0.0008878, allocations: 170.8 kB / 24.85 MB, free: 8.938 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 0.9492/0.9492, allocations: 177.1 MB / 205.2 MB, free: 5.672 MB / 186.7 MB " [Timeout remaining time 179] loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermoPower 4.0.0-dev/package.mo", uses=false) [Timeout 180] "Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermoPower 4.0.0-dev/package.mo): time 0.09578/0.09578, allocations: 19.74 MB / 281.4 MB, free: 9.379 MB / 266.7 MB " [Timeout remaining time 180] Using package ThermoPower with version 4.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermoPower 4.0.0-dev/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(ThermoPower.Test.GasComponents.TestCompressorInertia,tolerance=1e-06,outputFormat="empty",numberOfIntervals=2500,variableFilter="",fileNamePrefix="ThermoPower_4.0.0-dev_ThermoPower.Test.GasComponents.TestCompressorInertia") translateModel(ThermoPower.Test.GasComponents.TestCompressorInertia,tolerance=1e-06,outputFormat="empty",numberOfIntervals=2500,variableFilter="",fileNamePrefix="ThermoPower_4.0.0-dev_ThermoPower.Test.GasComponents.TestCompressorInertia") [Timeout 660] "Notification: Performance of FrontEnd - Absyn->SCode: time 2.388e-05/2.388e-05, allocations: 3.016 kB / 418.1 MB, free: 7.391 MB / 330.7 MB Notification: Performance of NFInst.instantiate(ThermoPower.Test.GasComponents.TestCompressorInertia): time 0.1486/0.1486, allocations: 146.8 MB / 0.5517 GB, free: 15.24 MB / 474.7 MB Notification: Performance of NFInst.instExpressions: time 0.005666/0.1543, allocations: 3.477 MB / 0.5551 GB, free: 11.75 MB / 474.7 MB Notification: Performance of NFInst.updateImplicitVariability: time 0.0007659/0.155, allocations: 11.94 kB / 0.5551 GB, free: 11.74 MB / 474.7 MB Notification: Performance of NFTyping.typeComponents: time 0.001145/0.1562, allocations: 262.2 kB / 0.5553 GB, free: 11.48 MB / 474.7 MB Notification: Performance of NFTyping.typeBindings: time 0.001636/0.1578, allocations: 0.6607 MB / 0.556 GB, free: 10.82 MB / 474.7 MB Notification: Performance of NFTyping.typeClassSections: time 0.004299/0.1621, allocations: 1.627 MB / 0.5576 GB, free: 9.188 MB / 474.7 MB Notification: Performance of NFFlatten.flatten: time 0.002624/0.1647, allocations: 1.586 MB / 0.5591 GB, free: 7.594 MB / 474.7 MB Notification: Performance of NFFlatten.resolveConnections: time 0.00101/0.1657, allocations: 490 kB / 0.5596 GB, free: 7.113 MB / 474.7 MB Notification: Performance of NFEvalConstants.evaluate: time 0.001451/0.1672, allocations: 0.8652 MB / 0.5604 GB, free: 6.246 MB / 474.7 MB Notification: Performance of NFSimplifyModel.simplify: time 0.0006954/0.1679, allocations: 434.8 kB / 0.5608 GB, free: 5.82 MB / 474.7 MB Notification: Performance of NFPackage.collectConstants: time 0.0001329/0.168, allocations: 56 kB / 0.5609 GB, free: 5.766 MB / 474.7 MB Notification: Performance of NFFlatten.collectFunctions: time 0.00154/0.1696, allocations: 0.6232 MB / 0.5615 GB, free: 5.141 MB / 474.7 MB Notification: Performance of combineBinaries: time 0.001058/0.1706, allocations: 1.205 MB / 0.5627 GB, free: 3.926 MB / 474.7 MB Notification: Performance of replaceArrayConstructors: time 0.0006567/0.1713, allocations: 0.749 MB / 0.5634 GB, free: 3.168 MB / 474.7 MB Notification: Performance of NFVerifyModel.verify: time 0.0002414/0.1715, allocations: 72 kB / 0.5635 GB, free: 3.098 MB / 474.7 MB Notification: Performance of FrontEnd: time 0.000166/0.1717, allocations: 15.98 kB / 0.5635 GB, free: 3.082 MB / 474.7 MB Notification: Model statistics after passing the front-end and creating the data structures used by the back-end: * Number of equations: 130 (112) * Number of variables: 130 (112) Notification: Performance of [SIM] Bindings: time 0.00374/0.1754, allocations: 3.314 MB / 0.5667 GB, free: 15.62 MB / 490.7 MB Notification: Performance of [SIM] FunctionAlias: time 0.000778/0.1762, allocations: 0.5225 MB / 0.5672 GB, free: 15.05 MB / 490.7 MB Notification: Performance of [SIM] Early Inline: time 0.003541/0.1797, allocations: 3.126 MB / 0.5703 GB, free: 11.93 MB / 490.7 MB Notification: Performance of [SIM] Simplify 1: time 0.001348/0.1811, allocations: 1.099 MB / 0.5714 GB, free: 10.79 MB / 490.7 MB Notification: Performance of [SIM] Alias: time 0.00457/0.1857, allocations: 3.045 MB / 0.5743 GB, free: 7.449 MB / 490.7 MB Notification: Performance of [SIM] Simplify 2: time 0.001049/0.1867, allocations: 1.015 MB / 0.5753 GB, free: 6.398 MB / 490.7 MB Notification: Performance of [SIM] Remove Stream: time 0.000354/0.1871, allocations: 226.7 kB / 0.5755 GB, free: 6.148 MB / 490.7 MB Notification: Performance of [SIM] Detect States: time 0.0006967/0.1878, allocations: 0.6426 MB / 0.5762 GB, free: 5.438 MB / 490.7 MB Notification: Performance of [SIM] Events: time 9.815e-05/0.1879, allocations: 75.95 kB / 0.5762 GB, free: 5.363 MB / 490.7 MB Notification: Performance of [SIM] Partitioning: time 0.000751/0.1886, allocations: 0.7871 MB / 0.577 GB, free: 4.5 MB / 490.7 MB Error: Internal error NBSorting.SuperNode.getEqnIndices failed because elements should not be accessed, only their parents: [75] scalar element of (87) Error: Internal error NBSorting.tarjan failed to sort system: System Variables (57/72) ************************** (1|1) [ALGB] (1) Real Compressor.gas_in.R_s (start = 1000.0, min = 0.0, max = 1e7, nominal = 1000.0) (2|2) [ALGB] (1) Real SourceP1.gas.R_s (start = 1000.0, min = 0.0, max = 1e7, nominal = 1000.0) (3|3) [ALGB] (1) Real Compressor.N_T (4|4) [ALGB] (1) Real Compressor.gas_in.d (start = 10.0, min = 0.0, max = 1e5, nominal = 10.0) (5|5) [ALGB] (1) Real SourceP1.gas.u (min = -1e8, max = 1e8, nominal = 1e6) (6|6) [ALGB] (1) Real SourceP1.gas.MM (min = 0.001, max = 0.25, nominal = 0.032) (7|7) [ALGB] (1) Real Compressor.gas_iso.d (start = 10.0, min = 0.0, max = 1e5, nominal = 10.0) (8|8) [ALGB] (1) Real Compressor.gas_iso.T (start = Compressor.Tstart_out, min = 200.0, max = 6000.0, nominal = 500.0, StateSelect = default) (9|9) [ALGB] (1) Real Compressor.gas_in.u (min = -1e8, max = 1e8, nominal = 1e6) (10|10) [DER-] (1) Real $DER.Compressor.phi (11|11) [ALGB] (1) Real SourceP1.gas.d (start = 10.0, min = 0.0, max = 1e5, nominal = 10.0) (12|12) [DSTA] (2) Real[2] Compressor.gas_in.X (start = {0.768, 0.232}, min = {0.0 for $f3 in 1:2}, max = {1.0 for $f2 in 1:2}, nominal = {0.1 for $f1 in 1:2}) (13|14) [DSTA] (2) Real[2] Compressor.gas_iso.Xi (start = Compressor.Xstart[:], min = max({0.0 for $f3 in 1:2}, {0.0 for $f3 in 1:2}, {0.0 for $f3 in 1:2}), max = max({1.0 for $f2 in 1:2}, {1.0 for $f2 in 1:2}, {1.0 for $f2 in 1:2}), StateSelect = default) (14|16) [DSTA] (2) stream Real[2] SourceP1.flange.Xi_outflow (min = max({0.0 for $f3 in 1:2}, {0.0 for $f3 in 1:2}), max = max({1.0 for $f2 in 1:2}, {1.0 for $f2 in 1:2}), nominal = {0.1 for $f1 in 1:2}) (15|18) [ALGB] (1) Real Compressor.w (min = -1e5, max = 1e5) (16|19) [ALGB] (1) Real Compressor.eta (17|20) [ALGB] (1) Real Compressor.gas_iso.u (min = -1e8, max = 1e8, nominal = 1e6) (18|21) [DSTA] (1) Real Compressor.gas_in.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (19|22) [ALGB] (1) Real $FUN_13 (20|23) [ALGB] (1) Real Compressor.gas_iso.h (21|24) [DSTA] (2) Real[2] Compressor.gas_iso.state.X (start = {0.768, 0.232}, min = {0.0 for $f3 in 1:2}, max = {1.0 for $f2 in 1:2}, nominal = {0.1 for $f1 in 1:2}) (22|26) [ALGB] (1) Real $FUN_12 (23|27) [ALGB] (1) Real Compressor.phic (24|28) [ALGB] (1) Real Compressor.gas_iso.MM (min = 0.001, max = 0.25, nominal = 0.032) (25|29) [ALGB] (1) Real Compressor.N_T_design (26|30) [DSTA] (2) Real[2] Compressor.gas_iso.X (start = {0.768, 0.232}, min = {0.0 for $f3 in 1:2}, max = {1.0 for $f2 in 1:2}, nominal = {0.1 for $f1 in 1:2}) (27|32) [DSTA] (1) Real Compressor.s_in (min = -1e7, max = 1e7, nominal = 1000.0) (28|33) [ALGB] (1) Real Compressor.omega (29|34) [DSTA] (1) stream Real SourceP1.flange.h_outflow (start = 3e5, min = -1e10, max = 1e10, nominal = 1e5) (30|35) [DSTA] (1) Real Compressor.gas_in.T (start = Compressor.Tstart_in, min = 200.0, max = 6000.0, nominal = 500.0, StateSelect = default) (31|36) [ALGB] (1) flow Real Inertia1.flange_a.tau (32|37) [DSTA] (2) Real[2] SourceP1.gas.X (start = {0.768, 0.232}, min = {0.0 for $f3 in 1:2}, max = {1.0 for $f2 in 1:2}, nominal = {0.1 for $f1 in 1:2}) (33|39) [ALGB] (1) Real Inertia1.a (34|40) [ALGB] (1) Real Compressor.PR (35|41) [ALGB] (1) Real Compressor.gas_in.MM (min = 0.001, max = 0.25, nominal = 0.032) (36|42) [DSTA] (2) Real[2] Compressor.gas_in.state.X (start = {0.768, 0.232}, min = {0.0 for $f3 in 1:2}, max = {1.0 for $f2 in 1:2}, nominal = {0.1 for $f1 in 1:2}) (37|44) [ALGB] (1) Real Compressor.beta (start = 3.0) (38|45) [ALGB] (1) Real Compressor.gas_iso.R_s (start = 1000.0, min = 0.0, max = 1e7, nominal = 1000.0) (39|46) [ALGB] (1) Real Compressor.tau (40|47) [ALGB] (2) Real[2] SourceP1.gas.state.X (start = {0.768, 0.232}, min = {0.0 for $f3 in 1:2}, max = {1.0 for $f2 in 1:2}, nominal = {0.1 for $f1 in 1:2}) (41|49) [DSTA] (1) Real Compressor.gas_iso.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6) (42|50) [DER-] (1) Real $DER.Inertia1.w (43|51) [ALGB] (1) Real Compressor.hout (start = 3e5, min = -1e10, max = 1e10, nominal = 1e5) (44|52) [DDER] (2) Real[2] $DER.Compressor.gas_iso.X (StateSelect = avoid) (45|54) [DDER] (2) stream Real[2] $DER.SourceP1.flange.Xi_outflow (StateSelect = avoid) (46|56) [DDER] (1) Real $DER.Compressor.gas_iso.state.p (StateSelect = avoid) (47|57) [DDER] (2) Real[2] $DER.Compressor.gas_iso.state.X (StateSelect = avoid) (48|59) [DER-] (1) Real $DER.Compressor.gas_iso.state.T (49|60) [DDER] (1) Real $DER.Compressor.gas_in.state.p (StateSelect = avoid) (50|61) [DER-] (1) Real $DER.Compressor.gas_in.state.T (51|62) [DDER] (1) Real $DER.Compressor.s_in (StateSelect = avoid) (52|63) [DDER] (2) Real[2] $DER.Compressor.gas_iso.Xi (StateSelect = avoid) (53|65) [DDER] (2) Real[2] $DER.Compressor.gas_in.X (StateSelect = avoid) (54|67) [DDER] (2) Real[2] $DER.Compressor.gas_in.state.X (StateSelect = avoid) (55|69) [DDER] (1) Real $DER.Compressor.gas_in.T (StateSelect = avoid) (56|70) [DDER] (1) stream Real $DER.SourceP1.flange.h_outflow (StateSelect = avoid) (57|71) [DDER] (2) Real[2] $DER.SourceP1.gas.X (StateSelect = avoid) System Equations (61/74) ************************** (1|1) [SCAL] (1) Compressor.gas_in.MM = 1/sum(Compressor.gas_in.state.X[j] / ({0.0280134, 0.0319988})[j] for j in 1:2) ($RES_AUX_144) (2|2) [SCAL] (1) Compressor.gas_iso.Xi[1] = SourceP1.flange.Xi_outflow[1] ($RES_SIM_155) (3|3) [SCAL] (1) Compressor.gas_iso.Xi[2] = SourceP1.flange.Xi_outflow[2] ($RES_SIM_156) (4|4) [SCAL] (1) SourceP1.flange.h_outflow = ThermoPower.Test.GasComponents.TestCompressorInertia.SourceP1.Medium.h_TX(SourceP1.T, SourceP1.gas.X, true, Modelica.Media.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_147) (5|5) [SCAL] (1) SourceP1.gas.MM = 1/sum(SourceP1.gas.state.X[j] / ({0.0280134, 0.0319988})[j] for j in 1:2) ($RES_AUX_148) (6|6) [SCAL] (1) Compressor.phic = ($FUN_13 * Compressor.w) / SourceP1.p0 ($RES_SIM_33) (7|7) [SCAL] (1) Compressor.N_T = (100.0 * Compressor.omega) / (Compressor.N_T_design * $FUN_13) ($RES_SIM_34) (8|8) [SCAL] (1) Compressor.N_T_design = Compressor.Ndesign / $FUN_12 ($RES_SIM_35) (9|9) [ARRY] (2) SourceP1.flange.Xi_outflow = SourceP1.gas.X[{1, 2}] ($RES_SIM_100) (10|11) [ARRY] (2) Compressor.gas_iso.Xi = Compressor.gas_in.X[{1, 2}] ($RES_SIM_53) (11|13) [ARRY] (2) SourceP1.gas.state.X = SourceP1.gas.X ($RES_SIM_101) (12|15) [ARRY] (2) Compressor.gas_in.state.X = Compressor.gas_in.X ($RES_SIM_54) (13|17) [SCAL] (1) Compressor.gas_in.state.p = SourceP1.p0 ($RES_SIM_55) (14|18) [SCAL] (1) Compressor.gas_in.state.T = Compressor.gas_in.T ($RES_SIM_56) (15|19) [SCAL] (1) SourceP1.gas.d = SourceP1.p0 / (SourceP1.T * SourceP1.gas.R_s) ($RES_SIM_104) (16|20) [SCAL] (1) Compressor.gas_in.d = SourceP1.p0 / (Compressor.gas_in.T * Compressor.gas_in.R_s) ($RES_SIM_57) (17|21) [SCAL] (1) SourceP1.gas.u = SourceP1.flange.h_outflow - SourceP1.gas.R_s * SourceP1.T ($RES_SIM_105) (18|22) [SCAL] (1) Compressor.gas_in.u = SourceP1.flange.h_outflow - Compressor.gas_in.R_s * Compressor.gas_in.T ($RES_SIM_58) (19|23) [SCAL] (1) SourceP1.gas.R_s = {296.80474344420884, 259.8381814318037} * SourceP1.gas.X ($RES_SIM_106) (20|24) [SCAL] (1) Compressor.gas_in.R_s = {296.80474344420884, 259.8381814318037} * Compressor.gas_in.X ($RES_SIM_59) (21|25) [ARRY] (2) SourceP1.flange.Xi_outflow = SourceP1.Xnom[{1, 2}] ($RES_SIM_92) (22|27) [SCAL] (1) Compressor.s_in = sum((if noEvent(Compressor.gas_iso.state.T < 1000.0) then ({296.80474344420884, 259.8381814318037})[i] * ((({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 3] * log(Compressor.gas_iso.state.T) + ({{710.846086, -10.76003744}, {-3391.45487, 18.4969947}})[i, 2] + Compressor.gas_iso.state.T * (({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 4] + Compressor.gas_iso.state.T * (0.5 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 5] + Compressor.gas_iso.state.T * (0.3333333333333333 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 6] + 0.25 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 7] * Compressor.gas_iso.state.T)))) - (({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 2] / Compressor.gas_iso.state.T + (0.5 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 1]) / (Compressor.gas_iso.state.T * Compressor.gas_iso.state.T))) else ({296.80474344420884, 259.8381814318037})[i] * ((({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 3] * log(Compressor.gas_iso.state.T) + ({{12832.10415, -15.86640027}, {-16890.10929, 17.38716506}})[i, 2] + Compressor.gas_iso.state.T * (({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 4] + Compressor.gas_iso.state.T * (0.5 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 5] + Compressor.gas_iso.state.T * (0.3333333333333333 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 6] + 0.25 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 7] * Compressor.gas_iso.state.T)))) - (({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 2] / Compressor.gas_iso.state.T + (0.5 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 1]) / (Compressor.gas_iso.state.T * Compressor.gas_iso.state.T)))) * Compressor.gas_iso.state.X[i] for i in 1:2) - sum(Compressor.gas_iso.state.X[i] * 8.31446261815324 / ({0.0280134, 0.0319988})[i] * (if noEvent(Compressor.gas_iso.state.X[i] < 2.220446049250313e-16) then (ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.massToMoleFractions(Compressor.gas_iso.state.X, {0.0280134, 0.0319988}))[i] else log(9.869232667160129e-6 * Compressor.gas_iso.state.p * (ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.massToMoleFractions(Compressor.gas_iso.state.X, {0.0280134, 0.0319988}))[i])) for i in 1:2) ($RES_AUX_134) (23|28) [SCAL] (1) Compressor.s_in = sum((if noEvent(Compressor.gas_in.state.T < 1000.0) then ({296.80474344420884, 259.8381814318037})[i] * ((({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 3] * log(Compressor.gas_in.state.T) + ({{710.846086, -10.76003744}, {-3391.45487, 18.4969947}})[i, 2] + Compressor.gas_in.state.T * (({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 4] + Compressor.gas_in.state.T * (0.5 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 5] + Compressor.gas_in.state.T * (0.3333333333333333 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 6] + 0.25 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 7] * Compressor.gas_in.state.T)))) - (({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 2] / Compressor.gas_in.state.T + (0.5 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 1]) / (Compressor.gas_in.state.T * Compressor.gas_in.state.T))) else ({296.80474344420884, 259.8381814318037})[i] * ((({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 3] * log(Compressor.gas_in.state.T) + ({{12832.10415, -15.86640027}, {-16890.10929, 17.38716506}})[i, 2] + Compressor.gas_in.state.T * (({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 4] + Compressor.gas_in.state.T * (0.5 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 5] + Compressor.gas_in.state.T * (0.3333333333333333 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 6] + 0.25 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 7] * Compressor.gas_in.state.T)))) - (({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 2] / Compressor.gas_in.state.T + (0.5 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 1]) / (Compressor.gas_in.state.T * Compressor.gas_in.state.T)))) * Compressor.gas_in.state.X[i] for i in 1:2) - sum(Compressor.gas_in.state.X[i] * 8.31446261815324 / ({0.0280134, 0.0319988})[i] * (if noEvent(Compressor.gas_in.state.X[i] < 2.220446049250313e-16) then (ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.massToMoleFractions(Compressor.gas_in.state.X, {0.0280134, 0.0319988}))[i] else log(9.869232667160129e-6 * Compressor.gas_in.state.p * (ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.massToMoleFractions(Compressor.gas_in.state.X, {0.0280134, 0.0319988}))[i])) for i in 1:2) ($RES_AUX_135) (24|29) [SCAL] (1) $FUN_13 = sqrt(Compressor.gas_in.T) ($RES_AUX_136) (25|30) [SCAL] (1) $FUN_12 = sqrt(Compressor.Tdes_in) ($RES_AUX_137) (26|31) [SCAL] (1) Compressor.phic = Modelica.Blocks.Tables.Internal.getTable2DValue(Compressor.Phic.tableID, Compressor.beta, Compressor.N_T) ($RES_AUX_138) (27|32) [SCAL] (1) Compressor.PR = Modelica.Blocks.Tables.Internal.getTable2DValue(Compressor.PressRatio.tableID, Compressor.beta, Compressor.N_T) ($RES_AUX_139) (28|33) [ARRY] (2) Compressor.gas_iso.Xi = Compressor.gas_iso.X[{1, 2}] ($RES_SIM_41) (29|35) [ARRY] (2) Compressor.gas_iso.state.X = Compressor.gas_iso.X ($RES_SIM_42) (30|37) [SCAL] (1) Compressor.gas_iso.state.p = SinkP1.p0 ($RES_SIM_43) (31|38) [SCAL] (1) Compressor.gas_iso.state.T = Compressor.gas_iso.T ($RES_SIM_44) (32|39) [SCAL] (1) Compressor.gas_iso.d = SinkP1.p0 / (Compressor.gas_iso.T * Compressor.gas_iso.R_s) ($RES_SIM_45) (33|40) [SCAL] (1) Compressor.gas_iso.u = Compressor.gas_iso.h - Compressor.gas_iso.R_s * Compressor.gas_iso.T ($RES_SIM_46) (34|41) [SCAL] (1) Compressor.gas_iso.R_s = {296.80474344420884, 259.8381814318037} * Compressor.gas_iso.X ($RES_SIM_47) (35|42) [SCAL] (1) Inertia1.J * Inertia1.a = Inertia1.flange_a.tau ($RES_SIM_63) (36|43) [SCAL] (1) Inertia1.a = $DER.Inertia1.w ($RES_SIM_64) (37|44) [SCAL] (1) Compressor.hout - SourceP1.flange.h_outflow = (1/Compressor.eta) * (Compressor.gas_iso.h - SourceP1.flange.h_outflow) ($RES_SIM_8) (38|45) [SCAL] (1) Inertia1.w = $DER.Compressor.phi ($RES_SIM_65) (39|46) [SCAL] (1) Compressor.w * (Compressor.hout - SourceP1.flange.h_outflow) = Compressor.omega * Compressor.tau * Compressor.eta_mech ($RES_SIM_6) (40|47) [SCAL] (1) Compressor.PR = SinkP1.p0 / SourceP1.p0 ($RES_SIM_5) (41|48) [SCAL] (1) -Inertia1.flange_a.tau = Compressor.tau ($RES_SIM_2) (42|49) [SCAL] (1) $DER.Compressor.phi = Compressor.omega ($RES_SIM_1) (43|50) [SCAL] (1) Compressor.eta = Modelica.Blocks.Tables.Internal.getTable2DValue(Compressor.Eta.tableID, Compressor.beta, Compressor.N_T) ($RES_AUX_140) (44|51) [SCAL] (1) Compressor.gas_iso.h = ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.h_TX(Compressor.gas_iso.T, Compressor.gas_iso.X, true, Modelica.Media.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_141) (45|52) [SCAL] (1) Compressor.gas_iso.MM = 1/sum(Compressor.gas_iso.state.X[j] / ({0.0280134, 0.0319988})[j] for j in 1:2) ($RES_AUX_142) (46|53) [SCAL] (1) SourceP1.flange.h_outflow = ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.h_TX(Compressor.gas_in.T, Compressor.gas_in.X, true, Modelica.Media.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_143) (47|54) [SCAL] (1) $DER.Compressor.gas_in.state.p = 0.0 ($RES_SIM_163) (48|55) [SCAL] (1) $DER.Compressor.gas_iso.Xi[1] = $DER.SourceP1.flange.Xi_outflow[1] ($RES_SIM_164) (49|56) [ARRY] (2) $DER.Compressor.gas_iso.Xi = $DER.Compressor.gas_iso.X[{1, 2}] ($RES_SIM_165) (50|58) [ARRY] (2) $DER.Compressor.gas_iso.state.X = $DER.Compressor.gas_iso.X ($RES_SIM_166) (51|60) [SCAL] (1) $DER.Compressor.gas_iso.Xi[2] = $DER.SourceP1.flange.Xi_outflow[2] ($RES_SIM_167) (52|61) [SCAL] (1) $DER.Compressor.gas_iso.state.p = 0.0 ($RES_SIM_168) (53|62) [ARRY] (2) $DER.SourceP1.flange.Xi_outflow = {0.0, 0.0} ($RES_SIM_169) (54|64) [SCAL] (1) $DER.Compressor.s_in = sum((if noEvent(Compressor.gas_iso.state.T < 1000.0) then ({296.80474344420884, 259.8381814318037})[i] * (($DER.Compressor.gas_iso.state.T * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 2]) / Compressor.gas_iso.state.T ^ 2.0 + (0.5 * ($DER.Compressor.gas_iso.state.T * Compressor.gas_iso.state.T + Compressor.gas_iso.state.T * $DER.Compressor.gas_iso.state.T) * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 1]) / (Compressor.gas_iso.state.T * Compressor.gas_iso.state.T) ^ 2.0 + ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 3] * ((1/Compressor.gas_iso.state.T) * $DER.Compressor.gas_iso.state.T) + ($DER.Compressor.gas_iso.state.T * (({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 4] + Compressor.gas_iso.state.T * (0.5 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 5] + Compressor.gas_iso.state.T * (0.3333333333333333 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 6] + 0.25 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 7] * Compressor.gas_iso.state.T))) + Compressor.gas_iso.state.T * ($DER.Compressor.gas_iso.state.T * (0.5 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 5] + Compressor.gas_iso.state.T * (0.3333333333333333 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 6] + 0.25 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 7] * Compressor.gas_iso.state.T)) + Compressor.gas_iso.state.T * ($DER.Compressor.gas_iso.state.T * (0.3333333333333333 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 6] + 0.25 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 7] * Compressor.gas_iso.state.T) + Compressor.gas_iso.state.T * (0.25 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 7] * $DER.Compressor.gas_iso.state.T))))) else ({296.80474344420884, 259.8381814318037})[i] * (($DER.Compressor.gas_iso.state.T * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 2]) / Compressor.gas_iso.state.T ^ 2.0 + (0.5 * ($DER.Compressor.gas_iso.state.T * Compressor.gas_iso.state.T + Compressor.gas_iso.state.T * $DER.Compressor.gas_iso.state.T) * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 1]) / (Compressor.gas_iso.state.T * Compressor.gas_iso.state.T) ^ 2.0 + ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 3] * ((1/Compressor.gas_iso.state.T) * $DER.Compressor.gas_iso.state.T) + ($DER.Compressor.gas_iso.state.T * (({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 4] + Compressor.gas_iso.state.T * (0.5 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 5] + Compressor.gas_iso.state.T * (0.3333333333333333 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 6] + 0.25 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 7] * Compressor.gas_iso.state.T))) + Compressor.gas_iso.state.T * ($DER.Compressor.gas_iso.state.T * (0.5 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 5] + Compressor.gas_iso.state.T * (0.3333333333333333 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 6] + 0.25 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 7] * Compressor.gas_iso.state.T)) + Compressor.gas_iso.state.T * ($DER.Compressor.gas_iso.state.T * (0.3333333333333333 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 6] + 0.25 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 7] * Compressor.gas_iso.state.T) + Compressor.gas_iso.state.T * (0.25 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 7] * $DER.Compressor.gas_iso.state.T)))))) * Compressor.gas_iso.state.X[i] + (if noEvent(Compressor.gas_iso.state.T < 1000.0) then ({296.80474344420884, 259.8381814318037})[i] * ((({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 3] * log(Compressor.gas_iso.state.T) + ({{710.846086, -10.76003744}, {-3391.45487, 18.4969947}})[i, 2] + Compressor.gas_iso.state.T * (({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 4] + Compressor.gas_iso.state.T * (0.5 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 5] + Compressor.gas_iso.state.T * (0.3333333333333333 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 6] + 0.25 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 7] * Compressor.gas_iso.state.T)))) - (({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 2] / Compressor.gas_iso.state.T + (0.5 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 1]) / (Compressor.gas_iso.state.T * Compressor.gas_iso.state.T))) else ({296.80474344420884, 259.8381814318037})[i] * ((({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 3] * log(Compressor.gas_iso.state.T) + ({{12832.10415, -15.86640027}, {-16890.10929, 17.38716506}})[i, 2] + Compressor.gas_iso.state.T * (({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 4] + Compressor.gas_iso.state.T * (0.5 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 5] + Compressor.gas_iso.state.T * (0.3333333333333333 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 6] + 0.25 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 7] * Compressor.gas_iso.state.T)))) - (({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 2] / Compressor.gas_iso.state.T + (0.5 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 1]) / (Compressor.gas_iso.state.T * Compressor.gas_iso.state.T)))) * $DER.Compressor.gas_iso.state.X[i] for i in 1:2) - sum(($DER.Compressor.gas_iso.state.X[i] * 8.31446261815324 * ({0.0280134, 0.0319988})[i]) / ({0.0280134, 0.0319988})[i] ^ 2.0 * (if noEvent(Compressor.gas_iso.state.X[i] < 2.220446049250313e-16) then (ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.massToMoleFractions(Compressor.gas_iso.state.X, {0.0280134, 0.0319988}))[i] else log(9.869232667160129e-6 * Compressor.gas_iso.state.p * (ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.massToMoleFractions(Compressor.gas_iso.state.X, {0.0280134, 0.0319988}))[i])) + Compressor.gas_iso.state.X[i] * 8.31446261815324 / ({0.0280134, 0.0319988})[i] * (if noEvent(Compressor.gas_iso.state.X[i] < 2.220446049250313e-16) then ($fDER0.ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.massToMoleFractions(Compressor.gas_iso.state.X, {0.0280134, 0.0319988}, $DER.Compressor.gas_iso.state.X, {0.0, 0.0}))[i] else (1/(9.869232667160129e-6 * Compressor.gas_iso.state.p * (ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.massToMoleFractions(Compressor.gas_iso.state.X, {0.0280134, 0.0319988}))[i])) * (9.869232667160129e-6 * $DER.Compressor.gas_iso.state.p * (ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.massToMoleFractions(Compressor.gas_iso.state.X, {0.0280134, 0.0319988}))[i] + 9.869232667160129e-6 * Compressor.gas_iso.state.p * ($fDER0.ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.massToMoleFractions(Compressor.gas_iso.state.X, {0.0280134, 0.0319988}, $DER.Compressor.gas_iso.state.X, {0.0, 0.0}))[i])) for i in 1:2) ($RES_SIM_170) (55|65) [SCAL] (1) $DER.Compressor.s_in = sum((if noEvent(Compressor.gas_in.state.T < 1000.0) then ({296.80474344420884, 259.8381814318037})[i] * (($DER.Compressor.gas_in.state.T * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 2]) / Compressor.gas_in.state.T ^ 2.0 + (0.5 * ($DER.Compressor.gas_in.state.T * Compressor.gas_in.state.T + Compressor.gas_in.state.T * $DER.Compressor.gas_in.state.T) * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 1]) / (Compressor.gas_in.state.T * Compressor.gas_in.state.T) ^ 2.0 + ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 3] * ((1/Compressor.gas_in.state.T) * $DER.Compressor.gas_in.state.T) + ($DER.Compressor.gas_in.state.T * (({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 4] + Compressor.gas_in.state.T * (0.5 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 5] + Compressor.gas_in.state.T * (0.3333333333333333 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 6] + 0.25 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 7] * Compressor.gas_in.state.T))) + Compressor.gas_in.state.T * ($DER.Compressor.gas_in.state.T * (0.5 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 5] + Compressor.gas_in.state.T * (0.3333333333333333 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 6] + 0.25 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 7] * Compressor.gas_in.state.T)) + Compressor.gas_in.state.T * ($DER.Compressor.gas_in.state.T * (0.3333333333333333 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 6] + 0.25 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 7] * Compressor.gas_in.state.T) + Compressor.gas_in.state.T * (0.25 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 7] * $DER.Compressor.gas_in.state.T))))) else ({296.80474344420884, 259.8381814318037})[i] * (($DER.Compressor.gas_in.state.T * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 2]) / Compressor.gas_in.state.T ^ 2.0 + (0.5 * ($DER.Compressor.gas_in.state.T * Compressor.gas_in.state.T + Compressor.gas_in.state.T * $DER.Compressor.gas_in.state.T) * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 1]) / (Compressor.gas_in.state.T * Compressor.gas_in.state.T) ^ 2.0 + ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 3] * ((1/Compressor.gas_in.state.T) * $DER.Compressor.gas_in.state.T) + ($DER.Compressor.gas_in.state.T * (({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 4] + Compressor.gas_in.state.T * (0.5 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 5] + Compressor.gas_in.state.T * (0.3333333333333333 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 6] + 0.25 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 7] * Compressor.gas_in.state.T))) + Compressor.gas_in.state.T * ($DER.Compressor.gas_in.state.T * (0.5 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 5] + Compressor.gas_in.state.T * (0.3333333333333333 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 6] + 0.25 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 7] * Compressor.gas_in.state.T)) + Compressor.gas_in.state.T * ($DER.Compressor.gas_in.state.T * (0.3333333333333333 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 6] + 0.25 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 7] * Compressor.gas_in.state.T) + Compressor.gas_in.state.T * (0.25 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 7] * $DER.Compressor.gas_in.state.T)))))) * Compressor.gas_in.state.X[i] + (if noEvent(Compressor.gas_in.state.T < 1000.0) then ({296.80474344420884, 259.8381814318037})[i] * ((({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 3] * log(Compressor.gas_in.state.T) + ({{710.846086, -10.76003744}, {-3391.45487, 18.4969947}})[i, 2] + Compressor.gas_in.state.T * (({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 4] + Compressor.gas_in.state.T * (0.5 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 5] + Compressor.gas_in.state.T * (0.3333333333333333 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 6] + 0.25 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 7] * Compressor.gas_in.state.T)))) - (({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 2] / Compressor.gas_in.state.T + (0.5 * ({{22103.71497, -381.846182, 6.08273836, -0.00853091441, 1.384646189e-5, -9.62579362e-9, 2.519705809e-12}, {-34255.6342, 484.700097, 1.119010961, 0.00429388924, -6.83630052e-7, -2.0233727e-9, 1.039040018e-12}})[i, 1]) / (Compressor.gas_in.state.T * Compressor.gas_in.state.T))) else ({296.80474344420884, 259.8381814318037})[i] * ((({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 3] * log(Compressor.gas_in.state.T) + ({{12832.10415, -15.86640027}, {-16890.10929, 17.38716506}})[i, 2] + Compressor.gas_in.state.T * (({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 4] + Compressor.gas_in.state.T * (0.5 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 5] + Compressor.gas_in.state.T * (0.3333333333333333 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 6] + 0.25 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 7] * Compressor.gas_in.state.T)))) - (({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 2] / Compressor.gas_in.state.T + (0.5 * ({{587712.406, -2239.249073, 6.06694922, -6.1396855e-4, 1.491806679e-7, -1.923105485e-11, 1.061954386e-15}, {-1.037939022e6, 2344.830282, 1.819732036, 0.001267847582, -2.188067988e-7, 2.053719572e-11, -8.193467050000001e-16}})[i, 1]) / (Compressor.gas_in.state.T * Compressor.gas_in.state.T)))) * $DER.Compressor.gas_in.state.X[i] for i in 1:2) - sum(($DER.Compressor.gas_in.state.X[i] * 8.31446261815324 * ({0.0280134, 0.0319988})[i]) / ({0.0280134, 0.0319988})[i] ^ 2.0 * (if noEvent(Compressor.gas_in.state.X[i] < 2.220446049250313e-16) then (ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.massToMoleFractions(Compressor.gas_in.state.X, {0.0280134, 0.0319988}))[i] else log(9.869232667160129e-6 * Compressor.gas_in.state.p * (ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.massToMoleFractions(Compressor.gas_in.state.X, {0.0280134, 0.0319988}))[i])) + Compressor.gas_in.state.X[i] * 8.31446261815324 / ({0.0280134, 0.0319988})[i] * (if noEvent(Compressor.gas_in.state.X[i] < 2.220446049250313e-16) then ($fDER0.ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.massToMoleFractions(Compressor.gas_in.state.X, {0.0280134, 0.0319988}, $DER.Compressor.gas_in.state.X, {0.0, 0.0}))[i] else (1/(9.869232667160129e-6 * Compressor.gas_in.state.p * (ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.massToMoleFractions(Compressor.gas_in.state.X, {0.0280134, 0.0319988}))[i])) * (9.869232667160129e-6 * $DER.Compressor.gas_in.state.p * (ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.massToMoleFractions(Compressor.gas_in.state.X, {0.0280134, 0.0319988}))[i] + 9.869232667160129e-6 * Compressor.gas_in.state.p * ($fDER0.ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.massToMoleFractions(Compressor.gas_in.state.X, {0.0280134, 0.0319988}, $DER.Compressor.gas_in.state.X, {0.0, 0.0}))[i])) for i in 1:2) ($RES_SIM_171) (56|66) [ARRY] (2) $DER.Compressor.gas_iso.Xi = $DER.Compressor.gas_in.X[{1, 2}] ($RES_SIM_172) (57|68) [ARRY] (2) $DER.Compressor.gas_in.state.X = $DER.Compressor.gas_in.X ($RES_SIM_173) (58|70) [SCAL] (1) $DER.Compressor.gas_in.state.T = $DER.Compressor.gas_in.T ($RES_SIM_174) (59|71) [SCAL] (1) $DER.SourceP1.flange.h_outflow = $fDER0.ThermoPower.Test.GasComponents.TestCompressorInertia.SourceP1.Medium.h_TX(SourceP1.T, SourceP1.gas.X, true, Modelica.Media.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0, $DER.SourceP1.gas.X, 0.0) ($RES_SIM_175) (60|72) [SCAL] (1) $DER.SourceP1.flange.h_outflow = $fDER0.ThermoPower.Test.GasComponents.TestCompressorInertia.Compressor.Medium.h_TX(Compressor.gas_in.T, Compressor.gas_in.X, true, Modelica.Media.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0, $DER.Compressor.gas_in.T, $DER.Compressor.gas_in.X, 0.0) ($RES_SIM_176) (61|73) [ARRY] (2) $DER.SourceP1.flange.Xi_outflow = $DER.SourceP1.gas.X[{1, 2}] ($RES_SIM_177) =================== Scalar Matching =================== variable to equation ********************** var 1 --> eqn 24 var 2 --> eqn 23 var 3 --> eqn 7 var 4 --> eqn 20 var 5 --> eqn 21 var 6 --> eqn 5 var 7 --> eqn 39 var 8 --> eqn 38 var 9 --> eqn 22 var 10 --> eqn 45 var 11 --> eqn 19 var 12 --> eqn 11 var 13 --> eqn 12 var 14 --> eqn 2 var 15 --> eqn 3 var 16 --> eqn 25 var 17 --> eqn 26 var 18 --> eqn 6 var 19 --> eqn 50 var 20 --> eqn 40 var 21 --> eqn 17 var 22 --> eqn 29 var 23 --> eqn 51 var 24 --> eqn 35 var 25 --> eqn 27 var 26 --> eqn 30 var 27 --> eqn 31 var 28 --> eqn 52 var 29 --> eqn 8 var 30 --> eqn 33 var 31 --> eqn 34 var 32 --> eqn 28 var 33 --> eqn 49 var 34 --> eqn 4 var 35 --> eqn 18 var 36 --> eqn 48 var 37 --> eqn 9 var 38 --> eqn 10 var 39 --> eqn 42 var 40 --> eqn 47 var 41 --> eqn 1 var 42 --> eqn 15 var 43 --> eqn 16 var 44 --> eqn 32 var 45 --> eqn 41 var 46 --> eqn 46 var 47 --> eqn 13 var 48 --> eqn 14 var 49 --> eqn 37 var 50 --> eqn 43 var 51 --> eqn 44 var 52 --> eqn 56 var 53 --> eqn 57 var 54 --> eqn 62 var 55 --> eqn 63 var 56 --> eqn 61 var 57 --> eqn 58 var 58 --> eqn 59 var 59 --> eqn 64 var 60 --> eqn 54 var 61 --> eqn 70 var 62 --> eqn 65 var 63 --> eqn 55 var 64 --> eqn 60 var 65 --> eqn 66 var 66 --> eqn 67 var 67 --> eqn 68 var 68 --> eqn 69 var 69 --> eqn 72 var 70 --> eqn 71 var 71 --> eqn 73 var 72 --> eqn 74 equation to variable ********************** eqn 1 --> var 41 eqn 2 --> var 14 eqn 3 --> var 15 eqn 4 --> var 34 eqn 5 --> var 6 eqn 6 --> var 18 eqn 7 --> var 3 eqn 8 --> var 29 eqn 9 --> var 37 eqn 10 --> var 38 eqn 11 --> var 12 eqn 12 --> var 13 eqn 13 --> var 47 eqn 14 --> var 48 eqn 15 --> var 42 eqn 16 --> var 43 eqn 17 --> var 21 eqn 18 --> var 35 eqn 19 --> var 11 eqn 20 --> var 4 eqn 21 --> var 5 eqn 22 --> var 9 eqn 23 --> var 2 eqn 24 --> var 1 eqn 25 --> var 16 eqn 26 --> var 17 eqn 27 --> var 25 eqn 28 --> var 32 eqn 29 --> var 22 eqn 30 --> var 26 eqn 31 --> var 27 eqn 32 --> var 44 eqn 33 --> var 30 eqn 34 --> var 31 eqn 35 --> var 24 eqn 36 --> var -1 eqn 37 --> var 49 eqn 38 --> var 8 eqn 39 --> var 7 eqn 40 --> var 20 eqn 41 --> var 45 eqn 42 --> var 39 eqn 43 --> var 50 eqn 44 --> var 51 eqn 45 --> var 10 eqn 46 --> var 46 eqn 47 --> var 40 eqn 48 --> var 36 eqn 49 --> var 33 eqn 50 --> var 19 eqn 51 --> var 23 eqn 52 --> var 28 eqn 53 --> var -1 eqn 54 --> var 60 eqn 55 --> var 63 eqn 56 --> var 52 eqn 57 --> var 53 eqn 58 --> var 57 eqn 59 --> var 58 eqn 60 --> var 64 eqn 61 --> var 56 eqn 62 --> var 54 eqn 63 --> var 55 eqn 64 --> var 59 eqn 65 --> var 62 eqn 66 --> var 65 eqn 67 --> var 66 eqn 68 --> var 67 eqn 69 --> var 68 eqn 70 --> var 61 eqn 71 --> var 70 eqn 72 --> var 69 eqn 73 --> var 71 eqn 74 --> var 72 " [Timeout remaining time 660] [Calling sys.exit(0), Time elapsed: 2.477142436429858] Failed to read output from testmodel.py, exit status != 0: 0.287849728949368 0.528829675 0.35482865799999996 Calling exit ...