Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries --ompython_omhome=/usr Buildings_12_Buildings.HeatTransfer.Windows.BaseClasses.Examples.CenterOfGlass.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 0.001531/0.001531, allocations: 105.2 kB / 19.71 MB, free: 2.145 MB / 14.72 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 0.001708/0.001708, allocations: 207 kB / 23.01 MB, free: 4.965 MB / 14.72 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 1.465/1.465, allocations: 230.6 MB / 256.8 MB, free: 7.801 MB / 206.1 MB " [Timeout remaining time 178] loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 12.1.1-maint.12.x/package.mo", uses=false) [Timeout 180] "Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 12.1.1-maint.12.x/package.mo): time 3.268/3.268, allocations: 0.49 GB / 0.7958 GB, free: 35.54 MB / 0.6231 GB " [Timeout remaining time 176] Using package Buildings with version 12.1.1 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 12.1.1-maint.12.x/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(Buildings.HeatTransfer.Windows.BaseClasses.Examples.CenterOfGlass,tolerance=1e-06,outputFormat="mat",numberOfIntervals=2500,variableFilter="time|TAirOut.T|TAirRoo.T|sha.glass.1..port_a.T|sha.glass.1..port_b.T|sha.glass.2..port_a.T|sha.glass.2..port_b.T|nonSha.glass.1..port_a.T|nonSha.glass.1..port_b.T|nonSha.glass.2..port_a.T|nonSha.glass.2..port_b.T",fileNamePrefix="Buildings_12_Buildings.HeatTransfer.Windows.BaseClasses.Examples.CenterOfGlass") translateModel(Buildings.HeatTransfer.Windows.BaseClasses.Examples.CenterOfGlass,tolerance=1e-06,outputFormat="mat",numberOfIntervals=2500,variableFilter="time|TAirOut.T|TAirRoo.T|sha.glass.1..port_a.T|sha.glass.1..port_b.T|sha.glass.2..port_a.T|sha.glass.2..port_b.T|nonSha.glass.1..port_a.T|nonSha.glass.1..port_b.T|nonSha.glass.2..port_a.T|nonSha.glass.2..port_b.T",fileNamePrefix="Buildings_12_Buildings.HeatTransfer.Windows.BaseClasses.Examples.CenterOfGlass") [Timeout 300] "Notification: Performance of FrontEnd - Absyn->SCode: time 2.911e-05/2.911e-05, allocations: 2.281 kB / 1.155 GB, free: 25.16 MB / 0.9044 GB Notification: Performance of NFInst.instantiate(Buildings.HeatTransfer.Windows.BaseClasses.Examples.CenterOfGlass): time 0.006175/0.006204, allocations: 4.621 MB / 1.16 GB, free: 22.09 MB / 0.9044 GB Notification: Performance of NFInst.instExpressions: time 0.007335/0.01354, allocations: 4.285 MB / 1.164 GB, free: 19.21 MB / 0.9044 GB Notification: Performance of NFInst.updateImplicitVariability: time 0.000949/0.01449, allocations: 23.41 kB / 1.164 GB, free: 19.2 MB / 0.9044 GB Notification: Performance of NFTyping.typeComponents: time 0.002014/0.0165, allocations: 0.5747 MB / 1.164 GB, free: 18.93 MB / 0.9044 GB Notification: Performance of NFTyping.typeBindings: time 0.001557/0.01806, allocations: 418.9 kB / 1.165 GB, free: 18.66 MB / 0.9044 GB Notification: Performance of NFTyping.typeClassSections: time 0.002613/0.02067, allocations: 0.76 MB / 1.165 GB, free: 18.24 MB / 0.9044 GB Notification: Performance of NFFlatten.flatten: time 0.005147/0.02582, allocations: 3.487 MB / 1.169 GB, free: 16.75 MB / 0.9044 GB Notification: Performance of NFFlatten.resolveConnections: time 0.0006475/0.02647, allocations: 293.4 kB / 1.169 GB, free: 16.58 MB / 0.9044 GB Notification: Performance of NFEvalConstants.evaluate: time 0.002462/0.02893, allocations: 1.062 MB / 1.17 GB, free: 16.18 MB / 0.9044 GB Notification: Performance of NFSimplifyModel.simplify: time 0.001719/0.03065, allocations: 1.073 MB / 1.171 GB, free: 15.74 MB / 0.9044 GB Notification: Performance of NFPackage.collectConstants: time 0.0002199/0.03087, allocations: 116.1 kB / 1.171 GB, free: 15.74 MB / 0.9044 GB Notification: Performance of NFFlatten.collectFunctions: time 0.002533/0.0334, allocations: 0.6897 MB / 1.172 GB, free: 15.6 MB / 0.9044 GB Notification: Performance of combineBinaries: time 0.002971/0.03637, allocations: 2.92 MB / 1.175 GB, free: 13.89 MB / 0.9044 GB Notification: Performance of replaceArrayConstructors: time 0.001711/0.03808, allocations: 1.789 MB / 1.177 GB, free: 12.76 MB / 0.9044 GB Notification: Performance of NFVerifyModel.verify: time 0.0003634/0.03845, allocations: 91.91 kB / 1.177 GB, free: 12.76 MB / 0.9044 GB Notification: Performance of FrontEnd: time 0.0002577/0.03871, allocations: 35.42 kB / 1.177 GB, free: 12.74 MB / 0.9044 GB Notification: Model statistics after passing the front-end and creating the data structures used by the back-end: * Number of equations: 184 (161) * Number of variables: 184 (152) Notification: Performance of [SIM] Bindings: time 0.01177/0.05048, allocations: 10.84 MB / 1.187 GB, free: 6.164 MB / 0.9044 GB Notification: Performance of [SIM] FunctionAlias: time 0.001188/0.05166, allocations: 0.7132 MB / 1.188 GB, free: 5.766 MB / 0.9044 GB Notification: Performance of [SIM] Early Inline: time 0.005488/0.05715, allocations: 3.821 MB / 1.192 GB, free: 3.734 MB / 0.9044 GB Notification: Performance of [SIM] Simplify 1: time 0.001537/0.05869, allocations: 0.7441 MB / 1.192 GB, free: 3.348 MB / 0.9044 GB Warning: NBAlias.setStartFixed: Alias set with conflicting unfixed start values detected. Use -d=dumprepl for more information. Notification: Performance of [SIM] Alias: time 0.006435/0.06512, allocations: 3.461 MB / 1.196 GB, free: 1.371 MB / 0.9044 GB Notification: Performance of [SIM] Simplify 2: time 0.0013/0.06642, allocations: 0.6598 MB / 1.196 GB, free: 1.066 MB / 0.9044 GB Notification: Performance of [SIM] Remove Stream: time 0.0003966/0.06682, allocations: 292.1 kB / 1.197 GB, free: 0.8789 MB / 0.9044 GB Notification: Performance of [SIM] Detect States: time 0.0008756/0.06769, allocations: 0.7007 MB / 1.197 GB, free: 420 kB / 0.9044 GB Notification: Performance of [SIM] Events: time 0.0002724/0.06797, allocations: 117.5 kB / 1.198 GB, free: 360 kB / 0.9044 GB Notification: Performance of [SIM] Partitioning: time 0.001596/0.06956, allocations: 0.9797 MB / 1.199 GB, free: 15.94 MB / 0.92 GB Notification: Performance of [SIM] Causalize: time 0.004186/0.07375, allocations: 2.175 MB / 1.201 GB, free: 15.38 MB / 0.92 GB Notification: Performance of [SIM] After Index Reduction Inline: time 0.003772/0.07752, allocations: 2.291 MB / 1.203 GB, free: 14.23 MB / 0.92 GB Notification: Performance of [INI] Simplify: time 0.004713/0.08223, allocations: 1.891 MB / 1.205 GB, free: 13.25 MB / 0.92 GB Notification: Performance of [INI] Inline: time 0.01265/0.09489, allocations: 7.45 MB / 1.212 GB, free: 9.66 MB / 0.92 GB Notification: Performance of [INI] Partitioning: time 0.0003405/0.09523, allocations: 64.95 kB / 1.212 GB, free: 9.617 MB / 0.92 GB Notification: Performance of [INI] Cleanup: time 0.002302/0.09753, allocations: 1.161 MB / 1.213 GB, free: 8.977 MB / 0.92 GB Warning: NBResolveSingularities.balanceInitialization reports an overdetermined initialization! Checking for consistency is not yet supported, following equations had to be removed: [RECD] (9) sha.gas[1].gas = sha.glaSys.gas[1] ($RES_SIM_297) slice: {6}; [SCAL] (1) nonSha.gas[1].h = sqrt(nonSha.gas[1].A) ($RES_SIM_294); Error: Internal error NBSorting.tarjan failed to sort system: System Variables (201/313) **************************** (1|1) [ALGB] (1) Real sha.JOut_a (min = 0.0, nominal = 419.0) (2|2) [ALGB] (1) Real sha.JOut_b (min = 0.0, nominal = 419.0) (3|3) [ALGB] (2) Real[2] sha.glass.JIn_a (start = {5.6703744191844314e-8 * sha.glass[$glass1].A * 0.8 * 7.385154648771004e9 for $glass1 in 1:2}, min = {0.0 for $f2 in 1:2}, nominal = {419.0 for $f1 in 1:2}) (4|5) [ALGB] (2) Real[2] sha.glass.JIn_b (start = {5.6703744191844314e-8 * sha.glass[$glass1].A * 0.8 * 7.385154648771004e9 for $glass1 in 1:2}, min = {0.0 for $f2 in 1:2}, nominal = {419.0 for $f1 in 1:2}) (5|7) [ALGB] (2) Real[2] sha.glass.JOut_a (min = {0.0 for $f2 in 1:2}, nominal = {419.0 for $f1 in 1:2}) (6|9) [ALGB] (2) Real[2] sha.glass.JOut_b (min = {0.0 for $f2 in 1:2}, nominal = {419.0 for $f1 in 1:2}) (7|11) [ALGB] (2) Real[2] sha.glass.u (8|13) [ALGB] (2) Real[2] sha.glass.port_a.T (start = {293.15 for $f2 in 1:2}, min = {0.0 for $f3 in 1:2}, nominal = {300.0 for $f1 in 1:2}) (9|15) [ALGB] (2) flow Real[2] sha.glass.port_a.Q_flow (10|17) [ALGB] (2) Real[2] sha.glass.port_b.T (start = {293.15 for $f2 in 1:2}, min = {0.0 for $f3 in 1:2}, nominal = {300.0 for $f1 in 1:2}) (11|19) [ALGB] (2) flow Real[2] sha.glass.port_b.Q_flow (12|21) [ALGB] (2) protected Real[2] sha.glass.T4_a (start = {7.385154648771004e9 for $f2 in 1:2}, min = {1e8 for $f3 in 1:2}, nominal = {1e10 for $f1 in 1:2}) (13|23) [ALGB] (2) protected Real[2] sha.glass.T4_b (start = {7.385154648771004e9 for $f2 in 1:2}, min = {1e8 for $f3 in 1:2}, nominal = {1e10 for $f1 in 1:2}) (14|25) [ALGB] (2) protected Real[2] sha.glass.E_a (min = {0.0 for $f2 in 1:2}, nominal = {100.0 for $f1 in 1:2}) (15|27) [ALGB] (2) protected Real[2] sha.glass.E_b (min = {0.0 for $f2 in 1:2}, nominal = {100.0 for $f1 in 1:2}) (16|29) [ALGB] (1) Real[1] sha.gas.Q_flow (17|30) [ALGB] (1) Real[1] sha.gas.dT (start = {0.0 for $f1 in 1:1}) (18|31) [ALGB] (1) flow Real[1] sha.gas.port_b.Q_flow (19|32) [ALGB] (1) Real[1] sha.gas.u (20|33) [ALGB] (1) Real[1] sha.gas.hCon (start = {3.0 for $f1 in 1:1}, min = {0.0 for $f2 in 1:1}) (21|34) [ALGB] (1) Real[1] sha.gas.q_flow (22|35) [ALGB] (1) Real[1] sha.gas.Nu (min = {0.0 for $f1 in 1:1}) (23|36) [ALGB] (1) Real[1] sha.gas.Ra (min = {0.0 for $f1 in 1:1}) (24|37) [ALGB] (1) protected Real[1] sha.gas.T_a (start = {288.15 for $f2 in 1:1}, min = max({0.0 for $f3 in 1:1}, {0.0}), nominal = {300.0 for $f1 in 1:1}) (25|38) [ALGB] (1) protected Real[1] sha.gas.T_b (start = {288.15 for $f2 in 1:1}, min = max({0.0 for $f3 in 1:1}, {0.0}), nominal = {300.0 for $f1 in 1:1}) (26|39) [ALGB] (1) protected Real[1] sha.gas.T_m (start = {288.15 for $f2 in 1:1}, min = {0.0 for $f3 in 1:1}, nominal = {300.0 for $f1 in 1:1}) (27|40) [ALGB] (1) protected Real[1] sha.gas.deltaNu = {0.1 for $f1 in 1:1} (min = {0.01 for $f2 in 1:1}) (28|41) [ALGB] (1) protected Real[1] sha.gas.deltaRa = {100.0 for $f1 in 1:1} (min = {0.01 for $f2 in 1:1}) (29|42) [ALGB] (2) Real[2] sha.QAbs_flow (30|44) [ALGB] (1) Real uSha.y (min = -1.000002000004e-6, max = 1.0000010000019999) (31|45) [ALGB] (1) flow Real TAirOut.port.Q_flow (32|46) [ALGB] (1) flow Real TAirRoo.port.Q_flow (33|47) [ALGB] (1) Real radIn.JIn (start = 5.6703744191844314e-8 * radIn.A * 0.8 * 7.385154648771004e9, min = 0.0, nominal = 419.0) (34|48) [ALGB] (1) Real radIn.JOut (start = 5.6703744191844314e-8 * radIn.A * 0.8 * 7.385154648771004e9, min = 0.0, nominal = 419.0) (35|49) [ALGB] (1) flow Real radIn.heatPort.Q_flow (36|50) [ALGB] (1) protected Real radIn.T4 (start = 7.385154648771004e9, min = 1e8, nominal = 1e10) (37|51) [ALGB] (1) Real radShaInt.JOut_1 (min = 0.0, nominal = 419.0) (38|52) [ALGB] (1) Real radShaInt.JOut_2 (min = 0.0, nominal = 419.0) (39|53) [ALGB] (1) Real nonSha.JOut_a (min = 0.0, nominal = 419.0) (40|54) [ALGB] (1) Real nonSha.JOut_b (min = 0.0, nominal = 419.0) (41|55) [ALGB] (2) Real[2] nonSha.glass.JIn_a (start = {5.6703744191844314e-8 * nonSha.glass[$glass1].A * 0.8 * 7.385154648771004e9 for $glass1 in 1:2}, min = {0.0 for $f2 in 1:2}, nominal = {419.0 for $f1 in 1:2}) (42|57) [ALGB] (2) Real[2] nonSha.glass.JIn_b (start = {5.6703744191844314e-8 * nonSha.glass[$glass1].A * 0.8 * 7.385154648771004e9 for $glass1 in 1:2}, min = {0.0 for $f2 in 1:2}, nominal = {419.0 for $f1 in 1:2}) (43|59) [ALGB] (2) Real[2] nonSha.glass.JOut_a (min = {0.0 for $f2 in 1:2}, nominal = {419.0 for $f1 in 1:2}) (44|61) [ALGB] (2) Real[2] nonSha.glass.JOut_b (min = {0.0 for $f2 in 1:2}, nominal = {419.0 for $f1 in 1:2}) (45|63) [ALGB] (2) Real[2] nonSha.glass.u (46|65) [ALGB] (2) Real[2] nonSha.glass.port_a.T (start = {293.15 for $f2 in 1:2}, min = {0.0 for $f3 in 1:2}, nominal = {300.0 for $f1 in 1:2}) (47|67) [ALGB] (2) flow Real[2] nonSha.glass.port_a.Q_flow (48|69) [ALGB] (2) Real[2] nonSha.glass.port_b.T (start = {293.15 for $f2 in 1:2}, min = {0.0 for $f3 in 1:2}, nominal = {300.0 for $f1 in 1:2}) (49|71) [ALGB] (2) flow Real[2] nonSha.glass.port_b.Q_flow (50|73) [ALGB] (2) protected Real[2] nonSha.glass.T4_a (start = {7.385154648771004e9 for $f2 in 1:2}, min = {1e8 for $f3 in 1:2}, nominal = {1e10 for $f1 in 1:2}) (51|75) [ALGB] (2) protected Real[2] nonSha.glass.T4_b (start = {7.385154648771004e9 for $f2 in 1:2}, min = {1e8 for $f3 in 1:2}, nominal = {1e10 for $f1 in 1:2}) (52|77) [ALGB] (2) protected Real[2] nonSha.glass.E_a (min = {0.0 for $f2 in 1:2}, nominal = {100.0 for $f1 in 1:2}) (53|79) [ALGB] (2) protected Real[2] nonSha.glass.E_b (min = {0.0 for $f2 in 1:2}, nominal = {100.0 for $f1 in 1:2}) (54|81) [ALGB] (1) Real[1] nonSha.gas.Q_flow (55|82) [ALGB] (1) Real[1] nonSha.gas.dT (start = {0.0 for $f1 in 1:1}) (56|83) [ALGB] (1) flow Real[1] nonSha.gas.port_b.Q_flow (57|84) [ALGB] (1) Real[1] nonSha.gas.u (58|85) [ALGB] (1) Real[1] nonSha.gas.hCon (start = {3.0 for $f1 in 1:1}, min = {0.0 for $f2 in 1:1}) (59|86) [ALGB] (1) Real[1] nonSha.gas.q_flow (60|87) [ALGB] (1) Real[1] nonSha.gas.Nu (min = {0.0 for $f1 in 1:1}) (61|88) [ALGB] (1) Real[1] nonSha.gas.Ra (min = {0.0 for $f1 in 1:1}) (62|89) [ALGB] (1) protected Real[1] nonSha.gas.T_a (start = {288.15 for $f2 in 1:1}, min = max({0.0 for $f3 in 1:1}, {0.0}), nominal = {300.0 for $f1 in 1:1}) (63|90) [ALGB] (1) protected Real[1] nonSha.gas.T_b (start = {288.15 for $f2 in 1:1}, min = max({0.0 for $f3 in 1:1}, {0.0}), nominal = {300.0 for $f1 in 1:1}) (64|91) [ALGB] (1) protected Real[1] nonSha.gas.T_m (start = {288.15 for $f2 in 1:1}, min = {0.0 for $f3 in 1:1}, nominal = {300.0 for $f1 in 1:1}) (65|92) [ALGB] (1) protected Real[1] nonSha.gas.deltaNu = {0.1 for $f1 in 1:1} (min = {0.01 for $f2 in 1:1}) (66|93) [ALGB] (1) protected Real[1] nonSha.gas.deltaRa = {100.0 for $f1 in 1:1} (min = {0.01 for $f2 in 1:1}) (67|94) [ALGB] (1) Real nonSha.glass_a.T (start = 288.15, min = 0.0, nominal = 300.0) (68|95) [ALGB] (1) Real nonSha.glass_b.T (start = 288.15, min = 0.0, nominal = 300.0) (69|96) [ALGB] (2) Real[2] nonSha.QAbs_flow (70|98) [ALGB] (1) Real radShaOut.JOut_1 (min = 0.0, nominal = 419.0) (71|99) [ALGB] (1) Real radShaOut.JOut_2 (min = 0.0, nominal = 419.0) (72|100) [ALGB] (1) Real radOut.TRad4 (73|101) [ALGB] (1) Real radOut.TRad (start = 288.15, min = 0.0, nominal = 300.0) (74|102) [ALGB] (1) Real radOut.JOut (min = 0.0, nominal = 419.0) (75|103) [ALGB] (1) Real conRooSha.Q_flow (76|104) [ALGB] (1) Real conRooSha.dT (77|105) [ALGB] (1) Real conRooSha.solid.T (start = 288.15, min = 0.0, nominal = 300.0) (78|106) [ALGB] (1) Real conOutSha.Q_flow (79|107) [ALGB] (1) Real conOutSha.dT (start = 0.0) (80|108) [ALGB] (1) Real conOutSha.Gc (81|109) [ALGB] (1) Real conOutSha.solid.T (start = 288.15, min = 0.0, nominal = 300.0) (82|110) [ALGB] (1) Real conOutNonSha1.Q_flow (83|111) [ALGB] (1) Real conOutNonSha1.dT (start = 0.0) (84|112) [ALGB] (1) Real conOutNonSha1.Gc (85|113) [ALGB] (1) Real conRooNonSha.Q_flow (86|114) [ALGB] (1) Real conRooNonSha.dT (87|115) [ALGB] (2) Real[2] QAbs.y (88|117) [ALGB] (2) Real[2] sumJ.u (89|119) [ALGB] (1) Real $FUN_3 (90|120) [ALGB] (1) Real $FUN_2 (91|121) [ALGB] (1) Real $FUN_1 (92|122) [ALGB] (1) Real $FUN_6 (93|123) [ALGB] (1) Real $FUN_5 (94|124) [ALGB] (1) Real $FUN_4 (95|125) [DISC] (1) Boolean $TEV_1 (96|126) [DISC] (1) Boolean $TEV_0 (97|127) [PRMT] (1) Real radIn.heatPort.T = TRoo.k (fixed = true, start = 288.15, min = 0.0, nominal = 300.0) (98|128) [PRMT] (1) Real TRadRoo.port.T = TRoo.k (fixed = true, start = 288.15, min = 0.0, nominal = 300.0) (99|129) [PRMT] (1) Real conRooNonSha.fluid.T = TRoo.k (fixed = true, start = 288.15, min = 0.0, nominal = 300.0) (100|130) [PRMT] (1) Real conRooSha.fluid.T = TRoo.k (fixed = true, start = 288.15, min = 0.0, nominal = 300.0) (101|131) [PRMT] (1) Real TAirRoo.port.T = TRoo.k (fixed = true, start = 288.15, min = 0.0, nominal = 300.0) (102|132) [PRMT] (1) Real TAirRoo.T = TRoo.k (fixed = true, start = TRoo.k) (103|133) [PRMT] (1) Real TRadRoo.T = TRoo.k (fixed = true, start = TRoo.k) (104|134) [PRMT] (1) Real TRoo.y = TRoo.k (fixed = true, start = TRoo.k) (105|135) [PRMT] (1) Real hANonSha.u1 = hA.k (fixed = true, start = hA.k) (106|136) [PRMT] (1) Real hASha.u1 = hA.k (fixed = true, start = hA.k) (107|137) [PRMT] (1) Real hA.y = hA.k (fixed = true, start = hA.k) (108|138) [PRMT] (1) Real conOutSha.fluid.T = TOut.k (fixed = true, start = 288.15, min = 0.0, nominal = 300.0) (109|139) [PRMT] (1) Real conOutNonSha1.fluid.T = TOut.k (fixed = true, start = 288.15, min = 0.0, nominal = 300.0) (110|140) [PRMT] (1) Real TAirOut.port.T = TOut.k (fixed = true, start = 288.15, min = 0.0, nominal = 300.0) (111|141) [PRMT] (1) Real radOut.TBlaSky = TOut.k (fixed = true, start = TOut.k, min = 0.0) (112|142) [PRMT] (1) Real radOut.TOut = TOut.k (fixed = true, start = TOut.k, min = 0.0) (113|143) [PRMT] (1) Real TAirOut.T = TOut.k (fixed = true, start = TOut.k) (114|144) [PRMT] (1) Real TOut.y = TOut.k (fixed = true, start = TOut.k) (115|145) [PRMT] (1) Real $FUN_10 (fixed = false) (116|146) [PRMT] (1) Real $FUN_11 (fixed = false) (117|147) [PRMT] (1) Real $FUN_12 (fixed = false) (118|148) [PRMT] (1) Real $FUN_7 (fixed = false) (119|149) [PRMT] (1) Real $FUN_8 (fixed = false) (120|150) [PRMT] (1) Real $FUN_9 (fixed = false) (121|151) [PRMT] (1) parameter Real hA.k = 4.0 * A (fixed = true, start = 1.0) (122|152) [PRMT] (1) protected final parameter Real radOut.T04 = radOut.T0 ^ 4.0 (fixed = true, min = 0.0) (123|153) [PRMT] (1) protected final parameter Real radOut.T03 = radOut.T0 ^ 3.0 (fixed = true, min = 0.0) (124|154) [PRMT] (1) parameter Real radOut.A = A (fixed = true) (125|155) [PRMT] (1) protected parameter Real[1] nonSha.gas.Ra0 (fixed = {false for $f1 in 1:1}, min = {0.0 for $f2 in 1:1}) (126|156) [PRMT] (1) protected parameter Real[1] nonSha.gas.Nu0 (fixed = {false for $f1 in 1:1}, min = {0.0 for $f2 in 1:1}) (127|157) [PRMT] (1) protected parameter Real[1] nonSha.gas.hCon0 (fixed = {false for $f1 in 1:1}) (128|158) [PRMT] (1) parameter Real[1] nonSha.gas.h = {sqrt(nonSha.gas[1].A)} (fixed = {true for $i73 in 1:1}, min = {0.0 for $f1 in 1:1}) (129|159) [PRMT] (1) final parameter Real[1] nonSha.gas.A = {nonSha.A for $f1 in 1:1} (fixed = {true for $i74 in 1:1}) (130|160) [PRMT] (2) protected final parameter Real[2] nonSha.glass.R = {nonSha.glass[$glass1].x / (nonSha.glass[$glass1].A * 2.0 * nonSha.glass[$glass1].k) for $glass1 in 1:2} (fixed = {true for $i84 in 1:2}) (131|162) [PRMT] (2) final parameter Real[2] nonSha.glass.k = {nonSha.glaSys.glass[$glass1].k for $glass1 in 1:2} (fixed = {true for $i85 in 1:2}) (132|164) [PRMT] (2) final parameter Real[2] nonSha.glass.x = {nonSha.glaSys.glass[$glass1].x for $glass1 in 1:2} (fixed = {true for $i86 in 1:2}) (133|166) [PRMT] (2) protected final parameter Real[2] nonSha.glass.T04 = {nonSha.glass[$glass1].T0 ^ 4.0 for $glass1 in 1:2} (fixed = {true for $i87 in 1:2}, min = {0.0 for $f1 in 1:2}) (134|168) [PRMT] (2) protected final parameter Real[2] nonSha.glass.T03 = {nonSha.glass[$glass1].T0 ^ 3.0 for $glass1 in 1:2} (fixed = {true for $i88 in 1:2}, min = {0.0 for $f1 in 1:2}) (135|170) [PRMT] (2) final parameter Real[2] nonSha.glass.tauIR = {nonSha.glaSys.glass[$glass1].tauIR for $glass1 in 1:2} (fixed = {true for $i91 in 1:2}) (136|172) [PRMT] (2) final parameter Real[2] nonSha.glass.rhoIR_b = {1.0 - (nonSha.glass[$glass1].tauIR + nonSha.glass[$glass1].absIR_b) for $glass1 in 1:2} (fixed = {true for $i92 in 1:2}) (137|174) [PRMT] (2) final parameter Real[2] nonSha.glass.rhoIR_a = {1.0 - (nonSha.glass[$glass1].tauIR + nonSha.glass[$glass1].absIR_a) for $glass1 in 1:2} (fixed = {true for $i93 in 1:2}) (138|176) [PRMT] (2) final parameter Real[2] nonSha.glass.absIR_b = {nonSha.glaSys.glass[$glass1].absIR_b for $glass1 in 1:2} (fixed = {true for $i94 in 1:2}) (139|178) [PRMT] (2) final parameter Real[2] nonSha.glass.absIR_a = {nonSha.glaSys.glass[$glass1].absIR_a for $glass1 in 1:2} (fixed = {true for $i95 in 1:2}) (140|180) [PRMT] (2) final parameter Real[2] nonSha.glass.A = {nonSha.A for $f1 in 1:2} (fixed = {true for $i96 in 1:2}) (141|182) [PRMT] (1) parameter Real nonSha.A = A (fixed = true) (142|183) [PRMT] (1) protected final parameter Real radIn.T04 = radIn.T0 ^ 4.0 (fixed = true, min = 0.0) (143|184) [PRMT] (1) protected final parameter Real radIn.T03 = radIn.T0 ^ 3.0 (fixed = true, min = 0.0) (144|185) [PRMT] (1) final parameter Real radIn.tauIR = 1.0 - (radIn.absIR + radIn.rhoIR) (fixed = true) (145|186) [PRMT] (1) final parameter Real radIn.rhoIR = 1.0 - radIn.absIR (fixed = true) (146|187) [PRMT] (1) parameter Real radIn.A = A (fixed = true) (147|188) [PRMT] (1) protected parameter Real[1] sha.gas.Ra0 (fixed = {false for $f1 in 1:1}, min = {0.0 for $f2 in 1:1}) (148|189) [PRMT] (1) protected parameter Real[1] sha.gas.Nu0 (fixed = {false for $f1 in 1:1}, min = {0.0 for $f2 in 1:1}) (149|190) [PRMT] (1) protected parameter Real[1] sha.gas.hCon0 (fixed = {false for $f1 in 1:1}) (150|191) [PRMT] (1) parameter Real[1] sha.gas.h = {sqrt(sha.gas[1].A)} (fixed = {true for $i127 in 1:1}, min = {0.0 for $f1 in 1:1}) (151|192) [PRMT] (1) final parameter Real[1] sha.gas.A = {sha.A for $f1 in 1:1} (fixed = {true for $i128 in 1:1}) (152|193) [PRMT] (2) protected final parameter Real[2] sha.glass.R = {sha.glass[$glass1].x / (sha.glass[$glass1].A * 2.0 * sha.glass[$glass1].k) for $glass1 in 1:2} (fixed = {true for $i138 in 1:2}) (153|195) [PRMT] (2) final parameter Real[2] sha.glass.k = {sha.glaSys.glass[$glass1].k for $glass1 in 1:2} (fixed = {true for $i139 in 1:2}) (154|197) [PRMT] (2) final parameter Real[2] sha.glass.x = {sha.glaSys.glass[$glass1].x for $glass1 in 1:2} (fixed = {true for $i140 in 1:2}) (155|199) [PRMT] (2) protected final parameter Real[2] sha.glass.T04 = {sha.glass[$glass1].T0 ^ 4.0 for $glass1 in 1:2} (fixed = {true for $i141 in 1:2}, min = {0.0 for $f1 in 1:2}) (156|201) [PRMT] (2) protected final parameter Real[2] sha.glass.T03 = {sha.glass[$glass1].T0 ^ 3.0 for $glass1 in 1:2} (fixed = {true for $i142 in 1:2}, min = {0.0 for $f1 in 1:2}) (157|203) [PRMT] (2) final parameter Real[2] sha.glass.tauIR = {sha.glaSys.glass[$glass1].tauIR for $glass1 in 1:2} (fixed = {true for $i145 in 1:2}) (158|205) [PRMT] (2) final parameter Real[2] sha.glass.rhoIR_b = {1.0 - (sha.glass[$glass1].tauIR + sha.glass[$glass1].absIR_b) for $glass1 in 1:2} (fixed = {true for $i146 in 1:2}) (159|207) [PRMT] (2) final parameter Real[2] sha.glass.rhoIR_a = {1.0 - (sha.glass[$glass1].tauIR + sha.glass[$glass1].absIR_a) for $glass1 in 1:2} (fixed = {true for $i147 in 1:2}) (160|209) [PRMT] (2) final parameter Real[2] sha.glass.absIR_b = {sha.glaSys.glass[$glass1].absIR_b for $glass1 in 1:2} (fixed = {true for $i148 in 1:2}) (161|211) [PRMT] (2) final parameter Real[2] sha.glass.absIR_a = {sha.glaSys.glass[$glass1].absIR_a for $glass1 in 1:2} (fixed = {true for $i149 in 1:2}) (162|213) [PRMT] (2) final parameter Real[2] sha.glass.A = {sha.A for $f1 in 1:2} (fixed = {true for $i150 in 1:2}) (163|215) [PRMT] (1) parameter Real sha.A = A (fixed = true) (164|216) [PRMT] (1) final parameter Real[1] nonSha.gas.gas.x = {nonSha.glaSys.gas[1].x} (fixed = {true for $i83 in 1:1}) (165|217) [PRMT] (1) final parameter Real[1] nonSha.gas.gas.a_k = {nonSha.glaSys.gas[1].a_k} (fixed = {true for $i82 in 1:1}) (166|218) [PRMT] (1) final parameter Real[1] nonSha.gas.gas.b_k = {nonSha.glaSys.gas[1].b_k} (fixed = {true for $i81 in 1:1}) (167|219) [PRMT] (1) final parameter Real[1] nonSha.gas.gas.a_mu = {nonSha.glaSys.gas[1].a_mu} (fixed = {true for $i80 in 1:1}, min = {0.0 for $f6 in 1:1}) (168|220) [PRMT] (1) final parameter Real[1] nonSha.gas.gas.b_mu = {nonSha.glaSys.gas[1].b_mu} (fixed = {true for $i79 in 1:1}) (169|221) [PRMT] (1) final parameter Real[1] nonSha.gas.gas.a_c = {nonSha.glaSys.gas[1].a_c} (fixed = {true for $i78 in 1:1}) (170|222) [PRMT] (1) final parameter Real[1] nonSha.gas.gas.b_c = {nonSha.glaSys.gas[1].b_c} (fixed = {true for $i77 in 1:1}) (171|223) [PRMT] (1) final parameter Real[1] nonSha.gas.gas.MM = {nonSha.glaSys.gas[1].MM} (fixed = {true for $i76 in 1:1}, min = {0.0 for $f13 in 1:1}) (172|224) [PRMT] (1) final parameter Real[1] nonSha.gas.gas.P0 = {nonSha.glaSys.gas[1].P0} (fixed = {true for $i75 in 1:1}) (173|225) [PRMT] (1) parameter Boolean nonSha.glaSys.haveExteriorShade = true (fixed = true) (174|226) [PRMT] (1) parameter Boolean nonSha.glaSys.haveInteriorShade = true (fixed = true) (175|227) [RECD] (16) parameter Buildings.HeatTransfer.Data.Glasses.Generic[2] nonSha.glaSys.glass = glaSys.glass (x, k, tauSol, rhoSol_a, rhoSol_b, tauIR, absIR_a, absIR_b) (176|243) [RECD] (9) parameter Buildings.HeatTransfer.Data.Gases.Generic[1] nonSha.glaSys.gas = glaSys.gas (x, a_k, b_k, a_mu(min = {0.0 for $f28 in 1:1}), b_mu, a_c, b_c, MM(min = {0.0 for $f35 in 1:1}), P0) (177|252) [RECD] (8) parameter Buildings.HeatTransfer.Data.Shades.Generic nonSha.glaSys.shade = glaSys.shade (tauSol_a, tauSol_b, rhoSol_a, rhoSol_b, absIR_a, absIR_b, tauIR_a, tauIR_b) (178|260) [PRMT] (1) parameter Real nonSha.glaSys.UFra = glaSys.UFra (fixed = true) (179|261) [PRMT] (1) parameter Real nonSha.glaSys.absIRFra = glaSys.absIRFra (fixed = true) (180|262) [PRMT] (1) parameter Real nonSha.glaSys.absSolFra = glaSys.absSolFra (fixed = true) (181|263) [PRMT] (1) final parameter Boolean nonSha.glaSys.haveShade = glaSys.haveShade (fixed = true) (182|264) [PRMT] (1) final parameter Boolean nonSha.glaSys.haveControllableWindow = false (fixed = true) (183|265) [PRMT] (1) final parameter Real[1] sha.gas.gas.x = {sha.glaSys.gas[1].x} (fixed = {true for $i137 in 1:1}) (184|266) [PRMT] (1) final parameter Real[1] sha.gas.gas.a_k = {sha.glaSys.gas[1].a_k} (fixed = {true for $i136 in 1:1}) (185|267) [PRMT] (1) final parameter Real[1] sha.gas.gas.b_k = {sha.glaSys.gas[1].b_k} (fixed = {true for $i135 in 1:1}) (186|268) [PRMT] (1) final parameter Real[1] sha.gas.gas.a_mu = {sha.glaSys.gas[1].a_mu} (fixed = {true for $i134 in 1:1}, min = {0.0 for $f6 in 1:1}) (187|269) [PRMT] (1) final parameter Real[1] sha.gas.gas.b_mu = {sha.glaSys.gas[1].b_mu} (fixed = {true for $i133 in 1:1}) (188|270) [PRMT] (1) final parameter Real[1] sha.gas.gas.a_c = {sha.glaSys.gas[1].a_c} (fixed = {true for $i132 in 1:1}) (189|271) [PRMT] (1) final parameter Real[1] sha.gas.gas.b_c = {sha.glaSys.gas[1].b_c} (fixed = {true for $i131 in 1:1}) (190|272) [PRMT] (1) final parameter Real[1] sha.gas.gas.MM = {sha.glaSys.gas[1].MM} (fixed = {true for $i130 in 1:1}, min = {0.0 for $f13 in 1:1}) (191|273) [PRMT] (1) final parameter Real[1] sha.gas.gas.P0 = {sha.glaSys.gas[1].P0} (fixed = {true for $i129 in 1:1}) (192|274) [PRMT] (1) parameter Boolean sha.glaSys.haveExteriorShade = true (fixed = true) (193|275) [PRMT] (1) parameter Boolean sha.glaSys.haveInteriorShade = true (fixed = true) (194|276) [RECD] (16) parameter Buildings.HeatTransfer.Data.Glasses.Generic[2] sha.glaSys.glass = glaSys.glass (x, k, tauSol, rhoSol_a, rhoSol_b, tauIR, absIR_a, absIR_b) (195|292) [RECD] (9) parameter Buildings.HeatTransfer.Data.Gases.Generic[1] sha.glaSys.gas = glaSys.gas (x, a_k, b_k, a_mu(min = {0.0 for $f28 in 1:1}), b_mu, a_c, b_c, MM(min = {0.0 for $f35 in 1:1}), P0) (196|301) [RECD] (8) parameter Buildings.HeatTransfer.Data.Shades.Generic sha.glaSys.shade = glaSys.shade (tauSol_a, tauSol_b, rhoSol_a, rhoSol_b, absIR_a, absIR_b, tauIR_a, tauIR_b) (197|309) [PRMT] (1) parameter Real sha.glaSys.UFra = glaSys.UFra (fixed = true) (198|310) [PRMT] (1) parameter Real sha.glaSys.absIRFra = glaSys.absIRFra (fixed = true) (199|311) [PRMT] (1) parameter Real sha.glaSys.absSolFra = glaSys.absSolFra (fixed = true) (200|312) [PRMT] (1) final parameter Boolean sha.glaSys.haveShade = glaSys.haveShade (fixed = true) (201|313) [PRMT] (1) final parameter Boolean sha.glaSys.haveControllableWindow = false (fixed = true) System Equations (168/305) **************************** (1|1) [TUPL] (3) (nonSha.gas[1].Nu0, nonSha.gas[1].hCon0) = ($FUN_10, $FUN_11, $FUN_12) ($RES_SIM_0) (2|4) [SCAL] (1) nonSha.gas[1].Ra0 = Buildings.Utilities.Math.Functions.regStep((-100.0) + (196.13299999999998 * ((0.12027235504272604 * nonSha.gas[1].gas.MM * nonSha.gas[1].gas.P0) / nonSha.gas[1].T0) ^ 2.0 * nonSha.gas[1].gas.x ^ 3.0 * (nonSha.gas[1].gas.a_c + nonSha.gas[1].gas.b_c * nonSha.gas[1].T0)) / ((nonSha.gas[1].T0 + nonSha.gas[1].T0) * (nonSha.gas[1].gas.a_mu + nonSha.gas[1].gas.b_mu * nonSha.gas[1].T0) * (nonSha.gas[1].gas.a_k + nonSha.gas[1].gas.b_k * nonSha.gas[1].T0)), (196.13299999999998 * ((0.12027235504272604 * nonSha.gas[1].gas.MM * nonSha.gas[1].gas.P0) / nonSha.gas[1].T0) ^ 2.0 * nonSha.gas[1].gas.x ^ 3.0 * (nonSha.gas[1].gas.a_c + nonSha.gas[1].gas.b_c * nonSha.gas[1].T0)) / ((nonSha.gas[1].T0 + nonSha.gas[1].T0) * (nonSha.gas[1].gas.a_mu + nonSha.gas[1].gas.b_mu * nonSha.gas[1].T0) * (nonSha.gas[1].gas.a_k + nonSha.gas[1].gas.b_k * nonSha.gas[1].T0)), 100.0, 10.0) ($RES_SIM_1) (3|5) [TUPL] (3) (sha.gas[1].Nu0, sha.gas[1].hCon0) = ($FUN_7, $FUN_8, $FUN_9) ($RES_SIM_8) (4|8) [SCAL] (1) sha.gas[1].Ra0 = Buildings.Utilities.Math.Functions.regStep((-100.0) + (196.13299999999998 * ((0.12027235504272604 * sha.gas[1].gas.MM * sha.gas[1].gas.P0) / sha.gas[1].T0) ^ 2.0 * sha.gas[1].gas.x ^ 3.0 * (sha.gas[1].gas.a_c + sha.gas[1].gas.b_c * sha.gas[1].T0)) / ((sha.gas[1].T0 + sha.gas[1].T0) * (sha.gas[1].gas.a_mu + sha.gas[1].gas.b_mu * sha.gas[1].T0) * (sha.gas[1].gas.a_k + sha.gas[1].gas.b_k * sha.gas[1].T0)), (196.13299999999998 * ((0.12027235504272604 * sha.gas[1].gas.MM * sha.gas[1].gas.P0) / sha.gas[1].T0) ^ 2.0 * sha.gas[1].gas.x ^ 3.0 * (sha.gas[1].gas.a_c + sha.gas[1].gas.b_c * sha.gas[1].T0)) / ((sha.gas[1].T0 + sha.gas[1].T0) * (sha.gas[1].gas.a_mu + sha.gas[1].gas.b_mu * sha.gas[1].T0) * (sha.gas[1].gas.a_k + sha.gas[1].gas.b_k * sha.gas[1].T0)), 100.0, 10.0) ($RES_SIM_9) (5|9) [SCAL] (1) radIn.JIn = sumJ.k * sumJ.u ($RES_SIM_15) (6|10) [FOR-] (2) ($RES_SIM_16) (6|10) [----] for $i1 in 1:2 loop (6|10) [----] [SCAL] (1) QAbs[$i1].y = QAbs[$i1].k ($RES_SIM_17) (6|10) [----] end for; (7|12) [SCAL] (1) conOutNonSha1.Gc = hA.k * (1.0 - (1e-6 + 0.999998 * uSha.y)) ($RES_SIM_20) (8|13) [SCAL] (1) conOutSha.Gc = hA.k * (1e-6 + 0.999998 * uSha.y) ($RES_SIM_21) (9|14) [SCAL] (1) conRooNonSha.Q_flow = conOutNonSha1.Gc * conRooNonSha.dT ($RES_SIM_23) (10|15) [SCAL] (1) conRooNonSha.dT = nonSha.glass_b.T - TRoo.k ($RES_SIM_26) (11|16) [SCAL] (1) conOutNonSha1.Q_flow = conOutNonSha1.Gc * conOutNonSha1.dT ($RES_SIM_27) (12|17) [SCAL] (1) conOutNonSha1.dT = nonSha.glass_a.T - TOut.k ($RES_SIM_30) (13|18) [SCAL] (1) conOutSha.Q_flow = conOutSha.Gc * conOutSha.dT ($RES_SIM_31) (14|19) [SCAL] (1) conOutSha.dT = conOutSha.solid.T - TOut.k ($RES_SIM_34) (15|20) [SCAL] (1) conRooSha.Q_flow = conOutSha.Gc * conRooSha.dT ($RES_SIM_35) (16|21) [SCAL] (1) conRooSha.dT = conRooSha.solid.T - TRoo.k ($RES_SIM_38) (17|22) [SCAL] (1) radOut.TRad = radOut.TRad4 ^ 0.25 ($RES_SIM_39) (18|23) [SCAL] (1) radOut.JOut = 5.6703744191844314e-8 * radOut.A * radOut.TRad4 ($RES_SIM_40) (19|24) [SCAL] (1) radOut.TRad4 = radOut.vieFacSky * TOut.k ^ 4.0 + (1.0 - radOut.vieFacSky) * TOut.k ^ 4.0 ($RES_SIM_41) (20|25) [SCAL] (1) radShaOut.JOut_2 = (1.0 - (1e-6 + 0.999998 * uSha.y)) * radOut.JOut ($RES_SIM_42) (21|26) [SCAL] (1) radShaOut.JOut_1 = (1e-6 + 0.999998 * uSha.y) * radOut.JOut ($RES_SIM_43) (22|27) [SCAL] (1) nonSha.gas[1].port_b.Q_flow = -nonSha.gas[1].Q_flow ($RES_SIM_44) (23|28) [SCAL] (1) nonSha.gas[1].dT = nonSha.gas[1].T_a - nonSha.gas[1].T_b ($RES_SIM_46) (24|29) [SCAL] (1) nonSha.gas[1].Q_flow = nonSha.gas[1].A * nonSha.gas[1].u * homotopy(nonSha.gas[1].q_flow, nonSha.gas[1].hCon0 * nonSha.gas[1].dT) ($RES_SIM_47) (25|30) [SCAL] (1) nonSha.gas[1].Ra = smooth(1, if (-100.0) + (19.6133 * abs(nonSha.gas[1].T_a - nonSha.gas[1].T_b) * (nonSha.gas[1].T_m * nonSha.gas[1].gas.b_c + nonSha.gas[1].gas.a_c) * nonSha.gas[1].gas.x ^ 3.0 * ((0.12027235504272604 * nonSha.gas[1].gas.MM * nonSha.gas[1].gas.P0) / nonSha.gas[1].T_m) ^ 2.0) / ((nonSha.gas[1].T_m * nonSha.gas[1].gas.b_k + nonSha.gas[1].gas.a_k) * (nonSha.gas[1].T_m * nonSha.gas[1].gas.b_mu + nonSha.gas[1].gas.a_mu) * (nonSha.gas[1].T_a + nonSha.gas[1].T_b)) > 10.0 then (19.6133 * abs(nonSha.gas[1].T_a - nonSha.gas[1].T_b) * (nonSha.gas[1].T_m * nonSha.gas[1].gas.b_c + nonSha.gas[1].gas.a_c) * nonSha.gas[1].gas.x ^ 3.0 * ((0.12027235504272604 * nonSha.gas[1].gas.MM * nonSha.gas[1].gas.P0) / nonSha.gas[1].T_m) ^ 2.0) / ((nonSha.gas[1].T_m * nonSha.gas[1].gas.b_k + nonSha.gas[1].gas.a_k) * (nonSha.gas[1].T_m * nonSha.gas[1].gas.b_mu + nonSha.gas[1].gas.a_mu) * (nonSha.gas[1].T_a + nonSha.gas[1].T_b)) else if (-100.0) + (19.6133 * abs(nonSha.gas[1].T_a - nonSha.gas[1].T_b) * (nonSha.gas[1].T_m * nonSha.gas[1].gas.b_c + nonSha.gas[1].gas.a_c) * nonSha.gas[1].gas.x ^ 3.0 * ((0.12027235504272604 * nonSha.gas[1].gas.MM * nonSha.gas[1].gas.P0) / nonSha.gas[1].T_m) ^ 2.0) / ((nonSha.gas[1].T_m * nonSha.gas[1].gas.b_k + nonSha.gas[1].gas.a_k) * (nonSha.gas[1].T_m * nonSha.gas[1].gas.b_mu + nonSha.gas[1].gas.a_mu) * (nonSha.gas[1].T_a + nonSha.gas[1].T_b)) < (-10.0) then 100.0 else 0.25 * (100.0 - (19.6133 * abs(nonSha.gas[1].T_a - nonSha.gas[1].T_b) * (nonSha.gas[1].T_m * nonSha.gas[1].gas.b_c + nonSha.gas[1].gas.a_c) * nonSha.gas[1].gas.x ^ 3.0 * ((0.12027235504272604 * nonSha.gas[1].gas.MM * nonSha.gas[1].gas.P0) / nonSha.gas[1].T_m) ^ 2.0) / ((nonSha.gas[1].T_m * nonSha.gas[1].gas.b_k + nonSha.gas[1].gas.a_k) * (nonSha.gas[1].T_m * nonSha.gas[1].gas.b_mu + nonSha.gas[1].gas.a_mu) * (nonSha.gas[1].T_a + nonSha.gas[1].T_b))) * ((-3.0) + (((-100.0) + (19.6133 * ((0.12027235504272604 * nonSha.gas[1].gas.MM * nonSha.gas[1].gas.P0) / nonSha.gas[1].T_m) ^ 2.0 * nonSha.gas[1].gas.x ^ 3.0 * (nonSha.gas[1].gas.a_c + nonSha.gas[1].gas.b_c * nonSha.gas[1].T_m) * abs(nonSha.gas[1].T_a - nonSha.gas[1].T_b)) / ((nonSha.gas[1].T_b + nonSha.gas[1].T_a) * (nonSha.gas[1].gas.a_mu + nonSha.gas[1].gas.b_mu * nonSha.gas[1].T_m) * (nonSha.gas[1].gas.a_k + nonSha.gas[1].gas.b_k * nonSha.gas[1].T_m))) / 10.0) ^ 2.0) * (0.1 * ((-100.0) + (19.6133 * abs(nonSha.gas[1].T_a - nonSha.gas[1].T_b) * (nonSha.gas[1].T_m * nonSha.gas[1].gas.b_c + nonSha.gas[1].gas.a_c) * nonSha.gas[1].gas.x ^ 3.0 * ((0.12027235504272604 * nonSha.gas[1].gas.MM * nonSha.gas[1].gas.P0) / nonSha.gas[1].T_m) ^ 2.0) / ((nonSha.gas[1].T_m * nonSha.gas[1].gas.b_k + nonSha.gas[1].gas.a_k) * (nonSha.gas[1].T_m * nonSha.gas[1].gas.b_mu + nonSha.gas[1].gas.a_mu) * (nonSha.gas[1].T_a + nonSha.gas[1].T_b)))) + 0.5 * (100.0 + (19.6133 * abs(nonSha.gas[1].T_a - nonSha.gas[1].T_b) * (nonSha.gas[1].T_m * nonSha.gas[1].gas.b_c + nonSha.gas[1].gas.a_c) * nonSha.gas[1].gas.x ^ 3.0 * ((0.12027235504272604 * nonSha.gas[1].gas.MM * nonSha.gas[1].gas.P0) / nonSha.gas[1].T_m) ^ 2.0) / ((nonSha.gas[1].T_m * nonSha.gas[1].gas.b_k + nonSha.gas[1].gas.a_k) * (nonSha.gas[1].T_m * nonSha.gas[1].gas.b_mu + nonSha.gas[1].gas.a_mu) * (nonSha.gas[1].T_a + nonSha.gas[1].T_b)))) ($RES_SIM_48) (26|31) [SCAL] (1) nonSha.gas[1].T_m = 0.5 * (nonSha.gas[1].T_a + nonSha.gas[1].T_b) ($RES_SIM_50) (27|32) [FOR-] (2) ($RES_SIM_53) (27|32) [----] for $i1 in 1:2 loop (27|32) [----] [SCAL] (1) nonSha.glass[$i1].JOut_b = nonSha.glass[$i1].rhoIR_b * nonSha.glass[$i1].JIn_b + nonSha.glass[$i1].E_b + nonSha.glass[$i1].tauIR * nonSha.glass[$i1].JIn_a ($RES_SIM_54) (27|32) [----] end for; (28|34) [FOR-] (2) ($RES_SIM_55) (28|34) [----] for $i1 in 1:2 loop (28|34) [----] [SCAL] (1) nonSha.glass[$i1].JOut_a = nonSha.glass[$i1].rhoIR_a * nonSha.glass[$i1].JIn_a + nonSha.glass[$i1].E_a + nonSha.glass[$i1].tauIR * nonSha.glass[$i1].JIn_b ($RES_SIM_56) (28|34) [----] end for; (29|36) [FOR-] (2) ($RES_SIM_57) (29|36) [----] for $i1 in 1:2 loop (29|36) [----] [SCAL] (1) nonSha.glass[$i1].E_b = 5.6703744191844314e-8 * nonSha.glass[$i1].absIR_b * nonSha.glass[$i1].A * nonSha.glass[$i1].u * nonSha.glass[$i1].T4_b ($RES_SIM_58) (29|36) [----] end for; (30|38) [FOR-] (2) ($RES_SIM_59) (30|38) [----] for $i1 in 1:2 loop (30|38) [----] [SCAL] (1) nonSha.glass[$i1].E_a = 5.6703744191844314e-8 * nonSha.glass[$i1].absIR_a * nonSha.glass[$i1].A * nonSha.glass[$i1].u * nonSha.glass[$i1].T4_a ($RES_SIM_60) (30|38) [----] end for; (31|40) [FOR-] (2) ($RES_SIM_61) (31|40) [----] for $i1 in 1:2 loop (31|40) [----] [SCAL] (1) nonSha.glass[$i1].T4_a = homotopy(nonSha.glass[$i1].port_a.T ^ 4.0, 4.0 * nonSha.glass[$i1].T03 * nonSha.glass[$i1].port_a.T - 3.0 * nonSha.glass[$i1].T04) ($RES_SIM_62) (31|40) [----] end for; (32|42) [FOR-] (2) ($RES_SIM_63) (32|42) [----] for $i1 in 1:2 loop (32|42) [----] [SCAL] (1) nonSha.glass[$i1].T4_b = homotopy(nonSha.glass[$i1].port_b.T ^ 4.0, 4.0 * nonSha.glass[$i1].T03 * nonSha.glass[$i1].port_b.T - 3.0 * nonSha.glass[$i1].T04) ($RES_SIM_64) (32|42) [----] end for; (33|44) [FOR-] (2) ($RES_SIM_65) (33|44) [----] for $i1 in 1:2 loop (33|44) [----] [SCAL] (1) nonSha.glass[$i1].u * (nonSha.glass[$i1].port_b.T - nonSha.glass[$i1].port_a.T) = 2.0 * nonSha.glass[$i1].R * ((nonSha.glass[$i1].JOut_a + nonSha.glass[$i1].tauIR * (nonSha.glass[$i1].JIn_a - nonSha.glass[$i1].JIn_b)) - (nonSha.glass[$i1].JIn_a + 0.5 * nonSha.QAbs_flow[$i1] + nonSha.glass[$i1].port_a.Q_flow)) ($RES_SIM_66) (33|44) [----] end for; (34|46) [FOR-] (2) ($RES_SIM_67) (34|46) [----] for $i1 in 1:2 loop (34|46) [----] [SCAL] (1) 0.0 = (nonSha.glass[$i1].JIn_b + nonSha.glass[$i1].JIn_a + nonSha.QAbs_flow[$i1] + nonSha.glass[$i1].port_b.Q_flow + nonSha.glass[$i1].port_a.Q_flow) - (nonSha.glass[$i1].JOut_b + nonSha.glass[$i1].JOut_a) ($RES_SIM_68) (34|46) [----] end for; (35|48) [SCAL] (1) radShaInt.JOut_2 = (1.0 - (1e-6 + 0.999998 * uSha.y)) * radIn.JOut ($RES_SIM_69) (36|49) [SCAL] (1) radShaInt.JOut_1 = (1e-6 + 0.999998 * uSha.y) * radIn.JOut ($RES_SIM_70) (37|50) [SCAL] (1) 0.0 = (radIn.JIn + radIn.heatPort.Q_flow) - radIn.JOut ($RES_SIM_73) (38|51) [SCAL] (1) radIn.JOut = 5.6703744191844314e-8 * radIn.absIR * radIn.A * radIn.T4 + radIn.rhoIR * radIn.JIn ($RES_SIM_74) (39|52) [SCAL] (1) radIn.T4 = TRoo.k ^ 4.0 ($RES_SIM_75) (40|53) [SCAL] (1) uSha.y = uSha.offset + (if $TEV_0 then 0.0 else if $TEV_1 then (uSha.height * (time - uSha.startTime)) / uSha.duration else uSha.height) ($RES_SIM_79) (41|54) [SCAL] (1) sha.gas[1].port_b.Q_flow = -sha.gas[1].Q_flow ($RES_SIM_80) (42|55) [SCAL] (1) sha.gas[1].dT = sha.gas[1].T_a - sha.gas[1].T_b ($RES_SIM_82) (43|56) [SCAL] (1) sha.gas[1].Q_flow = sha.gas[1].A * sha.gas[1].u * homotopy(sha.gas[1].q_flow, sha.gas[1].hCon0 * sha.gas[1].dT) ($RES_SIM_83) (44|57) [SCAL] (1) sha.gas[1].Ra = smooth(1, if (-100.0) + (19.6133 * abs(sha.gas[1].T_a - sha.gas[1].T_b) * (sha.gas[1].T_m * sha.gas[1].gas.b_c + sha.gas[1].gas.a_c) * sha.gas[1].gas.x ^ 3.0 * ((0.12027235504272604 * sha.gas[1].gas.MM * sha.gas[1].gas.P0) / sha.gas[1].T_m) ^ 2.0) / ((sha.gas[1].T_m * sha.gas[1].gas.b_k + sha.gas[1].gas.a_k) * (sha.gas[1].T_m * sha.gas[1].gas.b_mu + sha.gas[1].gas.a_mu) * (sha.gas[1].T_a + sha.gas[1].T_b)) > 10.0 then (19.6133 * abs(sha.gas[1].T_a - sha.gas[1].T_b) * (sha.gas[1].T_m * sha.gas[1].gas.b_c + sha.gas[1].gas.a_c) * sha.gas[1].gas.x ^ 3.0 * ((0.12027235504272604 * sha.gas[1].gas.MM * sha.gas[1].gas.P0) / sha.gas[1].T_m) ^ 2.0) / ((sha.gas[1].T_m * sha.gas[1].gas.b_k + sha.gas[1].gas.a_k) * (sha.gas[1].T_m * sha.gas[1].gas.b_mu + sha.gas[1].gas.a_mu) * (sha.gas[1].T_a + sha.gas[1].T_b)) else if (-100.0) + (19.6133 * abs(sha.gas[1].T_a - sha.gas[1].T_b) * (sha.gas[1].T_m * sha.gas[1].gas.b_c + sha.gas[1].gas.a_c) * sha.gas[1].gas.x ^ 3.0 * ((0.12027235504272604 * sha.gas[1].gas.MM * sha.gas[1].gas.P0) / sha.gas[1].T_m) ^ 2.0) / ((sha.gas[1].T_m * sha.gas[1].gas.b_k + sha.gas[1].gas.a_k) * (sha.gas[1].T_m * sha.gas[1].gas.b_mu + sha.gas[1].gas.a_mu) * (sha.gas[1].T_a + sha.gas[1].T_b)) < (-10.0) then 100.0 else 0.25 * (100.0 - (19.6133 * abs(sha.gas[1].T_a - sha.gas[1].T_b) * (sha.gas[1].T_m * sha.gas[1].gas.b_c + sha.gas[1].gas.a_c) * sha.gas[1].gas.x ^ 3.0 * ((0.12027235504272604 * sha.gas[1].gas.MM * sha.gas[1].gas.P0) / sha.gas[1].T_m) ^ 2.0) / ((sha.gas[1].T_m * sha.gas[1].gas.b_k + sha.gas[1].gas.a_k) * (sha.gas[1].T_m * sha.gas[1].gas.b_mu + sha.gas[1].gas.a_mu) * (sha.gas[1].T_a + sha.gas[1].T_b))) * ((-3.0) + (((-100.0) + (19.6133 * ((0.12027235504272604 * sha.gas[1].gas.MM * sha.gas[1].gas.P0) / sha.gas[1].T_m) ^ 2.0 * sha.gas[1].gas.x ^ 3.0 * (sha.gas[1].gas.a_c + sha.gas[1].gas.b_c * sha.gas[1].T_m) * abs(sha.gas[1].T_a - sha.gas[1].T_b)) / ((sha.gas[1].T_b + sha.gas[1].T_a) * (sha.gas[1].gas.a_mu + sha.gas[1].gas.b_mu * sha.gas[1].T_m) * (sha.gas[1].gas.a_k + sha.gas[1].gas.b_k * sha.gas[1].T_m))) / 10.0) ^ 2.0) * (0.1 * ((-100.0) + (19.6133 * abs(sha.gas[1].T_a - sha.gas[1].T_b) * (sha.gas[1].T_m * sha.gas[1].gas.b_c + sha.gas[1].gas.a_c) * sha.gas[1].gas.x ^ 3.0 * ((0.12027235504272604 * sha.gas[1].gas.MM * sha.gas[1].gas.P0) / sha.gas[1].T_m) ^ 2.0) / ((sha.gas[1].T_m * sha.gas[1].gas.b_k + sha.gas[1].gas.a_k) * (sha.gas[1].T_m * sha.gas[1].gas.b_mu + sha.gas[1].gas.a_mu) * (sha.gas[1].T_a + sha.gas[1].T_b)))) + 0.5 * (100.0 + (19.6133 * abs(sha.gas[1].T_a - sha.gas[1].T_b) * (sha.gas[1].T_m * sha.gas[1].gas.b_c + sha.gas[1].gas.a_c) * sha.gas[1].gas.x ^ 3.0 * ((0.12027235504272604 * sha.gas[1].gas.MM * sha.gas[1].gas.P0) / sha.gas[1].T_m) ^ 2.0) / ((sha.gas[1].T_m * sha.gas[1].gas.b_k + sha.gas[1].gas.a_k) * (sha.gas[1].T_m * sha.gas[1].gas.b_mu + sha.gas[1].gas.a_mu) * (sha.gas[1].T_a + sha.gas[1].T_b)))) ($RES_SIM_84) (45|58) [SCAL] (1) sha.gas[1].T_m = 0.5 * (sha.gas[1].T_a + sha.gas[1].T_b) ($RES_SIM_86) (46|59) [FOR-] (2) ($RES_SIM_89) (46|59) [----] for $i1 in 1:2 loop (46|59) [----] [SCAL] (1) sha.glass[$i1].JOut_b = sha.glass[$i1].rhoIR_b * sha.glass[$i1].JIn_b + sha.glass[$i1].E_b + sha.glass[$i1].tauIR * sha.glass[$i1].JIn_a ($RES_SIM_90) (46|59) [----] end for; (47|61) [FOR-] (2) ($RES_SIM_91) (47|61) [----] for $i1 in 1:2 loop (47|61) [----] [SCAL] (1) sha.glass[$i1].JOut_a = sha.glass[$i1].rhoIR_a * sha.glass[$i1].JIn_a + sha.glass[$i1].E_a + sha.glass[$i1].tauIR * sha.glass[$i1].JIn_b ($RES_SIM_92) (47|61) [----] end for; (48|63) [FOR-] (2) ($RES_SIM_93) (48|63) [----] for $i1 in 1:2 loop (48|63) [----] [SCAL] (1) sha.glass[$i1].E_b = 5.6703744191844314e-8 * sha.glass[$i1].absIR_b * sha.glass[$i1].A * sha.glass[$i1].u * sha.glass[$i1].T4_b ($RES_SIM_94) (48|63) [----] end for; (49|65) [FOR-] (2) ($RES_SIM_95) (49|65) [----] for $i1 in 1:2 loop (49|65) [----] [SCAL] (1) sha.glass[$i1].E_a = 5.6703744191844314e-8 * sha.glass[$i1].absIR_a * sha.glass[$i1].A * sha.glass[$i1].u * sha.glass[$i1].T4_a ($RES_SIM_96) (49|65) [----] end for; (50|67) [FOR-] (2) ($RES_SIM_97) (50|67) [----] for $i1 in 1:2 loop (50|67) [----] [SCAL] (1) sha.glass[$i1].T4_a = homotopy(sha.glass[$i1].port_a.T ^ 4.0, 4.0 * sha.glass[$i1].T03 * sha.glass[$i1].port_a.T - 3.0 * sha.glass[$i1].T04) ($RES_SIM_98) (50|67) [----] end for; (51|69) [FOR-] (2) ($RES_SIM_99) (51|69) [----] for $i1 in 1:2 loop (51|69) [----] [SCAL] (1) sha.glass[$i1].T4_b = homotopy(sha.glass[$i1].port_b.T ^ 4.0, 4.0 * sha.glass[$i1].T03 * sha.glass[$i1].port_b.T - 3.0 * sha.glass[$i1].T04) ($RES_SIM_100) (51|69) [----] end for; (52|71) [FOR-] (2) ($RES_SIM_101) (52|71) [----] for $i1 in 1:2 loop (52|71) [----] [SCAL] (1) sha.glass[$i1].u * (sha.glass[$i1].port_b.T - sha.glass[$i1].port_a.T) = 2.0 * sha.glass[$i1].R * ((sha.glass[$i1].JOut_a + sha.glass[$i1].tauIR * (sha.glass[$i1].JIn_a - sha.glass[$i1].JIn_b)) - (sha.glass[$i1].JIn_a + 0.5 * sha.QAbs_flow[$i1] + sha.glass[$i1].port_a.Q_flow)) ($RES_SIM_102) (52|71) [----] end for; (53|73) [FOR-] (2) ($RES_SIM_103) (53|73) [----] for $i1 in 1:2 loop (53|73) [----] [SCAL] (1) 0.0 = (sha.glass[$i1].JIn_b + sha.glass[$i1].JIn_a + sha.QAbs_flow[$i1] + sha.glass[$i1].port_b.Q_flow + sha.glass[$i1].port_a.Q_flow) - (sha.glass[$i1].JOut_b + sha.glass[$i1].JOut_a) ($RES_SIM_104) (53|73) [----] end for; (54|75) [SCAL] (1) TAirRoo.port.Q_flow - (conRooSha.Q_flow + conRooNonSha.Q_flow) = 0.0 ($RES_SIM_105) (55|76) [SCAL] (1) TAirOut.port.Q_flow - (conOutSha.Q_flow + conOutNonSha1.Q_flow) = 0.0 ($RES_SIM_106) (56|77) [SCAL] (1) nonSha.gas[1].port_b.Q_flow + nonSha.glass[2].port_a.Q_flow = 0.0 ($RES_SIM_111) (57|78) [SCAL] (1) nonSha.gas[1].Q_flow + nonSha.glass[1].port_b.Q_flow = 0.0 ($RES_SIM_112) (58|79) [SCAL] (1) sha.gas[1].port_b.Q_flow + sha.glass[2].port_a.Q_flow = 0.0 ($RES_SIM_114) (59|80) [SCAL] (1) sha.gas[1].Q_flow + sha.glass[1].port_b.Q_flow = 0.0 ($RES_SIM_115) (60|81) [SCAL] (1) nonSha.JOut_b = sumJ.u[2] ($RES_SIM_116) (61|82) [SCAL] (1) sha.JOut_b = sumJ.u[1] ($RES_SIM_117) (62|83) [SCAL] (1) QAbs[2].y = nonSha.QAbs_flow[2] ($RES_SIM_122) (63|84) [SCAL] (1) QAbs[2].y = sha.QAbs_flow[2] ($RES_SIM_123) (64|85) [SCAL] (1) QAbs[1].y = nonSha.QAbs_flow[1] ($RES_SIM_124) (65|86) [SCAL] (1) QAbs[1].y = sha.QAbs_flow[1] ($RES_SIM_125) (66|87) [SCAL] (1) radShaInt.JOut_2 = nonSha.glass[2].JIn_b ($RES_SIM_158) (67|88) [SCAL] (1) nonSha.glass[2].JOut_b = nonSha.JOut_b ($RES_SIM_159) (68|89) [SCAL] (1) nonSha.glass[1].JOut_a = nonSha.JOut_a ($RES_SIM_160) (69|90) [SCAL] (1) radShaOut.JOut_2 = nonSha.glass[1].JIn_a ($RES_SIM_161) (70|91) [SCAL] (1) conOutNonSha1.Q_flow + nonSha.glass[1].port_a.Q_flow = 0.0 ($RES_SIM_162) (71|92) [SCAL] (1) nonSha.glass_a.T = nonSha.glass[1].port_a.T ($RES_SIM_163) (72|93) [SCAL] (1) conRooNonSha.Q_flow + nonSha.glass[2].port_b.Q_flow = 0.0 ($RES_SIM_164) (73|94) [SCAL] (1) nonSha.glass_b.T = nonSha.glass[2].port_b.T ($RES_SIM_165) (74|95) [SCAL] (1) 1.0 - (1e-6 + 0.999998 * uSha.y) = nonSha.gas[1].u ($RES_SIM_166) (75|96) [SCAL] (1) 1.0 - (1e-6 + 0.999998 * uSha.y) = nonSha.glass[1].u ($RES_SIM_167) (76|97) [SCAL] (1) 1.0 - (1e-6 + 0.999998 * uSha.y) = nonSha.glass[2].u ($RES_SIM_168) (77|98) [SCAL] (1) nonSha.glass[1].JIn_b = nonSha.glass[2].JOut_a ($RES_SIM_169) (78|99) [SCAL] (1) nonSha.glass[1].JOut_b = nonSha.glass[2].JIn_a ($RES_SIM_170) (79|100) [SCAL] (1) nonSha.gas[1].T_b = nonSha.glass[2].port_a.T ($RES_SIM_171) (80|101) [SCAL] (1) nonSha.glass[1].port_b.T = nonSha.gas[1].T_a ($RES_SIM_172) (81|102) [SCAL] (1) radShaInt.JOut_1 = sha.glass[2].JIn_b ($RES_SIM_174) (82|103) [SCAL] (1) sha.glass[2].JOut_b = sha.JOut_b ($RES_SIM_175) (83|104) [SCAL] (1) sha.glass[1].JOut_a = sha.JOut_a ($RES_SIM_176) (84|105) [SCAL] (1) radShaOut.JOut_1 = sha.glass[1].JIn_a ($RES_SIM_177) (85|106) [SCAL] (1) conOutSha.Q_flow + sha.glass[1].port_a.Q_flow = 0.0 ($RES_SIM_178) (86|107) [SCAL] (1) conOutSha.solid.T = sha.glass[1].port_a.T ($RES_SIM_179) (87|108) [SCAL] (1) conRooSha.Q_flow + sha.glass[2].port_b.Q_flow = 0.0 ($RES_SIM_180) (88|109) [SCAL] (1) conRooSha.solid.T = sha.glass[2].port_b.T ($RES_SIM_181) (89|110) [SCAL] (1) 1e-6 + 0.999998 * uSha.y = sha.gas[1].u ($RES_SIM_182) (90|111) [SCAL] (1) 1e-6 + 0.999998 * uSha.y = sha.glass[1].u ($RES_SIM_183) (91|112) [SCAL] (1) 1e-6 + 0.999998 * uSha.y = sha.glass[2].u ($RES_SIM_184) (92|113) [SCAL] (1) sha.glass[1].JIn_b = sha.glass[2].JOut_a ($RES_SIM_185) (93|114) [SCAL] (1) sha.glass[1].JOut_b = sha.glass[2].JIn_a ($RES_SIM_186) (94|115) [SCAL] (1) sha.gas[1].T_b = sha.glass[2].port_a.T ($RES_SIM_187) (95|116) [SCAL] (1) sha.glass[1].port_b.T = sha.gas[1].T_a ($RES_SIM_188) (96|117) [SCAL] (1) nonSha.gas[1].deltaRa = 100.0 ($RES_BND_192) (97|118) [SCAL] (1) nonSha.gas[1].deltaNu = 0.1 ($RES_BND_191) (98|119) [SCAL] (1) sha.gas[1].deltaRa = 100.0 ($RES_BND_190) (99|120) [SCAL] (1) sha.gas[1].deltaNu = 0.1 ($RES_BND_189) (100|121) [TUPL] (3) ($FUN_1, $FUN_2, $FUN_3) = Buildings.HeatTransfer.Windows.BaseClasses.convectionVerticalCavity(sha.gas[1].gas, sha.gas[1].Ra, sha.gas[1].T_m, sha.gas[1].dT, sha.gas[1].h, sha.gas[1].deltaNu, sha.gas[1].deltaRa) ($RES_AUX_194) (101|124) [TUPL] (3) ($FUN_4, $FUN_5, $FUN_6) = Buildings.HeatTransfer.Windows.BaseClasses.convectionVerticalCavity(nonSha.gas[1].gas, nonSha.gas[1].Ra, nonSha.gas[1].T_m, nonSha.gas[1].dT, nonSha.gas[1].h, nonSha.gas[1].deltaNu, nonSha.gas[1].deltaRa) ($RES_AUX_193) (102|127) [TUPL] (3) ($FUN_7, $FUN_8, $FUN_9) = Buildings.HeatTransfer.Windows.BaseClasses.convectionVerticalCavity(sha.gas[1].gas, sha.gas[1].Ra0, sha.gas[1].T0, 10.0, sha.gas[1].h, sha.gas[1].deltaNu, sha.gas[1].deltaRa) ($RES_AUX_196) (103|130) [TUPL] (3) ($FUN_10, $FUN_11, $FUN_12) = Buildings.HeatTransfer.Windows.BaseClasses.convectionVerticalCavity(nonSha.gas[1].gas, nonSha.gas[1].Ra0, nonSha.gas[1].T0, 10.0, nonSha.gas[1].h, nonSha.gas[1].deltaNu, nonSha.gas[1].deltaRa) ($RES_AUX_195) (104|133) [SCAL] (1) nonSha.gas[1].q_flow = $FUN_6 ($RES_SIM_202) (105|134) [SCAL] (1) nonSha.gas[1].hCon = $FUN_5 ($RES_SIM_201) (106|135) [SCAL] (1) nonSha.gas[1].Nu = $FUN_4 ($RES_SIM_200) (107|136) [SCAL] (1) sha.gas[1].q_flow = $FUN_3 ($RES_SIM_199) (108|137) [SCAL] (1) sha.gas[1].hCon = $FUN_2 ($RES_SIM_198) (109|138) [SCAL] (1) sha.gas[1].Nu = $FUN_1 ($RES_SIM_197) (110|139) [SCAL] (1) $TEV_1 = time < (uSha.startTime + uSha.duration) ($RES_EVT_212) (111|140) [SCAL] (1) $TEV_0 = time < uSha.startTime ($RES_EVT_211) (112|141) [SCAL] (1) radIn.heatPort.T = TRoo.k ($RES_BND_289) (113|142) [SCAL] (1) TRadRoo.port.T = TRoo.k ($RES_BND_288) (114|143) [SCAL] (1) conRooNonSha.fluid.T = TRoo.k ($RES_BND_287) (115|144) [SCAL] (1) conRooSha.fluid.T = TRoo.k ($RES_BND_286) (116|145) [SCAL] (1) TAirRoo.port.T = TRoo.k ($RES_BND_285) (117|146) [SCAL] (1) TAirRoo.T = TRoo.k ($RES_BND_284) (118|147) [SCAL] (1) TRadRoo.T = TRoo.k ($RES_BND_283) (119|148) [SCAL] (1) TRoo.y = TRoo.k ($RES_BND_282) (120|149) [SCAL] (1) hANonSha.u1 = hA.k ($RES_BND_281) (121|150) [SCAL] (1) hASha.u1 = hA.k ($RES_BND_280) (122|151) [SCAL] (1) hA.y = hA.k ($RES_BND_279) (123|152) [SCAL] (1) conOutSha.fluid.T = TOut.k ($RES_BND_278) (124|153) [SCAL] (1) conOutNonSha1.fluid.T = TOut.k ($RES_BND_277) (125|154) [SCAL] (1) TAirOut.port.T = TOut.k ($RES_BND_276) (126|155) [SCAL] (1) radOut.TBlaSky = TOut.k ($RES_BND_275) (127|156) [SCAL] (1) radOut.TOut = TOut.k ($RES_BND_274) (128|157) [SCAL] (1) TAirOut.T = TOut.k ($RES_BND_273) (129|158) [SCAL] (1) TOut.y = TOut.k ($RES_BND_272) (130|159) [SCAL] (1) hA.k = 4.0 * A ($RES_BND_271) (131|160) [SCAL] (1) radOut.T04 = radOut.T0 ^ 4.0 ($RES_BND_270) (132|161) [SCAL] (1) radOut.T03 = radOut.T0 ^ 3.0 ($RES_BND_269) (133|162) [SCAL] (1) radOut.A = A ($RES_BND_268) (134|163) [SCAL] (1) nonSha.gas[1].A = nonSha.A ($RES_BND_266) (135|164) [FOR-] (2) ($RES_BND_264) (135|164) [----] for $i1 in 1:2 loop (135|164) [----] [SCAL] (1) nonSha.glass[$i1].R = nonSha.glass[$i1].x / nonSha.glass[$i1].A / 2.0 / nonSha.glass[$i1].k ($RES_BND_265) (135|164) [----] end for; (136|166) [FOR-] (2) ($RES_BND_262) (136|166) [----] for $i1 in 1:2 loop (136|166) [----] [SCAL] (1) nonSha.glass[$i1].k = nonSha.glaSys.glass[$i1].k ($RES_BND_263) (136|166) [----] end for; (137|168) [FOR-] (2) ($RES_BND_260) (137|168) [----] for $i1 in 1:2 loop (137|168) [----] [SCAL] (1) nonSha.glass[$i1].x = nonSha.glaSys.glass[$i1].x ($RES_BND_261) (137|168) [----] end for; (138|170) [FOR-] (2) ($RES_BND_258) (138|170) [----] for $i1 in 1:2 loop (138|170) [----] [SCAL] (1) nonSha.glass[$i1].T04 = nonSha.glass[$i1].T0 ^ 4.0 ($RES_BND_259) (138|170) [----] end for; (139|172) [FOR-] (2) ($RES_BND_256) (139|172) [----] for $i1 in 1:2 loop (139|172) [----] [SCAL] (1) nonSha.glass[$i1].T03 = nonSha.glass[$i1].T0 ^ 3.0 ($RES_BND_257) (139|172) [----] end for; (140|174) [FOR-] (2) ($RES_BND_254) (140|174) [----] for $i1 in 1:2 loop (140|174) [----] [SCAL] (1) nonSha.glass[$i1].tauIR = nonSha.glaSys.glass[$i1].tauIR ($RES_BND_255) (140|174) [----] end for; (141|176) [FOR-] (2) ($RES_BND_252) (141|176) [----] for $i1 in 1:2 loop (141|176) [----] [SCAL] (1) nonSha.glass[$i1].rhoIR_b = 1.0 - nonSha.glass[$i1].tauIR - nonSha.glass[$i1].absIR_b ($RES_BND_253) (141|176) [----] end for; (142|178) [FOR-] (2) ($RES_BND_250) (142|178) [----] for $i1 in 1:2 loop (142|178) [----] [SCAL] (1) nonSha.glass[$i1].rhoIR_a = 1.0 - nonSha.glass[$i1].tauIR - nonSha.glass[$i1].absIR_a ($RES_BND_251) (142|178) [----] end for; (143|180) [FOR-] (2) ($RES_BND_248) (143|180) [----] for $i1 in 1:2 loop (143|180) [----] [SCAL] (1) nonSha.glass[$i1].absIR_b = nonSha.glaSys.glass[$i1].absIR_b ($RES_BND_249) (143|180) [----] end for; (144|182) [FOR-] (2) ($RES_BND_246) (144|182) [----] for $i1 in 1:2 loop (144|182) [----] [SCAL] (1) nonSha.glass[$i1].absIR_a = nonSha.glaSys.glass[$i1].absIR_a ($RES_BND_247) (144|182) [----] end for; (145|184) [FOR-] (2) ($RES_BND_244) (145|184) [----] for $i1 in 1:2 loop (145|184) [----] [SCAL] (1) nonSha.glass[$i1].A = nonSha.A ($RES_BND_245) (145|184) [----] end for; (146|186) [SCAL] (1) nonSha.A = A ($RES_BND_243) (147|187) [SCAL] (1) radIn.T04 = radIn.T0 ^ 4.0 ($RES_BND_242) (148|188) [SCAL] (1) radIn.T03 = radIn.T0 ^ 3.0 ($RES_BND_241) (149|189) [SCAL] (1) radIn.tauIR = 1.0 - radIn.absIR - radIn.rhoIR ($RES_BND_240) (150|190) [SCAL] (1) radIn.rhoIR = 1.0 - radIn.absIR ($RES_BND_239) (151|191) [SCAL] (1) radIn.A = A ($RES_BND_238) (152|192) [SCAL] (1) sha.gas[1].A = sha.A ($RES_BND_236) (153|193) [FOR-] (2) ($RES_BND_234) (153|193) [----] for $i1 in 1:2 loop (153|193) [----] [SCAL] (1) sha.glass[$i1].R = sha.glass[$i1].x / sha.glass[$i1].A / 2.0 / sha.glass[$i1].k ($RES_BND_235) (153|193) [----] end for; (154|195) [FOR-] (2) ($RES_BND_232) (154|195) [----] for $i1 in 1:2 loop (154|195) [----] [SCAL] (1) sha.glass[$i1].k = sha.glaSys.glass[$i1].k ($RES_BND_233) (154|195) [----] end for; (155|197) [FOR-] (2) ($RES_BND_230) (155|197) [----] for $i1 in 1:2 loop (155|197) [----] [SCAL] (1) sha.glass[$i1].x = sha.glaSys.glass[$i1].x ($RES_BND_231) (155|197) [----] end for; (156|199) [FOR-] (2) ($RES_BND_228) (156|199) [----] for $i1 in 1:2 loop (156|199) [----] [SCAL] (1) sha.glass[$i1].T04 = sha.glass[$i1].T0 ^ 4.0 ($RES_BND_229) (156|199) [----] end for; (157|201) [FOR-] (2) ($RES_BND_226) (157|201) [----] for $i1 in 1:2 loop (157|201) [----] [SCAL] (1) sha.glass[$i1].T03 = sha.glass[$i1].T0 ^ 3.0 ($RES_BND_227) (157|201) [----] end for; (158|203) [FOR-] (2) ($RES_BND_224) (158|203) [----] for $i1 in 1:2 loop (158|203) [----] [SCAL] (1) sha.glass[$i1].tauIR = sha.glaSys.glass[$i1].tauIR ($RES_BND_225) (158|203) [----] end for; (159|205) [FOR-] (2) ($RES_BND_222) (159|205) [----] for $i1 in 1:2 loop (159|205) [----] [SCAL] (1) sha.glass[$i1].rhoIR_b = 1.0 - sha.glass[$i1].tauIR - sha.glass[$i1].absIR_b ($RES_BND_223) (159|205) [----] end for; (160|207) [FOR-] (2) ($RES_BND_220) (160|207) [----] for $i1 in 1:2 loop (160|207) [----] [SCAL] (1) sha.glass[$i1].rhoIR_a = 1.0 - sha.glass[$i1].tauIR - sha.glass[$i1].absIR_a ($RES_BND_221) (160|207) [----] end for; (161|209) [FOR-] (2) ($RES_BND_218) (161|209) [----] for $i1 in 1:2 loop (161|209) [----] [SCAL] (1) sha.glass[$i1].absIR_b = sha.glaSys.glass[$i1].absIR_b ($RES_BND_219) (161|209) [----] end for; (162|211) [FOR-] (2) ($RES_BND_216) (162|211) [----] for $i1 in 1:2 loop (162|211) [----] [SCAL] (1) sha.glass[$i1].absIR_a = sha.glaSys.glass[$i1].absIR_a ($RES_BND_217) (162|211) [----] end for; (163|213) [FOR-] (2) ($RES_BND_214) (163|213) [----] for $i1 in 1:2 loop (163|213) [----] [SCAL] (1) sha.glass[$i1].A = sha.A ($RES_BND_215) (163|213) [----] end for; (164|215) [SCAL] (1) sha.A = A ($RES_BND_213) (165|216) [RECD] (40) nonSha.glaSys = glaSys ($RES_BND_292) (166|256) [RECD] (40) sha.glaSys = glaSys ($RES_BND_290) (167|296) [RECD] (9) nonSha.gas[1].gas = nonSha.glaSys.gas[1] ($RES_SIM_296) (168|305) [SCAL] (1) sha.gas[1].h = sqrt(sha.gas[1].A) ($RES_SIM_295) =================== Scalar Matching =================== variable to equation ********************** var 1 --> eqn 104 var 2 --> eqn 82 var 3 --> eqn 105 var 4 --> eqn 74 var 5 --> eqn 59 var 6 --> eqn 102 var 7 --> eqn 73 var 8 --> eqn 113 var 9 --> eqn 114 var 10 --> eqn 103 var 11 --> eqn 111 var 12 --> eqn 112 var 13 --> eqn 67 var 14 --> eqn 68 var 15 --> eqn 106 var 16 --> eqn 72 var 17 --> eqn 71 var 18 --> eqn 70 var 19 --> eqn 80 var 20 --> eqn 108 var 21 --> eqn 65 var 22 --> eqn 66 var 23 --> eqn 69 var 24 --> eqn 64 var 25 --> eqn 61 var 26 --> eqn 62 var 27 --> eqn 63 var 28 --> eqn 60 var 29 --> eqn 54 var 30 --> eqn 55 var 31 --> eqn 79 var 32 --> eqn 110 var 33 --> eqn -1 var 34 --> eqn 136 var 35 --> eqn -1 var 36 --> eqn 57 var 37 --> eqn 116 var 38 --> eqn 115 var 39 --> eqn 58 var 40 --> eqn 120 var 41 --> eqn 119 var 42 --> eqn 86 var 43 --> eqn 84 var 44 --> eqn 53 var 45 --> eqn 76 var 46 --> eqn 75 var 47 --> eqn 51 var 48 --> eqn 48 var 49 --> eqn 50 var 50 --> eqn 52 var 51 --> eqn 49 var 52 --> eqn 87 var 53 --> eqn 89 var 54 --> eqn 88 var 55 --> eqn 90 var 56 --> eqn 99 var 57 --> eqn 44 var 58 --> eqn 45 var 59 --> eqn 46 var 60 --> eqn 98 var 61 --> eqn 32 var 62 --> eqn 47 var 63 --> eqn 96 var 64 --> eqn 97 var 65 --> eqn 40 var 66 --> eqn 41 var 67 --> eqn 91 var 68 --> eqn 77 var 69 --> eqn 101 var 70 --> eqn 43 var 71 --> eqn 78 var 72 --> eqn 93 var 73 --> eqn 38 var 74 --> eqn 39 var 75 --> eqn 42 var 76 --> eqn 37 var 77 --> eqn 34 var 78 --> eqn 35 var 79 --> eqn 36 var 80 --> eqn 33 var 81 --> eqn 29 var 82 --> eqn 125 var 83 --> eqn 27 var 84 --> eqn 95 var 85 --> eqn -1 var 86 --> eqn 133 var 87 --> eqn 135 var 88 --> eqn 30 var 89 --> eqn 28 var 90 --> eqn 100 var 91 --> eqn 31 var 92 --> eqn 118 var 93 --> eqn 117 var 94 --> eqn 92 var 95 --> eqn 94 var 96 --> eqn 85 var 97 --> eqn 83 var 98 --> eqn 26 var 99 --> eqn 25 var 100 --> eqn 24 var 101 --> eqn 22 var 102 --> eqn 23 var 103 --> eqn 20 var 104 --> eqn 21 var 105 --> eqn 109 var 106 --> eqn 18 var 107 --> eqn 19 var 108 --> eqn 13 var 109 --> eqn 107 var 110 --> eqn 16 var 111 --> eqn 17 var 112 --> eqn 12 var 113 --> eqn 14 var 114 --> eqn 15 var 115 --> eqn 10 var 116 --> eqn 11 var 117 --> eqn 9 var 118 --> eqn 81 var 119 --> eqn 123 var 120 --> eqn 137 var 121 --> eqn 138 var 122 --> eqn 126 var 123 --> eqn 134 var 124 --> eqn 124 var 125 --> eqn 139 var 126 --> eqn 140 var 127 --> eqn 141 var 128 --> eqn 142 var 129 --> eqn 143 var 130 --> eqn 144 var 131 --> eqn 145 var 132 --> eqn 146 var 133 --> eqn 147 var 134 --> eqn 148 var 135 --> eqn 149 var 136 --> eqn 150 var 137 --> eqn 151 var 138 --> eqn 152 var 139 --> eqn 153 var 140 --> eqn 154 var 141 --> eqn 155 var 142 --> eqn 156 var 143 --> eqn 157 var 144 --> eqn 158 var 145 --> eqn 130 var 146 --> eqn 131 var 147 --> eqn 3 var 148 --> eqn 5 var 149 --> eqn 6 var 150 --> eqn 7 var 151 --> eqn 159 var 152 --> eqn 160 var 153 --> eqn 161 var 154 --> eqn 162 var 155 --> eqn 4 var 156 --> eqn 1 var 157 --> eqn 2 var 158 --> eqn 132 var 159 --> eqn 163 var 160 --> eqn 164 var 161 --> eqn 165 var 162 --> eqn 166 var 163 --> eqn 167 var 164 --> eqn 168 var 165 --> eqn 169 var 166 --> eqn 170 var 167 --> eqn 171 var 168 --> eqn 172 var 169 --> eqn 173 var 170 --> eqn 174 var 171 --> eqn 175 var 172 --> eqn 176 var 173 --> eqn 177 var 174 --> eqn 178 var 175 --> eqn 179 var 176 --> eqn 180 var 177 --> eqn 181 var 178 --> eqn 182 var 179 --> eqn 183 var 180 --> eqn 184 var 181 --> eqn 185 var 182 --> eqn 186 var 183 --> eqn 187 var 184 --> eqn 188 var 185 --> eqn 189 var 186 --> eqn 190 var 187 --> eqn 191 var 188 --> eqn -1 var 189 --> eqn -1 var 190 --> eqn 56 var 191 --> eqn 305 var 192 --> eqn 192 var 193 --> eqn 193 var 194 --> eqn 194 var 195 --> eqn 195 var 196 --> eqn 196 var 197 --> eqn 197 var 198 --> eqn 198 var 199 --> eqn 199 var 200 --> eqn 200 var 201 --> eqn 201 var 202 --> eqn 202 var 203 --> eqn 203 var 204 --> eqn 204 var 205 --> eqn 205 var 206 --> eqn 206 var 207 --> eqn 207 var 208 --> eqn 208 var 209 --> eqn 209 var 210 --> eqn 210 var 211 --> eqn 211 var 212 --> eqn 212 var 213 --> eqn 213 var 214 --> eqn 214 var 215 --> eqn 215 var 216 --> eqn 296 var 217 --> eqn 297 var 218 --> eqn 298 var 219 --> eqn 299 var 220 --> eqn 300 var 221 --> eqn 301 var 222 --> eqn 302 var 223 --> eqn 303 var 224 --> eqn 304 var 225 --> eqn 216 var 226 --> eqn 217 var 227 --> eqn 218 var 228 --> eqn 219 var 229 --> eqn 220 var 230 --> eqn 221 var 231 --> eqn 222 var 232 --> eqn 223 var 233 --> eqn 224 var 234 --> eqn 225 var 235 --> eqn 226 var 236 --> eqn 227 var 237 --> eqn 228 var 238 --> eqn 229 var 239 --> eqn 230 var 240 --> eqn 231 var 241 --> eqn 232 var 242 --> eqn 233 var 243 --> eqn 234 var 244 --> eqn 235 var 245 --> eqn 236 var 246 --> eqn 237 var 247 --> eqn 238 var 248 --> eqn 239 var 249 --> eqn 240 var 250 --> eqn 241 var 251 --> eqn 242 var 252 --> eqn 243 var 253 --> eqn 244 var 254 --> eqn 245 var 255 --> eqn 246 var 256 --> eqn 247 var 257 --> eqn 248 var 258 --> eqn 249 var 259 --> eqn 250 var 260 --> eqn 251 var 261 --> eqn 252 var 262 --> eqn 253 var 263 --> eqn 254 var 264 --> eqn 255 var 265 --> eqn 8 var 266 --> eqn -1 var 267 --> eqn 128 var 268 --> eqn 129 var 269 --> eqn -1 var 270 --> eqn 127 var 271 --> eqn 122 var 272 --> eqn -1 var 273 --> eqn 121 var 274 --> eqn 256 var 275 --> eqn 257 var 276 --> eqn 258 var 277 --> eqn 259 var 278 --> eqn 260 var 279 --> eqn 261 var 280 --> eqn 262 var 281 --> eqn 263 var 282 --> eqn 264 var 283 --> eqn 265 var 284 --> eqn 266 var 285 --> eqn 267 var 286 --> eqn 268 var 287 --> eqn 269 var 288 --> eqn 270 var 289 --> eqn 271 var 290 --> eqn 272 var 291 --> eqn 273 var 292 --> eqn 274 var 293 --> eqn 275 var 294 --> eqn 276 var 295 --> eqn 277 var 296 --> eqn 278 var 297 --> eqn 279 var 298 --> eqn 280 var 299 --> eqn 281 var 300 --> eqn 282 var 301 --> eqn 283 var 302 --> eqn 284 var 303 --> eqn 285 var 304 --> eqn 286 var 305 --> eqn 287 var 306 --> eqn 288 var 307 --> eqn 289 var 308 --> eqn 290 var 309 --> eqn 291 var 310 --> eqn 292 var 311 --> eqn 293 var 312 --> eqn 294 var 313 --> eqn 295 equation to variable ********************** eqn 1 --> var 156 eqn 2 --> var 157 eqn 3 --> var 147 eqn 4 --> var 155 eqn 5 --> var 148 eqn 6 --> var 149 eqn 7 --> var 150 eqn 8 --> var 265 eqn 9 --> var 117 eqn 10 --> var 115 eqn 11 --> var 116 eqn 12 --> var 112 eqn 13 --> var 108 eqn 14 --> var 113 eqn 15 --> var 114 eqn 16 --> var 110 eqn 17 --> var 111 eqn 18 --> var 106 eqn 19 --> var 107 eqn 20 --> var 103 eqn 21 --> var 104 eqn 22 --> var 101 eqn 23 --> var 102 eqn 24 --> var 100 eqn 25 --> var 99 eqn 26 --> var 98 eqn 27 --> var 83 eqn 28 --> var 89 eqn 29 --> var 81 eqn 30 --> var 88 eqn 31 --> var 91 eqn 32 --> var 61 eqn 33 --> var 80 eqn 34 --> var 77 eqn 35 --> var 78 eqn 36 --> var 79 eqn 37 --> var 76 eqn 38 --> var 73 eqn 39 --> var 74 eqn 40 --> var 65 eqn 41 --> var 66 eqn 42 --> var 75 eqn 43 --> var 70 eqn 44 --> var 57 eqn 45 --> var 58 eqn 46 --> var 59 eqn 47 --> var 62 eqn 48 --> var 48 eqn 49 --> var 51 eqn 50 --> var 49 eqn 51 --> var 47 eqn 52 --> var 50 eqn 53 --> var 44 eqn 54 --> var 29 eqn 55 --> var 30 eqn 56 --> var 190 eqn 57 --> var 36 eqn 58 --> var 39 eqn 59 --> var 5 eqn 60 --> var 28 eqn 61 --> var 25 eqn 62 --> var 26 eqn 63 --> var 27 eqn 64 --> var 24 eqn 65 --> var 21 eqn 66 --> var 22 eqn 67 --> var 13 eqn 68 --> var 14 eqn 69 --> var 23 eqn 70 --> var 18 eqn 71 --> var 17 eqn 72 --> var 16 eqn 73 --> var 7 eqn 74 --> var 4 eqn 75 --> var 46 eqn 76 --> var 45 eqn 77 --> var 68 eqn 78 --> var 71 eqn 79 --> var 31 eqn 80 --> var 19 eqn 81 --> var 118 eqn 82 --> var 2 eqn 83 --> var 97 eqn 84 --> var 43 eqn 85 --> var 96 eqn 86 --> var 42 eqn 87 --> var 52 eqn 88 --> var 54 eqn 89 --> var 53 eqn 90 --> var 55 eqn 91 --> var 67 eqn 92 --> var 94 eqn 93 --> var 72 eqn 94 --> var 95 eqn 95 --> var 84 eqn 96 --> var 63 eqn 97 --> var 64 eqn 98 --> var 60 eqn 99 --> var 56 eqn 100 --> var 90 eqn 101 --> var 69 eqn 102 --> var 6 eqn 103 --> var 10 eqn 104 --> var 1 eqn 105 --> var 3 eqn 106 --> var 15 eqn 107 --> var 109 eqn 108 --> var 20 eqn 109 --> var 105 eqn 110 --> var 32 eqn 111 --> var 11 eqn 112 --> var 12 eqn 113 --> var 8 eqn 114 --> var 9 eqn 115 --> var 38 eqn 116 --> var 37 eqn 117 --> var 93 eqn 118 --> var 92 eqn 119 --> var 41 eqn 120 --> var 40 eqn 121 --> var 273 eqn 122 --> var 271 eqn 123 --> var 119 eqn 124 --> var 124 eqn 125 --> var 82 eqn 126 --> var 122 eqn 127 --> var 270 eqn 128 --> var 267 eqn 129 --> var 268 eqn 130 --> var 145 eqn 131 --> var 146 eqn 132 --> var 158 eqn 133 --> var 86 eqn 134 --> var 123 eqn 135 --> var 87 eqn 136 --> var 34 eqn 137 --> var 120 eqn 138 --> var 121 eqn 139 --> var 125 eqn 140 --> var 126 eqn 141 --> var 127 eqn 142 --> var 128 eqn 143 --> var 129 eqn 144 --> var 130 eqn 145 --> var 131 eqn 146 --> var 132 eqn 147 --> var 133 eqn 148 --> var 134 eqn 149 --> var 135 eqn 150 --> var 136 eqn 151 --> var 137 eqn 152 --> var 138 eqn 153 --> var 139 eqn 154 --> var 140 eqn 155 --> var 141 eqn 156 --> var 142 eqn 157 --> var 143 eqn 158 --> var 144 eqn 159 --> var 151 eqn 160 --> var 152 eqn 161 --> var 153 eqn 162 --> var 154 eqn 163 --> var 159 eqn 164 --> var 160 eqn 165 --> var 161 eqn 166 --> var 162 eqn 167 --> var 163 eqn 168 --> var 164 eqn 169 --> var 165 eqn 170 --> var 166 eqn 171 --> var 167 eqn 172 --> var 168 eqn 173 --> var 169 eqn 174 --> var 170 eqn 175 --> var 171 eqn 176 --> var 172 eqn 177 --> var 173 eqn 178 --> var 174 eqn 179 --> var 175 eqn 180 --> var 176 eqn 181 --> var 177 eqn 182 --> var 178 eqn 183 --> var 179 eqn 184 --> var 180 eqn 185 --> var 181 eqn 186 --> var 182 eqn 187 --> var 183 eqn 188 --> var 184 eqn 189 --> var 185 eqn 190 --> var 186 eqn 191 --> var 187 eqn 192 --> var 192 eqn 193 --> var 193 eqn 194 --> var 194 eqn 195 --> var 195 eqn 196 --> var 196 eqn 197 --> var 197 eqn 198 --> var 198 eqn 199 --> var 199 eqn 200 --> var 200 eqn 201 --> var 201 eqn 202 --> var 202 eqn 203 --> var 203 eqn 204 --> var 204 eqn 205 --> var 205 eqn 206 --> var 206 eqn 207 --> var 207 eqn 208 --> var 208 eqn 209 --> var 209 eqn 210 --> var 210 eqn 211 --> var 211 eqn 212 --> var 212 eqn 213 --> var 213 eqn 214 --> var 214 eqn 215 --> var 215 eqn 216 --> var 225 eqn 217 --> var 226 eqn 218 --> var 227 eqn 219 --> var 228 eqn 220 --> var 229 eqn 221 --> var 230 eqn 222 --> var 231 eqn 223 --> var 232 eqn 224 --> var 233 eqn 225 --> var 234 eqn 226 --> var 235 eqn 227 --> var 236 eqn 228 --> var 237 eqn 229 --> var 238 eqn 230 --> var 239 eqn 231 --> var 240 eqn 232 --> var 241 eqn 233 --> var 242 eqn 234 --> var 243 eqn 235 --> var 244 eqn 236 --> var 245 eqn 237 --> var 246 eqn 238 --> var 247 eqn 239 --> var 248 eqn 240 --> var 249 eqn 241 --> var 250 eqn 242 --> var 251 eqn 243 --> var 252 eqn 244 --> var 253 eqn 245 --> var 254 eqn 246 --> var 255 eqn 247 --> var 256 eqn 248 --> var 257 eqn 249 --> var 258 eqn 250 --> var 259 eqn 251 --> var 260 eqn 252 --> var 261 eqn 253 --> var 262 eqn 254 --> var 263 eqn 255 --> var 264 eqn 256 --> var 274 eqn 257 --> var 275 eqn 258 --> var 276 eqn 259 --> var 277 eqn 260 --> var 278 eqn 261 --> var 279 eqn 262 --> var 280 eqn 263 --> var 281 eqn 264 --> var 282 eqn 265 --> var 283 eqn 266 --> var 284 eqn 267 --> var 285 eqn 268 --> var 286 eqn 269 --> var 287 eqn 270 --> var 288 eqn 271 --> var 289 eqn 272 --> var 290 eqn 273 --> var 291 eqn 274 --> var 292 eqn 275 --> var 293 eqn 276 --> var 294 eqn 277 --> var 295 eqn 278 --> var 296 eqn 279 --> var 297 eqn 280 --> var 298 eqn 281 --> var 299 eqn 282 --> var 300 eqn 283 --> var 301 eqn 284 --> var 302 eqn 285 --> var 303 eqn 286 --> var 304 eqn 287 --> var 305 eqn 288 --> var 306 eqn 289 --> var 307 eqn 290 --> var 308 eqn 291 --> var 309 eqn 292 --> var 310 eqn 293 --> var 311 eqn 294 --> var 312 eqn 295 --> var 313 eqn 296 --> var 216 eqn 297 --> var 217 eqn 298 --> var 218 eqn 299 --> var 219 eqn 300 --> var 220 eqn 301 --> var 221 eqn 302 --> var 222 eqn 303 --> var 223 eqn 304 --> var 224 eqn 305 --> var 191 Error: Internal error NBInitialization.main failed to apply modules! " [Timeout remaining time 300] [Calling sys.exit(0), Time elapsed: 6.81066350499168] Failed to read output from testmodel.py, exit status != 0: 0.14440019568428397 0.164122195 0.12102425800000001 Calling exit ...