Check of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeEnergyConservationCheck2
The model has the same number of unknowns and equations: 7332
Check of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeEnergyConservationCheck2 successful.
| ModelicaTest410 experiment tolerance | ModelicaTest410 tightend tolerance | |
|---|---|---|
| Testrun ID | 20250225034436 | 20250225005809 |
| Simulator | Dymola | Dymola |
| Status | PASS | PASS |
| Run time | 12.25 | 12.27 |
| Workdir | D:/MSL_Nightly/Output/Testruns/Dymola/ModelicaTest_org\ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeEnergyConservationCheck2\WorkDir | D:/MSL_Nightly/Output/Testruns/Dymola/ModelicaTest\ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeEnergyConservationCheck2\WorkDir |
| ModelicaTest410 experiment tolerance | ModelicaTest410 tightend tolerance | |
|---|---|---|
| Status | PASS | PASS |
| Task runtime | 2.03 s | 2.04 s |
| Warnings | 0 | 0 |
| Errors | 0 | 0 |
| Open log  | Open log  |
| ModelicaTest410 experiment tolerance | ModelicaTest410 tightend tolerance | |
|---|---|---|
| Status | PASS | PASS |
| Task runtime | 6.61 s | 6.61 s |
| Warnings | 0 | 0 |
| Errors | 0 | 0 |
| Open log  | Open log  | |
| Numerical Jacobians | 0 | 0 |
| Continuous time states | 238 | 238 |
| Number NL equation systems | 6 | 6 |
| Largest NL equation system | 30 | 30 |
| ModelicaTest410 experiment tolerance | ModelicaTest410 tightend tolerance | |
|---|---|---|
| Status | PASS | PASS |
| Task runtime | 3.55 s | 3.56 s |
| Simulation time | 500.00 s | 500.00 s |
| Copy result file path  | Copy result file path  | |
| Open log  | Open log  | |
| Time Events | 1 | 1 |
| State Events | 0 | 0 |
| Jacobian evaluations | 38 | 38 |
| Integrator Steps | 441 | 441 |
| Total CPU time | 2.74 s | 2.70 s |
| CPU time Integration | 2.74 s | 2.70 s |
| CPU time Initialization | 0.00 s | 0.00 s |
check - Open log
Check of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeEnergyConservationCheck2
The model has the same number of unknowns and equations: 7332
Check of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeEnergyConservationCheck2 successful.
check - Open log
Check of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeEnergyConservationCheck2
The model has the same number of unknowns and equations: 7332
Check of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeEnergyConservationCheck2 successful.
translate - Open log
Translation of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeEnergyConservationCheck2
The DAE has 7332 scalar unknowns and 7332 scalar equations.
Warning: The initial conditions are not fully specified.
Dymola has selected default initial conditions.
Warning: Assuming fixed start value for the continuous states:
pipeA_V_B.mediums[1].p(start = pipeA_V_B.ps_start[1])
pipeA_V_B.mediums[1].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[2].p(start = pipeA_V_B.ps_start[2])
pipeA_V_B.mediums[2].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[3].p(start = pipeA_V_B.ps_start[3])
pipeA_V_B.mediums[3].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[4].p(start = pipeA_V_B.ps_start[4])
pipeA_V_B.mediums[4].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[5].p(start = pipeA_V_B.ps_start[5])
pipeA_V_B.mediums[5].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[6].p(start = pipeA_V_B.ps_start[6])
pipeA_V_B.mediums[6].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[7].p(start = pipeA_V_B.ps_start[7])
pipeA_V_B.mediums[7].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[8].p(start = pipeA_V_B.ps_start[8])
pipeA_V_B.mediums[8].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[9].p(start = pipeA_V_B.ps_start[9])
pipeA_V_B.mediums[9].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[10].p(start = pipeA_V_B.ps_start[10])
pipeA_V_B.mediums[10].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[11].p(start = pipeA_V_B.ps_start[11])
pipeA_V_B.mediums[11].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[12].p(start = pipeA_V_B.ps_start[12])
pipeA_V_B.mediums[12].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[13].p(start = pipeA_V_B.ps_start[13])
pipeA_V_B.mediums[13].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[14].p(start = pipeA_V_B.ps_start[14])
pipeA_V_B.mediums[14].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[15].p(start = pipeA_V_B.ps_start[15])
pipeA_V_B.mediums[15].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[16].p(start = pipeA_V_B.ps_start[16])
pipeA_V_B.mediums[16].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[17].p(start = pipeA_V_B.ps_start[17])
pipeA_V_B.mediums[17].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[18].p(start = pipeA_V_B.ps_start[18])
pipeA_V_B.mediums[18].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[19].p(start = pipeA_V_B.ps_start[19])
pipeA_V_B.mediums[19].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[20].p(start = pipeA_V_B.ps_start[20])
pipeA_V_B.mediums[20].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[21].p(start = pipeA_V_B.ps_start[21])
pipeA_V_B.mediums[21].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[22].p(start = pipeA_V_B.ps_start[22])
pipeA_V_B.mediums[22].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[23].p(start = pipeA_V_B.ps_start[23])
pipeA_V_B.mediums[23].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[24].p(start = pipeA_V_B.ps_start[24])
pipeA_V_B.mediums[24].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[25].p(start = pipeA_V_B.ps_start[25])
pipeA_V_B.mediums[25].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[26].p(start = pipeA_V_B.ps_start[26])
pipeA_V_B.mediums[26].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[27].p(start = pipeA_V_B.ps_start[27])
pipeA_V_B.mediums[27].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[28].p(start = pipeA_V_B.ps_start[28])
pipeA_V_B.mediums[28].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[29].p(start = pipeA_V_B.ps_start[29])
pipeA_V_B.mediums[29].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[30].p(start = pipeA_V_B.ps_start[30])
pipeA_V_B.mediums[30].T(start = pipeA_V_B.T_start)
pipeA_VB.mediums[1].p(start = pipeA_VB.ps_start[1])
pipeA_VB.mediums[1].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[2].p(start = pipeA_VB.ps_start[2])
pipeA_VB.mediums[2].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[3].p(start = pipeA_VB.ps_start[3])
pipeA_VB.mediums[3].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[4].p(start = pipeA_VB.ps_start[4])
pipeA_VB.mediums[4].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[5].p(start = pipeA_VB.ps_start[5])
pipeA_VB.mediums[5].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[6].p(start = pipeA_VB.ps_start[6])
pipeA_VB.mediums[6].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[7].p(start = pipeA_VB.ps_start[7])
pipeA_VB.mediums[7].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[8].p(start = pipeA_VB.ps_start[8])
pipeA_VB.mediums[8].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[9].p(start = pipeA_VB.ps_start[9])
pipeA_VB.mediums[9].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[10].p(start = pipeA_VB.ps_start[10])
pipeA_VB.mediums[10].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[11].p(start = pipeA_VB.ps_start[11])
pipeA_VB.mediums[11].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[12].p(start = pipeA_VB.ps_start[12])
pipeA_VB.mediums[12].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[13].p(start = pipeA_VB.ps_start[13])
pipeA_VB.mediums[13].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[14].p(start = pipeA_VB.ps_start[14])
pipeA_VB.mediums[14].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[15].p(start = pipeA_VB.ps_start[15])
pipeA_VB.mediums[15].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[16].p(start = pipeA_VB.ps_start[16])
pipeA_VB.mediums[16].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[17].p(start = pipeA_VB.ps_start[17])
pipeA_VB.mediums[17].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[18].p(start = pipeA_VB.ps_start[18])
pipeA_VB.mediums[18].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[19].p(start = pipeA_VB.ps_start[19])
pipeA_VB.mediums[19].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[20].p(start = pipeA_VB.ps_start[20])
pipeA_VB.mediums[20].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[21].p(start = pipeA_VB.ps_start[21])
pipeA_VB.mediums[21].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[22].p(start = pipeA_VB.ps_start[22])
pipeA_VB.mediums[22].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[23].p(start = pipeA_VB.ps_start[23])
pipeA_VB.mediums[23].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[24].p(start = pipeA_VB.ps_start[24])
pipeA_VB.mediums[24].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[25].p(start = pipeA_VB.ps_start[25])
pipeA_VB.mediums[25].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[26].p(start = pipeA_VB.ps_start[26])
pipeA_VB.mediums[26].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[27].p(start = pipeA_VB.ps_start[27])
pipeA_VB.mediums[27].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[28].p(start = pipeA_VB.ps_start[28])
pipeA_VB.mediums[28].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[29].p(start = pipeA_VB.ps_start[29])
pipeA_VB.mediums[29].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[30].T(start = pipeA_VB.T_start)
pipeAV_B.mediums[1].p(start = pipeAV_B.ps_start[1])
pipeAV_B.mediums[1].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[2].p(start = pipeAV_B.ps_start[2])
pipeAV_B.mediums[2].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[3].p(start = pipeAV_B.ps_start[3])
pipeAV_B.mediums[3].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[4].p(start = pipeAV_B.ps_start[4])
pipeAV_B.mediums[4].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[5].p(start = pipeAV_B.ps_start[5])
pipeAV_B.mediums[5].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[6].p(start = pipeAV_B.ps_start[6])
pipeAV_B.mediums[6].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[7].p(start = pipeAV_B.ps_start[7])
pipeAV_B.mediums[7].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[8].p(start = pipeAV_B.ps_start[8])
pipeAV_B.mediums[8].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[9].p(start = pipeAV_B.ps_start[9])
pipeAV_B.mediums[9].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[10].p(start = pipeAV_B.ps_start[10])
pipeAV_B.mediums[10].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[11].p(start = pipeAV_B.ps_start[11])
pipeAV_B.mediums[11].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[12].p(start = pipeAV_B.ps_start[12])
pipeAV_B.mediums[12].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[13].p(start = pipeAV_B.ps_start[13])
pipeAV_B.mediums[13].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[14].p(start = pipeAV_B.ps_start[14])
pipeAV_B.mediums[14].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[15].p(start = pipeAV_B.ps_start[15])
pipeAV_B.mediums[15].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[16].p(start = pipeAV_B.ps_start[16])
pipeAV_B.mediums[16].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[17].p(start = pipeAV_B.ps_start[17])
pipeAV_B.mediums[17].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[18].p(start = pipeAV_B.ps_start[18])
pipeAV_B.mediums[18].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[19].p(start = pipeAV_B.ps_start[19])
pipeAV_B.mediums[19].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[20].p(start = pipeAV_B.ps_start[20])
pipeAV_B.mediums[20].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[21].p(start = pipeAV_B.ps_start[21])
pipeAV_B.mediums[21].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[22].p(start = pipeAV_B.ps_start[22])
pipeAV_B.mediums[22].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[23].p(start = pipeAV_B.ps_start[23])
pipeAV_B.mediums[23].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[24].p(start = pipeAV_B.ps_start[24])
pipeAV_B.mediums[24].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[25].p(start = pipeAV_B.ps_start[25])
pipeAV_B.mediums[25].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[26].p(start = pipeAV_B.ps_start[26])
pipeAV_B.mediums[26].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[27].p(start = pipeAV_B.ps_start[27])
pipeAV_B.mediums[27].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[28].p(start = pipeAV_B.ps_start[28])
pipeAV_B.mediums[28].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[29].p(start = pipeAV_B.ps_start[29])
pipeAV_B.mediums[29].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[30].p(start = pipeAV_B.ps_start[30])
pipeAV_B.mediums[30].T(start = pipeAV_B.T_start)
pipeAV_VB.mediums[1].p(start = pipeAV_VB.ps_start[1])
pipeAV_VB.mediums[1].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[2].p(start = pipeAV_VB.ps_start[2])
pipeAV_VB.mediums[2].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[3].p(start = pipeAV_VB.ps_start[3])
pipeAV_VB.mediums[3].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[4].p(start = pipeAV_VB.ps_start[4])
pipeAV_VB.mediums[4].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[5].p(start = pipeAV_VB.ps_start[5])
pipeAV_VB.mediums[5].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[6].p(start = pipeAV_VB.ps_start[6])
pipeAV_VB.mediums[6].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[7].p(start = pipeAV_VB.ps_start[7])
pipeAV_VB.mediums[7].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[8].p(start = pipeAV_VB.ps_start[8])
pipeAV_VB.mediums[8].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[9].p(start = pipeAV_VB.ps_start[9])
pipeAV_VB.mediums[9].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[10].p(start = pipeAV_VB.ps_start[10])
pipeAV_VB.mediums[10].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[11].p(start = pipeAV_VB.ps_start[11])
pipeAV_VB.mediums[11].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[12].p(start = pipeAV_VB.ps_start[12])
pipeAV_VB.mediums[12].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[13].p(start = pipeAV_VB.ps_start[13])
pipeAV_VB.mediums[13].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[14].p(start = pipeAV_VB.ps_start[14])
pipeAV_VB.mediums[14].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[15].p(start = pipeAV_VB.ps_start[15])
pipeAV_VB.mediums[15].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[16].p(start = pipeAV_VB.ps_start[16])
pipeAV_VB.mediums[16].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[17].p(start = pipeAV_VB.ps_start[17])
pipeAV_VB.mediums[17].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[18].p(start = pipeAV_VB.ps_start[18])
pipeAV_VB.mediums[18].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[19].p(start = pipeAV_VB.ps_start[19])
pipeAV_VB.mediums[19].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[20].p(start = pipeAV_VB.ps_start[20])
pipeAV_VB.mediums[20].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[21].p(start = pipeAV_VB.ps_start[21])
pipeAV_VB.mediums[21].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[22].p(start = pipeAV_VB.ps_start[22])
pipeAV_VB.mediums[22].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[23].p(start = pipeAV_VB.ps_start[23])
pipeAV_VB.mediums[23].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[24].p(start = pipeAV_VB.ps_start[24])
pipeAV_VB.mediums[24].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[25].p(start = pipeAV_VB.ps_start[25])
pipeAV_VB.mediums[25].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[26].p(start = pipeAV_VB.ps_start[26])
pipeAV_VB.mediums[26].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[27].p(start = pipeAV_VB.ps_start[27])
pipeAV_VB.mediums[27].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[28].p(start = pipeAV_VB.ps_start[28])
pipeAV_VB.mediums[28].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[29].p(start = pipeAV_VB.ps_start[29])
pipeAV_VB.mediums[29].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[30].T(start = pipeAV_VB.T_start)
The translated model contains large nonlinear systems of equations. The simulation may run faster in DAE mode. Enable DAE mode by setting the flag Advanced.Define.DAEsolver and use one of the solvers Dassl, Radau IIa, Esdirk*, or Sdirk34hw.
Statistics
Original Model
Number of components: 660
Variables: 3601
Constants: 20 (48 scalars)
Parameters: 625 (1425 scalars)
Unknowns: 2956 (7332 scalars)
Differentiated variables: 480 scalars
Equations: 2104
Nontrivial: 1424
Translated Model
Constants: 2349 scalars
Free parameters: 58 scalars
Parameter depending: 694 scalars
Continuous time states: 238 scalars
Time-varying variables: 2574 scalars
Alias variables: 3130 scalars
Assumed default initial conditions: 238
Number of mixed real/discrete systems of equations: 0
Sizes of linear systems of equations: {2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2}
Sizes after manipulation of the linear systems: {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}
Sizes of nonlinear systems of equations: {151, 156, 7, 156, 151, 7}
Sizes after manipulation of the nonlinear systems: {30, 30, 1, 30, 30, 1}
Number of numerical Jacobians: 0
Initialization problem
Sizes of linear systems of equations: {3, 3}
Sizes after manipulation of the linear systems: {0, 0}
Settings
Advanced.StoreProtectedVariables = true
Selected continuous time states
Statically selected continuous time states
pipeA_V_B.mediums[1].p
pipeA_V_B.mediums[1].T
pipeA_V_B.mediums[2].p
pipeA_V_B.mediums[2].T
pipeA_V_B.mediums[3].p
pipeA_V_B.mediums[3].T
pipeA_V_B.mediums[4].p
pipeA_V_B.mediums[4].T
pipeA_V_B.mediums[5].p
pipeA_V_B.mediums[5].T
pipeA_V_B.mediums[6].p
pipeA_V_B.mediums[6].T
pipeA_V_B.mediums[7].p
pipeA_V_B.mediums[7].T
pipeA_V_B.mediums[8].p
pipeA_V_B.mediums[8].T
pipeA_V_B.mediums[9].p
pipeA_V_B.mediums[9].T
pipeA_V_B.mediums[10].p
pipeA_V_B.mediums[10].T
pipeA_V_B.mediums[11].p
pipeA_V_B.mediums[11].T
pipeA_V_B.mediums[12].p
pipeA_V_B.mediums[12].T
pipeA_V_B.mediums[13].p
pipeA_V_B.mediums[13].T
pipeA_V_B.mediums[14].p
pipeA_V_B.mediums[14].T
pipeA_V_B.mediums[15].p
pipeA_V_B.mediums[15].T
pipeA_V_B.mediums[16].p
pipeA_V_B.mediums[16].T
pipeA_V_B.mediums[17].p
pipeA_V_B.mediums[17].T
pipeA_V_B.mediums[18].p
pipeA_V_B.mediums[18].T
pipeA_V_B.mediums[19].p
pipeA_V_B.mediums[19].T
pipeA_V_B.mediums[20].p
pipeA_V_B.mediums[20].T
pipeA_V_B.mediums[21].p
pipeA_V_B.mediums[21].T
pipeA_V_B.mediums[22].p
pipeA_V_B.mediums[22].T
pipeA_V_B.mediums[23].p
pipeA_V_B.mediums[23].T
pipeA_V_B.mediums[24].p
pipeA_V_B.mediums[24].T
pipeA_V_B.mediums[25].p
pipeA_V_B.mediums[25].T
pipeA_V_B.mediums[26].p
pipeA_V_B.mediums[26].T
pipeA_V_B.mediums[27].p
pipeA_V_B.mediums[27].T
pipeA_V_B.mediums[28].p
pipeA_V_B.mediums[28].T
pipeA_V_B.mediums[29].p
pipeA_V_B.mediums[29].T
pipeA_V_B.mediums[30].p
pipeA_V_B.mediums[30].T
pipeA_VB.mediums[1].p
pipeA_VB.mediums[1].T
pipeA_VB.mediums[2].p
pipeA_VB.mediums[2].T
pipeA_VB.mediums[3].p
pipeA_VB.mediums[3].T
pipeA_VB.mediums[4].p
pipeA_VB.mediums[4].T
pipeA_VB.mediums[5].p
pipeA_VB.mediums[5].T
pipeA_VB.mediums[6].p
pipeA_VB.mediums[6].T
pipeA_VB.mediums[7].p
pipeA_VB.mediums[7].T
pipeA_VB.mediums[8].p
pipeA_VB.mediums[8].T
pipeA_VB.mediums[9].p
pipeA_VB.mediums[9].T
pipeA_VB.mediums[10].p
pipeA_VB.mediums[10].T
pipeA_VB.mediums[11].p
pipeA_VB.mediums[11].T
pipeA_VB.mediums[12].p
pipeA_VB.mediums[12].T
pipeA_VB.mediums[13].p
pipeA_VB.mediums[13].T
pipeA_VB.mediums[14].p
pipeA_VB.mediums[14].T
pipeA_VB.mediums[15].p
pipeA_VB.mediums[15].T
pipeA_VB.mediums[16].p
pipeA_VB.mediums[16].T
pipeA_VB.mediums[17].p
pipeA_VB.mediums[17].T
pipeA_VB.mediums[18].p
pipeA_VB.mediums[18].T
pipeA_VB.mediums[19].p
pipeA_VB.mediums[19].T
pipeA_VB.mediums[20].p
pipeA_VB.mediums[20].T
pipeA_VB.mediums[21].p
pipeA_VB.mediums[21].T
pipeA_VB.mediums[22].p
pipeA_VB.mediums[22].T
pipeA_VB.mediums[23].p
pipeA_VB.mediums[23].T
pipeA_VB.mediums[24].p
pipeA_VB.mediums[24].T
pipeA_VB.mediums[25].p
pipeA_VB.mediums[25].T
pipeA_VB.mediums[26].p
pipeA_VB.mediums[26].T
pipeA_VB.mediums[27].p
pipeA_VB.mediums[27].T
pipeA_VB.mediums[28].p
pipeA_VB.mediums[28].T
pipeA_VB.mediums[29].p
pipeA_VB.mediums[29].T
pipeA_VB.mediums[30].T
pipeAV_B.mediums[1].p
pipeAV_B.mediums[1].T
pipeAV_B.mediums[2].p
pipeAV_B.mediums[2].T
pipeAV_B.mediums[3].p
pipeAV_B.mediums[3].T
pipeAV_B.mediums[4].p
pipeAV_B.mediums[4].T
pipeAV_B.mediums[5].p
pipeAV_B.mediums[5].T
pipeAV_B.mediums[6].p
pipeAV_B.mediums[6].T
pipeAV_B.mediums[7].p
pipeAV_B.mediums[7].T
pipeAV_B.mediums[8].p
pipeAV_B.mediums[8].T
pipeAV_B.mediums[9].p
pipeAV_B.mediums[9].T
pipeAV_B.mediums[10].p
pipeAV_B.mediums[10].T
pipeAV_B.mediums[11].p
pipeAV_B.mediums[11].T
pipeAV_B.mediums[12].p
pipeAV_B.mediums[12].T
pipeAV_B.mediums[13].p
pipeAV_B.mediums[13].T
pipeAV_B.mediums[14].p
pipeAV_B.mediums[14].T
pipeAV_B.mediums[15].p
pipeAV_B.mediums[15].T
pipeAV_B.mediums[16].p
pipeAV_B.mediums[16].T
pipeAV_B.mediums[17].p
pipeAV_B.mediums[17].T
pipeAV_B.mediums[18].p
pipeAV_B.mediums[18].T
pipeAV_B.mediums[19].p
pipeAV_B.mediums[19].T
pipeAV_B.mediums[20].p
pipeAV_B.mediums[20].T
pipeAV_B.mediums[21].p
pipeAV_B.mediums[21].T
pipeAV_B.mediums[22].p
pipeAV_B.mediums[22].T
pipeAV_B.mediums[23].p
pipeAV_B.mediums[23].T
pipeAV_B.mediums[24].p
pipeAV_B.mediums[24].T
pipeAV_B.mediums[25].p
pipeAV_B.mediums[25].T
pipeAV_B.mediums[26].p
pipeAV_B.mediums[26].T
pipeAV_B.mediums[27].p
pipeAV_B.mediums[27].T
pipeAV_B.mediums[28].p
pipeAV_B.mediums[28].T
pipeAV_B.mediums[29].p
pipeAV_B.mediums[29].T
pipeAV_B.mediums[30].p
pipeAV_B.mediums[30].T
pipeAV_VB.mediums[1].p
pipeAV_VB.mediums[1].T
pipeAV_VB.mediums[2].p
pipeAV_VB.mediums[2].T
pipeAV_VB.mediums[3].p
pipeAV_VB.mediums[3].T
pipeAV_VB.mediums[4].p
pipeAV_VB.mediums[4].T
pipeAV_VB.mediums[5].p
pipeAV_VB.mediums[5].T
pipeAV_VB.mediums[6].p
pipeAV_VB.mediums[6].T
pipeAV_VB.mediums[7].p
pipeAV_VB.mediums[7].T
pipeAV_VB.mediums[8].p
pipeAV_VB.mediums[8].T
pipeAV_VB.mediums[9].p
pipeAV_VB.mediums[9].T
pipeAV_VB.mediums[10].p
pipeAV_VB.mediums[10].T
pipeAV_VB.mediums[11].p
pipeAV_VB.mediums[11].T
pipeAV_VB.mediums[12].p
pipeAV_VB.mediums[12].T
pipeAV_VB.mediums[13].p
pipeAV_VB.mediums[13].T
pipeAV_VB.mediums[14].p
pipeAV_VB.mediums[14].T
pipeAV_VB.mediums[15].p
pipeAV_VB.mediums[15].T
pipeAV_VB.mediums[16].p
pipeAV_VB.mediums[16].T
pipeAV_VB.mediums[17].p
pipeAV_VB.mediums[17].T
pipeAV_VB.mediums[18].p
pipeAV_VB.mediums[18].T
pipeAV_VB.mediums[19].p
pipeAV_VB.mediums[19].T
pipeAV_VB.mediums[20].p
pipeAV_VB.mediums[20].T
pipeAV_VB.mediums[21].p
pipeAV_VB.mediums[21].T
pipeAV_VB.mediums[22].p
pipeAV_VB.mediums[22].T
pipeAV_VB.mediums[23].p
pipeAV_VB.mediums[23].T
pipeAV_VB.mediums[24].p
pipeAV_VB.mediums[24].T
pipeAV_VB.mediums[25].p
pipeAV_VB.mediums[25].T
pipeAV_VB.mediums[26].p
pipeAV_VB.mediums[26].T
pipeAV_VB.mediums[27].p
pipeAV_VB.mediums[27].T
pipeAV_VB.mediums[28].p
pipeAV_VB.mediums[28].T
pipeAV_VB.mediums[29].p
pipeAV_VB.mediums[29].T
pipeAV_VB.mediums[30].T
Warning: Some variables are iteration variables of the initialization problem:
but they are not given any explicit start values. Zero will be used.
Iteration variables:
der(pipeA_VB.mediums[30].T)
der(pipeAV_VB.mediums[30].T)
Finished
Warning: WARNINGS have been issued.
translate - Open log
Translation of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeEnergyConservationCheck2
The DAE has 7332 scalar unknowns and 7332 scalar equations.
Warning: The initial conditions are not fully specified.
Dymola has selected default initial conditions.
Warning: Assuming fixed start value for the continuous states:
pipeA_V_B.mediums[1].p(start = pipeA_V_B.ps_start[1])
pipeA_V_B.mediums[1].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[2].p(start = pipeA_V_B.ps_start[2])
pipeA_V_B.mediums[2].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[3].p(start = pipeA_V_B.ps_start[3])
pipeA_V_B.mediums[3].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[4].p(start = pipeA_V_B.ps_start[4])
pipeA_V_B.mediums[4].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[5].p(start = pipeA_V_B.ps_start[5])
pipeA_V_B.mediums[5].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[6].p(start = pipeA_V_B.ps_start[6])
pipeA_V_B.mediums[6].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[7].p(start = pipeA_V_B.ps_start[7])
pipeA_V_B.mediums[7].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[8].p(start = pipeA_V_B.ps_start[8])
pipeA_V_B.mediums[8].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[9].p(start = pipeA_V_B.ps_start[9])
pipeA_V_B.mediums[9].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[10].p(start = pipeA_V_B.ps_start[10])
pipeA_V_B.mediums[10].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[11].p(start = pipeA_V_B.ps_start[11])
pipeA_V_B.mediums[11].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[12].p(start = pipeA_V_B.ps_start[12])
pipeA_V_B.mediums[12].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[13].p(start = pipeA_V_B.ps_start[13])
pipeA_V_B.mediums[13].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[14].p(start = pipeA_V_B.ps_start[14])
pipeA_V_B.mediums[14].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[15].p(start = pipeA_V_B.ps_start[15])
pipeA_V_B.mediums[15].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[16].p(start = pipeA_V_B.ps_start[16])
pipeA_V_B.mediums[16].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[17].p(start = pipeA_V_B.ps_start[17])
pipeA_V_B.mediums[17].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[18].p(start = pipeA_V_B.ps_start[18])
pipeA_V_B.mediums[18].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[19].p(start = pipeA_V_B.ps_start[19])
pipeA_V_B.mediums[19].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[20].p(start = pipeA_V_B.ps_start[20])
pipeA_V_B.mediums[20].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[21].p(start = pipeA_V_B.ps_start[21])
pipeA_V_B.mediums[21].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[22].p(start = pipeA_V_B.ps_start[22])
pipeA_V_B.mediums[22].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[23].p(start = pipeA_V_B.ps_start[23])
pipeA_V_B.mediums[23].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[24].p(start = pipeA_V_B.ps_start[24])
pipeA_V_B.mediums[24].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[25].p(start = pipeA_V_B.ps_start[25])
pipeA_V_B.mediums[25].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[26].p(start = pipeA_V_B.ps_start[26])
pipeA_V_B.mediums[26].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[27].p(start = pipeA_V_B.ps_start[27])
pipeA_V_B.mediums[27].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[28].p(start = pipeA_V_B.ps_start[28])
pipeA_V_B.mediums[28].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[29].p(start = pipeA_V_B.ps_start[29])
pipeA_V_B.mediums[29].T(start = pipeA_V_B.T_start)
pipeA_V_B.mediums[30].p(start = pipeA_V_B.ps_start[30])
pipeA_V_B.mediums[30].T(start = pipeA_V_B.T_start)
pipeA_VB.mediums[1].p(start = pipeA_VB.ps_start[1])
pipeA_VB.mediums[1].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[2].p(start = pipeA_VB.ps_start[2])
pipeA_VB.mediums[2].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[3].p(start = pipeA_VB.ps_start[3])
pipeA_VB.mediums[3].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[4].p(start = pipeA_VB.ps_start[4])
pipeA_VB.mediums[4].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[5].p(start = pipeA_VB.ps_start[5])
pipeA_VB.mediums[5].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[6].p(start = pipeA_VB.ps_start[6])
pipeA_VB.mediums[6].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[7].p(start = pipeA_VB.ps_start[7])
pipeA_VB.mediums[7].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[8].p(start = pipeA_VB.ps_start[8])
pipeA_VB.mediums[8].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[9].p(start = pipeA_VB.ps_start[9])
pipeA_VB.mediums[9].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[10].p(start = pipeA_VB.ps_start[10])
pipeA_VB.mediums[10].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[11].p(start = pipeA_VB.ps_start[11])
pipeA_VB.mediums[11].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[12].p(start = pipeA_VB.ps_start[12])
pipeA_VB.mediums[12].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[13].p(start = pipeA_VB.ps_start[13])
pipeA_VB.mediums[13].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[14].p(start = pipeA_VB.ps_start[14])
pipeA_VB.mediums[14].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[15].p(start = pipeA_VB.ps_start[15])
pipeA_VB.mediums[15].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[16].p(start = pipeA_VB.ps_start[16])
pipeA_VB.mediums[16].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[17].p(start = pipeA_VB.ps_start[17])
pipeA_VB.mediums[17].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[18].p(start = pipeA_VB.ps_start[18])
pipeA_VB.mediums[18].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[19].p(start = pipeA_VB.ps_start[19])
pipeA_VB.mediums[19].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[20].p(start = pipeA_VB.ps_start[20])
pipeA_VB.mediums[20].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[21].p(start = pipeA_VB.ps_start[21])
pipeA_VB.mediums[21].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[22].p(start = pipeA_VB.ps_start[22])
pipeA_VB.mediums[22].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[23].p(start = pipeA_VB.ps_start[23])
pipeA_VB.mediums[23].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[24].p(start = pipeA_VB.ps_start[24])
pipeA_VB.mediums[24].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[25].p(start = pipeA_VB.ps_start[25])
pipeA_VB.mediums[25].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[26].p(start = pipeA_VB.ps_start[26])
pipeA_VB.mediums[26].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[27].p(start = pipeA_VB.ps_start[27])
pipeA_VB.mediums[27].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[28].p(start = pipeA_VB.ps_start[28])
pipeA_VB.mediums[28].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[29].p(start = pipeA_VB.ps_start[29])
pipeA_VB.mediums[29].T(start = pipeA_VB.T_start)
pipeA_VB.mediums[30].T(start = pipeA_VB.T_start)
pipeAV_B.mediums[1].p(start = pipeAV_B.ps_start[1])
pipeAV_B.mediums[1].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[2].p(start = pipeAV_B.ps_start[2])
pipeAV_B.mediums[2].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[3].p(start = pipeAV_B.ps_start[3])
pipeAV_B.mediums[3].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[4].p(start = pipeAV_B.ps_start[4])
pipeAV_B.mediums[4].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[5].p(start = pipeAV_B.ps_start[5])
pipeAV_B.mediums[5].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[6].p(start = pipeAV_B.ps_start[6])
pipeAV_B.mediums[6].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[7].p(start = pipeAV_B.ps_start[7])
pipeAV_B.mediums[7].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[8].p(start = pipeAV_B.ps_start[8])
pipeAV_B.mediums[8].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[9].p(start = pipeAV_B.ps_start[9])
pipeAV_B.mediums[9].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[10].p(start = pipeAV_B.ps_start[10])
pipeAV_B.mediums[10].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[11].p(start = pipeAV_B.ps_start[11])
pipeAV_B.mediums[11].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[12].p(start = pipeAV_B.ps_start[12])
pipeAV_B.mediums[12].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[13].p(start = pipeAV_B.ps_start[13])
pipeAV_B.mediums[13].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[14].p(start = pipeAV_B.ps_start[14])
pipeAV_B.mediums[14].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[15].p(start = pipeAV_B.ps_start[15])
pipeAV_B.mediums[15].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[16].p(start = pipeAV_B.ps_start[16])
pipeAV_B.mediums[16].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[17].p(start = pipeAV_B.ps_start[17])
pipeAV_B.mediums[17].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[18].p(start = pipeAV_B.ps_start[18])
pipeAV_B.mediums[18].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[19].p(start = pipeAV_B.ps_start[19])
pipeAV_B.mediums[19].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[20].p(start = pipeAV_B.ps_start[20])
pipeAV_B.mediums[20].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[21].p(start = pipeAV_B.ps_start[21])
pipeAV_B.mediums[21].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[22].p(start = pipeAV_B.ps_start[22])
pipeAV_B.mediums[22].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[23].p(start = pipeAV_B.ps_start[23])
pipeAV_B.mediums[23].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[24].p(start = pipeAV_B.ps_start[24])
pipeAV_B.mediums[24].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[25].p(start = pipeAV_B.ps_start[25])
pipeAV_B.mediums[25].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[26].p(start = pipeAV_B.ps_start[26])
pipeAV_B.mediums[26].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[27].p(start = pipeAV_B.ps_start[27])
pipeAV_B.mediums[27].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[28].p(start = pipeAV_B.ps_start[28])
pipeAV_B.mediums[28].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[29].p(start = pipeAV_B.ps_start[29])
pipeAV_B.mediums[29].T(start = pipeAV_B.T_start)
pipeAV_B.mediums[30].p(start = pipeAV_B.ps_start[30])
pipeAV_B.mediums[30].T(start = pipeAV_B.T_start)
pipeAV_VB.mediums[1].p(start = pipeAV_VB.ps_start[1])
pipeAV_VB.mediums[1].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[2].p(start = pipeAV_VB.ps_start[2])
pipeAV_VB.mediums[2].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[3].p(start = pipeAV_VB.ps_start[3])
pipeAV_VB.mediums[3].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[4].p(start = pipeAV_VB.ps_start[4])
pipeAV_VB.mediums[4].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[5].p(start = pipeAV_VB.ps_start[5])
pipeAV_VB.mediums[5].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[6].p(start = pipeAV_VB.ps_start[6])
pipeAV_VB.mediums[6].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[7].p(start = pipeAV_VB.ps_start[7])
pipeAV_VB.mediums[7].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[8].p(start = pipeAV_VB.ps_start[8])
pipeAV_VB.mediums[8].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[9].p(start = pipeAV_VB.ps_start[9])
pipeAV_VB.mediums[9].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[10].p(start = pipeAV_VB.ps_start[10])
pipeAV_VB.mediums[10].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[11].p(start = pipeAV_VB.ps_start[11])
pipeAV_VB.mediums[11].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[12].p(start = pipeAV_VB.ps_start[12])
pipeAV_VB.mediums[12].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[13].p(start = pipeAV_VB.ps_start[13])
pipeAV_VB.mediums[13].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[14].p(start = pipeAV_VB.ps_start[14])
pipeAV_VB.mediums[14].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[15].p(start = pipeAV_VB.ps_start[15])
pipeAV_VB.mediums[15].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[16].p(start = pipeAV_VB.ps_start[16])
pipeAV_VB.mediums[16].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[17].p(start = pipeAV_VB.ps_start[17])
pipeAV_VB.mediums[17].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[18].p(start = pipeAV_VB.ps_start[18])
pipeAV_VB.mediums[18].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[19].p(start = pipeAV_VB.ps_start[19])
pipeAV_VB.mediums[19].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[20].p(start = pipeAV_VB.ps_start[20])
pipeAV_VB.mediums[20].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[21].p(start = pipeAV_VB.ps_start[21])
pipeAV_VB.mediums[21].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[22].p(start = pipeAV_VB.ps_start[22])
pipeAV_VB.mediums[22].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[23].p(start = pipeAV_VB.ps_start[23])
pipeAV_VB.mediums[23].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[24].p(start = pipeAV_VB.ps_start[24])
pipeAV_VB.mediums[24].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[25].p(start = pipeAV_VB.ps_start[25])
pipeAV_VB.mediums[25].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[26].p(start = pipeAV_VB.ps_start[26])
pipeAV_VB.mediums[26].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[27].p(start = pipeAV_VB.ps_start[27])
pipeAV_VB.mediums[27].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[28].p(start = pipeAV_VB.ps_start[28])
pipeAV_VB.mediums[28].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[29].p(start = pipeAV_VB.ps_start[29])
pipeAV_VB.mediums[29].T(start = pipeAV_VB.T_start)
pipeAV_VB.mediums[30].T(start = pipeAV_VB.T_start)
The translated model contains large nonlinear systems of equations. The simulation may run faster in DAE mode. Enable DAE mode by setting the flag Advanced.Define.DAEsolver and use one of the solvers Dassl, Radau IIa, Esdirk*, or Sdirk34hw.
Statistics
Original Model
Number of components: 660
Variables: 3601
Constants: 20 (48 scalars)
Parameters: 625 (1425 scalars)
Unknowns: 2956 (7332 scalars)
Differentiated variables: 480 scalars
Equations: 2104
Nontrivial: 1424
Translated Model
Constants: 2349 scalars
Free parameters: 58 scalars
Parameter depending: 694 scalars
Continuous time states: 238 scalars
Time-varying variables: 2574 scalars
Alias variables: 3130 scalars
Assumed default initial conditions: 238
Number of mixed real/discrete systems of equations: 0
Sizes of linear systems of equations: {2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2}
Sizes after manipulation of the linear systems: {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}
Sizes of nonlinear systems of equations: {151, 156, 7, 156, 151, 7}
Sizes after manipulation of the nonlinear systems: {30, 30, 1, 30, 30, 1}
Number of numerical Jacobians: 0
Initialization problem
Sizes of linear systems of equations: {3, 3}
Sizes after manipulation of the linear systems: {0, 0}
Settings
Advanced.StoreProtectedVariables = true
Selected continuous time states
Statically selected continuous time states
pipeA_V_B.mediums[1].p
pipeA_V_B.mediums[1].T
pipeA_V_B.mediums[2].p
pipeA_V_B.mediums[2].T
pipeA_V_B.mediums[3].p
pipeA_V_B.mediums[3].T
pipeA_V_B.mediums[4].p
pipeA_V_B.mediums[4].T
pipeA_V_B.mediums[5].p
pipeA_V_B.mediums[5].T
pipeA_V_B.mediums[6].p
pipeA_V_B.mediums[6].T
pipeA_V_B.mediums[7].p
pipeA_V_B.mediums[7].T
pipeA_V_B.mediums[8].p
pipeA_V_B.mediums[8].T
pipeA_V_B.mediums[9].p
pipeA_V_B.mediums[9].T
pipeA_V_B.mediums[10].p
pipeA_V_B.mediums[10].T
pipeA_V_B.mediums[11].p
pipeA_V_B.mediums[11].T
pipeA_V_B.mediums[12].p
pipeA_V_B.mediums[12].T
pipeA_V_B.mediums[13].p
pipeA_V_B.mediums[13].T
pipeA_V_B.mediums[14].p
pipeA_V_B.mediums[14].T
pipeA_V_B.mediums[15].p
pipeA_V_B.mediums[15].T
pipeA_V_B.mediums[16].p
pipeA_V_B.mediums[16].T
pipeA_V_B.mediums[17].p
pipeA_V_B.mediums[17].T
pipeA_V_B.mediums[18].p
pipeA_V_B.mediums[18].T
pipeA_V_B.mediums[19].p
pipeA_V_B.mediums[19].T
pipeA_V_B.mediums[20].p
pipeA_V_B.mediums[20].T
pipeA_V_B.mediums[21].p
pipeA_V_B.mediums[21].T
pipeA_V_B.mediums[22].p
pipeA_V_B.mediums[22].T
pipeA_V_B.mediums[23].p
pipeA_V_B.mediums[23].T
pipeA_V_B.mediums[24].p
pipeA_V_B.mediums[24].T
pipeA_V_B.mediums[25].p
pipeA_V_B.mediums[25].T
pipeA_V_B.mediums[26].p
pipeA_V_B.mediums[26].T
pipeA_V_B.mediums[27].p
pipeA_V_B.mediums[27].T
pipeA_V_B.mediums[28].p
pipeA_V_B.mediums[28].T
pipeA_V_B.mediums[29].p
pipeA_V_B.mediums[29].T
pipeA_V_B.mediums[30].p
pipeA_V_B.mediums[30].T
pipeA_VB.mediums[1].p
pipeA_VB.mediums[1].T
pipeA_VB.mediums[2].p
pipeA_VB.mediums[2].T
pipeA_VB.mediums[3].p
pipeA_VB.mediums[3].T
pipeA_VB.mediums[4].p
pipeA_VB.mediums[4].T
pipeA_VB.mediums[5].p
pipeA_VB.mediums[5].T
pipeA_VB.mediums[6].p
pipeA_VB.mediums[6].T
pipeA_VB.mediums[7].p
pipeA_VB.mediums[7].T
pipeA_VB.mediums[8].p
pipeA_VB.mediums[8].T
pipeA_VB.mediums[9].p
pipeA_VB.mediums[9].T
pipeA_VB.mediums[10].p
pipeA_VB.mediums[10].T
pipeA_VB.mediums[11].p
pipeA_VB.mediums[11].T
pipeA_VB.mediums[12].p
pipeA_VB.mediums[12].T
pipeA_VB.mediums[13].p
pipeA_VB.mediums[13].T
pipeA_VB.mediums[14].p
pipeA_VB.mediums[14].T
pipeA_VB.mediums[15].p
pipeA_VB.mediums[15].T
pipeA_VB.mediums[16].p
pipeA_VB.mediums[16].T
pipeA_VB.mediums[17].p
pipeA_VB.mediums[17].T
pipeA_VB.mediums[18].p
pipeA_VB.mediums[18].T
pipeA_VB.mediums[19].p
pipeA_VB.mediums[19].T
pipeA_VB.mediums[20].p
pipeA_VB.mediums[20].T
pipeA_VB.mediums[21].p
pipeA_VB.mediums[21].T
pipeA_VB.mediums[22].p
pipeA_VB.mediums[22].T
pipeA_VB.mediums[23].p
pipeA_VB.mediums[23].T
pipeA_VB.mediums[24].p
pipeA_VB.mediums[24].T
pipeA_VB.mediums[25].p
pipeA_VB.mediums[25].T
pipeA_VB.mediums[26].p
pipeA_VB.mediums[26].T
pipeA_VB.mediums[27].p
pipeA_VB.mediums[27].T
pipeA_VB.mediums[28].p
pipeA_VB.mediums[28].T
pipeA_VB.mediums[29].p
pipeA_VB.mediums[29].T
pipeA_VB.mediums[30].T
pipeAV_B.mediums[1].p
pipeAV_B.mediums[1].T
pipeAV_B.mediums[2].p
pipeAV_B.mediums[2].T
pipeAV_B.mediums[3].p
pipeAV_B.mediums[3].T
pipeAV_B.mediums[4].p
pipeAV_B.mediums[4].T
pipeAV_B.mediums[5].p
pipeAV_B.mediums[5].T
pipeAV_B.mediums[6].p
pipeAV_B.mediums[6].T
pipeAV_B.mediums[7].p
pipeAV_B.mediums[7].T
pipeAV_B.mediums[8].p
pipeAV_B.mediums[8].T
pipeAV_B.mediums[9].p
pipeAV_B.mediums[9].T
pipeAV_B.mediums[10].p
pipeAV_B.mediums[10].T
pipeAV_B.mediums[11].p
pipeAV_B.mediums[11].T
pipeAV_B.mediums[12].p
pipeAV_B.mediums[12].T
pipeAV_B.mediums[13].p
pipeAV_B.mediums[13].T
pipeAV_B.mediums[14].p
pipeAV_B.mediums[14].T
pipeAV_B.mediums[15].p
pipeAV_B.mediums[15].T
pipeAV_B.mediums[16].p
pipeAV_B.mediums[16].T
pipeAV_B.mediums[17].p
pipeAV_B.mediums[17].T
pipeAV_B.mediums[18].p
pipeAV_B.mediums[18].T
pipeAV_B.mediums[19].p
pipeAV_B.mediums[19].T
pipeAV_B.mediums[20].p
pipeAV_B.mediums[20].T
pipeAV_B.mediums[21].p
pipeAV_B.mediums[21].T
pipeAV_B.mediums[22].p
pipeAV_B.mediums[22].T
pipeAV_B.mediums[23].p
pipeAV_B.mediums[23].T
pipeAV_B.mediums[24].p
pipeAV_B.mediums[24].T
pipeAV_B.mediums[25].p
pipeAV_B.mediums[25].T
pipeAV_B.mediums[26].p
pipeAV_B.mediums[26].T
pipeAV_B.mediums[27].p
pipeAV_B.mediums[27].T
pipeAV_B.mediums[28].p
pipeAV_B.mediums[28].T
pipeAV_B.mediums[29].p
pipeAV_B.mediums[29].T
pipeAV_B.mediums[30].p
pipeAV_B.mediums[30].T
pipeAV_VB.mediums[1].p
pipeAV_VB.mediums[1].T
pipeAV_VB.mediums[2].p
pipeAV_VB.mediums[2].T
pipeAV_VB.mediums[3].p
pipeAV_VB.mediums[3].T
pipeAV_VB.mediums[4].p
pipeAV_VB.mediums[4].T
pipeAV_VB.mediums[5].p
pipeAV_VB.mediums[5].T
pipeAV_VB.mediums[6].p
pipeAV_VB.mediums[6].T
pipeAV_VB.mediums[7].p
pipeAV_VB.mediums[7].T
pipeAV_VB.mediums[8].p
pipeAV_VB.mediums[8].T
pipeAV_VB.mediums[9].p
pipeAV_VB.mediums[9].T
pipeAV_VB.mediums[10].p
pipeAV_VB.mediums[10].T
pipeAV_VB.mediums[11].p
pipeAV_VB.mediums[11].T
pipeAV_VB.mediums[12].p
pipeAV_VB.mediums[12].T
pipeAV_VB.mediums[13].p
pipeAV_VB.mediums[13].T
pipeAV_VB.mediums[14].p
pipeAV_VB.mediums[14].T
pipeAV_VB.mediums[15].p
pipeAV_VB.mediums[15].T
pipeAV_VB.mediums[16].p
pipeAV_VB.mediums[16].T
pipeAV_VB.mediums[17].p
pipeAV_VB.mediums[17].T
pipeAV_VB.mediums[18].p
pipeAV_VB.mediums[18].T
pipeAV_VB.mediums[19].p
pipeAV_VB.mediums[19].T
pipeAV_VB.mediums[20].p
pipeAV_VB.mediums[20].T
pipeAV_VB.mediums[21].p
pipeAV_VB.mediums[21].T
pipeAV_VB.mediums[22].p
pipeAV_VB.mediums[22].T
pipeAV_VB.mediums[23].p
pipeAV_VB.mediums[23].T
pipeAV_VB.mediums[24].p
pipeAV_VB.mediums[24].T
pipeAV_VB.mediums[25].p
pipeAV_VB.mediums[25].T
pipeAV_VB.mediums[26].p
pipeAV_VB.mediums[26].T
pipeAV_VB.mediums[27].p
pipeAV_VB.mediums[27].T
pipeAV_VB.mediums[28].p
pipeAV_VB.mediums[28].T
pipeAV_VB.mediums[29].p
pipeAV_VB.mediums[29].T
pipeAV_VB.mediums[30].T
Warning: Some variables are iteration variables of the initialization problem:
but they are not given any explicit start values. Zero will be used.
Iteration variables:
der(pipeA_VB.mediums[30].T)
der(pipeAV_VB.mediums[30].T)
Finished
Warning: WARNINGS have been issued.
translate - Continuous time states
- pipeA_V_B.mediums[1].p
- pipeA_V_B.mediums[1].T
- pipeA_V_B.mediums[2].p
- pipeA_V_B.mediums[2].T
- pipeA_V_B.mediums[3].p
- pipeA_V_B.mediums[3].T
- pipeA_V_B.mediums[4].p
- pipeA_V_B.mediums[4].T
- pipeA_V_B.mediums[5].p
- pipeA_V_B.mediums[5].T
- pipeA_V_B.mediums[6].p
- pipeA_V_B.mediums[6].T
- pipeA_V_B.mediums[7].p
- pipeA_V_B.mediums[7].T
- pipeA_V_B.mediums[8].p
- pipeA_V_B.mediums[8].T
- pipeA_V_B.mediums[9].p
- pipeA_V_B.mediums[9].T
- pipeA_V_B.mediums[10].p
- pipeA_V_B.mediums[10].T
- pipeA_V_B.mediums[11].p
- pipeA_V_B.mediums[11].T
- pipeA_V_B.mediums[12].p
- pipeA_V_B.mediums[12].T
- pipeA_V_B.mediums[13].p
- pipeA_V_B.mediums[13].T
- pipeA_V_B.mediums[14].p
- pipeA_V_B.mediums[14].T
- pipeA_V_B.mediums[15].p
- pipeA_V_B.mediums[15].T
- pipeA_V_B.mediums[16].p
- pipeA_V_B.mediums[16].T
- pipeA_V_B.mediums[17].p
- pipeA_V_B.mediums[17].T
- pipeA_V_B.mediums[18].p
- pipeA_V_B.mediums[18].T
- pipeA_V_B.mediums[19].p
- pipeA_V_B.mediums[19].T
- pipeA_V_B.mediums[20].p
- pipeA_V_B.mediums[20].T
- pipeA_V_B.mediums[21].p
- pipeA_V_B.mediums[21].T
- pipeA_V_B.mediums[22].p
- pipeA_V_B.mediums[22].T
- pipeA_V_B.mediums[23].p
- pipeA_V_B.mediums[23].T
- pipeA_V_B.mediums[24].p
- pipeA_V_B.mediums[24].T
- pipeA_V_B.mediums[25].p
- pipeA_V_B.mediums[25].T
- pipeA_V_B.mediums[26].p
- pipeA_V_B.mediums[26].T
- pipeA_V_B.mediums[27].p
- pipeA_V_B.mediums[27].T
- pipeA_V_B.mediums[28].p
- pipeA_V_B.mediums[28].T
- pipeA_V_B.mediums[29].p
- pipeA_V_B.mediums[29].T
- pipeA_V_B.mediums[30].p
- pipeA_V_B.mediums[30].T
- pipeA_VB.mediums[1].p
- pipeA_VB.mediums[1].T
- pipeA_VB.mediums[2].p
- pipeA_VB.mediums[2].T
- pipeA_VB.mediums[3].p
- pipeA_VB.mediums[3].T
- pipeA_VB.mediums[4].p
- pipeA_VB.mediums[4].T
- pipeA_VB.mediums[5].p
- pipeA_VB.mediums[5].T
- pipeA_VB.mediums[6].p
- pipeA_VB.mediums[6].T
- pipeA_VB.mediums[7].p
- pipeA_VB.mediums[7].T
- pipeA_VB.mediums[8].p
- pipeA_VB.mediums[8].T
- pipeA_VB.mediums[9].p
- pipeA_VB.mediums[9].T
- pipeA_VB.mediums[10].p
- pipeA_VB.mediums[10].T
- pipeA_VB.mediums[11].p
- pipeA_VB.mediums[11].T
- pipeA_VB.mediums[12].p
- pipeA_VB.mediums[12].T
- pipeA_VB.mediums[13].p
- pipeA_VB.mediums[13].T
- pipeA_VB.mediums[14].p
- pipeA_VB.mediums[14].T
- pipeA_VB.mediums[15].p
- pipeA_VB.mediums[15].T
- pipeA_VB.mediums[16].p
- pipeA_VB.mediums[16].T
- pipeA_VB.mediums[17].p
- pipeA_VB.mediums[17].T
- pipeA_VB.mediums[18].p
- pipeA_VB.mediums[18].T
- pipeA_VB.mediums[19].p
- pipeA_VB.mediums[19].T
- pipeA_VB.mediums[20].p
- pipeA_VB.mediums[20].T
- pipeA_VB.mediums[21].p
- pipeA_VB.mediums[21].T
- pipeA_VB.mediums[22].p
- pipeA_VB.mediums[22].T
- pipeA_VB.mediums[23].p
- pipeA_VB.mediums[23].T
- pipeA_VB.mediums[24].p
- pipeA_VB.mediums[24].T
- pipeA_VB.mediums[25].p
- pipeA_VB.mediums[25].T
- pipeA_VB.mediums[26].p
- pipeA_VB.mediums[26].T
- pipeA_VB.mediums[27].p
- pipeA_VB.mediums[27].T
- pipeA_VB.mediums[28].p
- pipeA_VB.mediums[28].T
- pipeA_VB.mediums[29].p
- pipeA_VB.mediums[29].T
- pipeA_VB.mediums[30].T
- pipeAV_B.mediums[1].p
- pipeAV_B.mediums[1].T
- pipeAV_B.mediums[2].p
- pipeAV_B.mediums[2].T
- pipeAV_B.mediums[3].p
- pipeAV_B.mediums[3].T
- pipeAV_B.mediums[4].p
- pipeAV_B.mediums[4].T
- pipeAV_B.mediums[5].p
- pipeAV_B.mediums[5].T
- pipeAV_B.mediums[6].p
- pipeAV_B.mediums[6].T
- pipeAV_B.mediums[7].p
- pipeAV_B.mediums[7].T
- pipeAV_B.mediums[8].p
- pipeAV_B.mediums[8].T
- pipeAV_B.mediums[9].p
- pipeAV_B.mediums[9].T
- pipeAV_B.mediums[10].p
- pipeAV_B.mediums[10].T
- pipeAV_B.mediums[11].p
- pipeAV_B.mediums[11].T
- pipeAV_B.mediums[12].p
- pipeAV_B.mediums[12].T
- pipeAV_B.mediums[13].p
- pipeAV_B.mediums[13].T
- pipeAV_B.mediums[14].p
- pipeAV_B.mediums[14].T
- pipeAV_B.mediums[15].p
- pipeAV_B.mediums[15].T
- pipeAV_B.mediums[16].p
- pipeAV_B.mediums[16].T
- pipeAV_B.mediums[17].p
- pipeAV_B.mediums[17].T
- pipeAV_B.mediums[18].p
- pipeAV_B.mediums[18].T
- pipeAV_B.mediums[19].p
- pipeAV_B.mediums[19].T
- pipeAV_B.mediums[20].p
- pipeAV_B.mediums[20].T
- pipeAV_B.mediums[21].p
- pipeAV_B.mediums[21].T
- pipeAV_B.mediums[22].p
- pipeAV_B.mediums[22].T
- pipeAV_B.mediums[23].p
- pipeAV_B.mediums[23].T
- pipeAV_B.mediums[24].p
- pipeAV_B.mediums[24].T
- pipeAV_B.mediums[25].p
- pipeAV_B.mediums[25].T
- pipeAV_B.mediums[26].p
- pipeAV_B.mediums[26].T
- pipeAV_B.mediums[27].p
- pipeAV_B.mediums[27].T
- pipeAV_B.mediums[28].p
- pipeAV_B.mediums[28].T
- pipeAV_B.mediums[29].p
- pipeAV_B.mediums[29].T
- pipeAV_B.mediums[30].p
- pipeAV_B.mediums[30].T
- pipeAV_VB.mediums[1].p
- pipeAV_VB.mediums[1].T
- pipeAV_VB.mediums[2].p
- pipeAV_VB.mediums[2].T
- pipeAV_VB.mediums[3].p
- pipeAV_VB.mediums[3].T
- pipeAV_VB.mediums[4].p
- pipeAV_VB.mediums[4].T
- pipeAV_VB.mediums[5].p
- pipeAV_VB.mediums[5].T
- pipeAV_VB.mediums[6].p
- pipeAV_VB.mediums[6].T
- pipeAV_VB.mediums[7].p
- pipeAV_VB.mediums[7].T
- pipeAV_VB.mediums[8].p
- pipeAV_VB.mediums[8].T
- pipeAV_VB.mediums[9].p
- pipeAV_VB.mediums[9].T
- pipeAV_VB.mediums[10].p
- pipeAV_VB.mediums[10].T
- pipeAV_VB.mediums[11].p
- pipeAV_VB.mediums[11].T
- pipeAV_VB.mediums[12].p
- pipeAV_VB.mediums[12].T
- pipeAV_VB.mediums[13].p
- pipeAV_VB.mediums[13].T
- pipeAV_VB.mediums[14].p
- pipeAV_VB.mediums[14].T
- pipeAV_VB.mediums[15].p
- pipeAV_VB.mediums[15].T
- pipeAV_VB.mediums[16].p
- pipeAV_VB.mediums[16].T
- pipeAV_VB.mediums[17].p
- pipeAV_VB.mediums[17].T
- pipeAV_VB.mediums[18].p
- pipeAV_VB.mediums[18].T
- pipeAV_VB.mediums[19].p
- pipeAV_VB.mediums[19].T
- pipeAV_VB.mediums[20].p
- pipeAV_VB.mediums[20].T
- pipeAV_VB.mediums[21].p
- pipeAV_VB.mediums[21].T
- pipeAV_VB.mediums[22].p
- pipeAV_VB.mediums[22].T
- pipeAV_VB.mediums[23].p
- pipeAV_VB.mediums[23].T
- pipeAV_VB.mediums[24].p
- pipeAV_VB.mediums[24].T
- pipeAV_VB.mediums[25].p
- pipeAV_VB.mediums[25].T
- pipeAV_VB.mediums[26].p
- pipeAV_VB.mediums[26].T
- pipeAV_VB.mediums[27].p
- pipeAV_VB.mediums[27].T
- pipeAV_VB.mediums[28].p
- pipeAV_VB.mediums[28].T
- pipeAV_VB.mediums[29].p
- pipeAV_VB.mediums[29].T
- pipeAV_VB.mediums[30].T
translate - Continuous time states
- pipeA_V_B.mediums[1].p
- pipeA_V_B.mediums[1].T
- pipeA_V_B.mediums[2].p
- pipeA_V_B.mediums[2].T
- pipeA_V_B.mediums[3].p
- pipeA_V_B.mediums[3].T
- pipeA_V_B.mediums[4].p
- pipeA_V_B.mediums[4].T
- pipeA_V_B.mediums[5].p
- pipeA_V_B.mediums[5].T
- pipeA_V_B.mediums[6].p
- pipeA_V_B.mediums[6].T
- pipeA_V_B.mediums[7].p
- pipeA_V_B.mediums[7].T
- pipeA_V_B.mediums[8].p
- pipeA_V_B.mediums[8].T
- pipeA_V_B.mediums[9].p
- pipeA_V_B.mediums[9].T
- pipeA_V_B.mediums[10].p
- pipeA_V_B.mediums[10].T
- pipeA_V_B.mediums[11].p
- pipeA_V_B.mediums[11].T
- pipeA_V_B.mediums[12].p
- pipeA_V_B.mediums[12].T
- pipeA_V_B.mediums[13].p
- pipeA_V_B.mediums[13].T
- pipeA_V_B.mediums[14].p
- pipeA_V_B.mediums[14].T
- pipeA_V_B.mediums[15].p
- pipeA_V_B.mediums[15].T
- pipeA_V_B.mediums[16].p
- pipeA_V_B.mediums[16].T
- pipeA_V_B.mediums[17].p
- pipeA_V_B.mediums[17].T
- pipeA_V_B.mediums[18].p
- pipeA_V_B.mediums[18].T
- pipeA_V_B.mediums[19].p
- pipeA_V_B.mediums[19].T
- pipeA_V_B.mediums[20].p
- pipeA_V_B.mediums[20].T
- pipeA_V_B.mediums[21].p
- pipeA_V_B.mediums[21].T
- pipeA_V_B.mediums[22].p
- pipeA_V_B.mediums[22].T
- pipeA_V_B.mediums[23].p
- pipeA_V_B.mediums[23].T
- pipeA_V_B.mediums[24].p
- pipeA_V_B.mediums[24].T
- pipeA_V_B.mediums[25].p
- pipeA_V_B.mediums[25].T
- pipeA_V_B.mediums[26].p
- pipeA_V_B.mediums[26].T
- pipeA_V_B.mediums[27].p
- pipeA_V_B.mediums[27].T
- pipeA_V_B.mediums[28].p
- pipeA_V_B.mediums[28].T
- pipeA_V_B.mediums[29].p
- pipeA_V_B.mediums[29].T
- pipeA_V_B.mediums[30].p
- pipeA_V_B.mediums[30].T
- pipeA_VB.mediums[1].p
- pipeA_VB.mediums[1].T
- pipeA_VB.mediums[2].p
- pipeA_VB.mediums[2].T
- pipeA_VB.mediums[3].p
- pipeA_VB.mediums[3].T
- pipeA_VB.mediums[4].p
- pipeA_VB.mediums[4].T
- pipeA_VB.mediums[5].p
- pipeA_VB.mediums[5].T
- pipeA_VB.mediums[6].p
- pipeA_VB.mediums[6].T
- pipeA_VB.mediums[7].p
- pipeA_VB.mediums[7].T
- pipeA_VB.mediums[8].p
- pipeA_VB.mediums[8].T
- pipeA_VB.mediums[9].p
- pipeA_VB.mediums[9].T
- pipeA_VB.mediums[10].p
- pipeA_VB.mediums[10].T
- pipeA_VB.mediums[11].p
- pipeA_VB.mediums[11].T
- pipeA_VB.mediums[12].p
- pipeA_VB.mediums[12].T
- pipeA_VB.mediums[13].p
- pipeA_VB.mediums[13].T
- pipeA_VB.mediums[14].p
- pipeA_VB.mediums[14].T
- pipeA_VB.mediums[15].p
- pipeA_VB.mediums[15].T
- pipeA_VB.mediums[16].p
- pipeA_VB.mediums[16].T
- pipeA_VB.mediums[17].p
- pipeA_VB.mediums[17].T
- pipeA_VB.mediums[18].p
- pipeA_VB.mediums[18].T
- pipeA_VB.mediums[19].p
- pipeA_VB.mediums[19].T
- pipeA_VB.mediums[20].p
- pipeA_VB.mediums[20].T
- pipeA_VB.mediums[21].p
- pipeA_VB.mediums[21].T
- pipeA_VB.mediums[22].p
- pipeA_VB.mediums[22].T
- pipeA_VB.mediums[23].p
- pipeA_VB.mediums[23].T
- pipeA_VB.mediums[24].p
- pipeA_VB.mediums[24].T
- pipeA_VB.mediums[25].p
- pipeA_VB.mediums[25].T
- pipeA_VB.mediums[26].p
- pipeA_VB.mediums[26].T
- pipeA_VB.mediums[27].p
- pipeA_VB.mediums[27].T
- pipeA_VB.mediums[28].p
- pipeA_VB.mediums[28].T
- pipeA_VB.mediums[29].p
- pipeA_VB.mediums[29].T
- pipeA_VB.mediums[30].T
- pipeAV_B.mediums[1].p
- pipeAV_B.mediums[1].T
- pipeAV_B.mediums[2].p
- pipeAV_B.mediums[2].T
- pipeAV_B.mediums[3].p
- pipeAV_B.mediums[3].T
- pipeAV_B.mediums[4].p
- pipeAV_B.mediums[4].T
- pipeAV_B.mediums[5].p
- pipeAV_B.mediums[5].T
- pipeAV_B.mediums[6].p
- pipeAV_B.mediums[6].T
- pipeAV_B.mediums[7].p
- pipeAV_B.mediums[7].T
- pipeAV_B.mediums[8].p
- pipeAV_B.mediums[8].T
- pipeAV_B.mediums[9].p
- pipeAV_B.mediums[9].T
- pipeAV_B.mediums[10].p
- pipeAV_B.mediums[10].T
- pipeAV_B.mediums[11].p
- pipeAV_B.mediums[11].T
- pipeAV_B.mediums[12].p
- pipeAV_B.mediums[12].T
- pipeAV_B.mediums[13].p
- pipeAV_B.mediums[13].T
- pipeAV_B.mediums[14].p
- pipeAV_B.mediums[14].T
- pipeAV_B.mediums[15].p
- pipeAV_B.mediums[15].T
- pipeAV_B.mediums[16].p
- pipeAV_B.mediums[16].T
- pipeAV_B.mediums[17].p
- pipeAV_B.mediums[17].T
- pipeAV_B.mediums[18].p
- pipeAV_B.mediums[18].T
- pipeAV_B.mediums[19].p
- pipeAV_B.mediums[19].T
- pipeAV_B.mediums[20].p
- pipeAV_B.mediums[20].T
- pipeAV_B.mediums[21].p
- pipeAV_B.mediums[21].T
- pipeAV_B.mediums[22].p
- pipeAV_B.mediums[22].T
- pipeAV_B.mediums[23].p
- pipeAV_B.mediums[23].T
- pipeAV_B.mediums[24].p
- pipeAV_B.mediums[24].T
- pipeAV_B.mediums[25].p
- pipeAV_B.mediums[25].T
- pipeAV_B.mediums[26].p
- pipeAV_B.mediums[26].T
- pipeAV_B.mediums[27].p
- pipeAV_B.mediums[27].T
- pipeAV_B.mediums[28].p
- pipeAV_B.mediums[28].T
- pipeAV_B.mediums[29].p
- pipeAV_B.mediums[29].T
- pipeAV_B.mediums[30].p
- pipeAV_B.mediums[30].T
- pipeAV_VB.mediums[1].p
- pipeAV_VB.mediums[1].T
- pipeAV_VB.mediums[2].p
- pipeAV_VB.mediums[2].T
- pipeAV_VB.mediums[3].p
- pipeAV_VB.mediums[3].T
- pipeAV_VB.mediums[4].p
- pipeAV_VB.mediums[4].T
- pipeAV_VB.mediums[5].p
- pipeAV_VB.mediums[5].T
- pipeAV_VB.mediums[6].p
- pipeAV_VB.mediums[6].T
- pipeAV_VB.mediums[7].p
- pipeAV_VB.mediums[7].T
- pipeAV_VB.mediums[8].p
- pipeAV_VB.mediums[8].T
- pipeAV_VB.mediums[9].p
- pipeAV_VB.mediums[9].T
- pipeAV_VB.mediums[10].p
- pipeAV_VB.mediums[10].T
- pipeAV_VB.mediums[11].p
- pipeAV_VB.mediums[11].T
- pipeAV_VB.mediums[12].p
- pipeAV_VB.mediums[12].T
- pipeAV_VB.mediums[13].p
- pipeAV_VB.mediums[13].T
- pipeAV_VB.mediums[14].p
- pipeAV_VB.mediums[14].T
- pipeAV_VB.mediums[15].p
- pipeAV_VB.mediums[15].T
- pipeAV_VB.mediums[16].p
- pipeAV_VB.mediums[16].T
- pipeAV_VB.mediums[17].p
- pipeAV_VB.mediums[17].T
- pipeAV_VB.mediums[18].p
- pipeAV_VB.mediums[18].T
- pipeAV_VB.mediums[19].p
- pipeAV_VB.mediums[19].T
- pipeAV_VB.mediums[20].p
- pipeAV_VB.mediums[20].T
- pipeAV_VB.mediums[21].p
- pipeAV_VB.mediums[21].T
- pipeAV_VB.mediums[22].p
- pipeAV_VB.mediums[22].T
- pipeAV_VB.mediums[23].p
- pipeAV_VB.mediums[23].T
- pipeAV_VB.mediums[24].p
- pipeAV_VB.mediums[24].T
- pipeAV_VB.mediums[25].p
- pipeAV_VB.mediums[25].T
- pipeAV_VB.mediums[26].p
- pipeAV_VB.mediums[26].T
- pipeAV_VB.mediums[27].p
- pipeAV_VB.mediums[27].T
- pipeAV_VB.mediums[28].p
- pipeAV_VB.mediums[28].T
- pipeAV_VB.mediums[29].p
- pipeAV_VB.mediums[29].T
- pipeAV_VB.mediums[30].T
translate - Largest NL equation system
- 30
- 30
- 1
- 30
- 30
- 1
translate - Largest NL equation system
- 30
- 30
- 1
- 30
- 30
- 1
simulate - Open log
Log-file of program ./dymosim
(generated: Tue Feb 25 03:49:26 2025)
dymosim started
... "ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeEnergyConservationCheck2" simulating
... "dsin.txt" loading (dymosim input file)
... "result.mat" creating (simulation result file)
Integration started at T = 0 using integration method DASSL
(DAE multi-step solver (dassl/dasslrt of Petzold modified by Dassault Systemes))
Integration terminated successfully at T = 500
CPU-time for integration : 2.74 seconds
CPU-time for one grid interval : 0.548 milliseconds
CPU-time for initialization : 0.004 seconds
Number of result points : 5002
Number of grid points : 5001
Number of accepted steps : 441
Number of f-evaluations (dynamics) : 953
Number of crossing function evaluations : 5441
Number of Jacobian-evaluations : 38
Number of model time events : 1
Number of input time events : 0
Number of state events : 0
Number of step events : 0
Minimum integration stepsize : 1.52e-07
Maximum integration stepsize : 204
Maximum integration order : 5
Calling terminal section
... "dsfinal.txt" creating (final states)
SUCCESSFUL simulation of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeEnergyConservationCheck2
simulate - Open log
Log-file of program ./dymosim
(generated: Tue Feb 25 01:03:01 2025)
dymosim started
... "ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeEnergyConservationCheck2" simulating
... "dsin.txt" loading (dymosim input file)
... "result.mat" creating (simulation result file)
Integration started at T = 0 using integration method DASSL
(DAE multi-step solver (dassl/dasslrt of Petzold modified by Dassault Systemes))
Integration terminated successfully at T = 500
CPU-time for integration : 2.7 seconds
CPU-time for one grid interval : 0.54 milliseconds
CPU-time for initialization : 0.004 seconds
Number of result points : 5002
Number of grid points : 5001
Number of accepted steps : 441
Number of f-evaluations (dynamics) : 953
Number of crossing function evaluations : 5441
Number of Jacobian-evaluations : 38
Number of model time events : 1
Number of input time events : 0
Number of state events : 0
Number of step events : 0
Minimum integration stepsize : 1.52e-07
Maximum integration stepsize : 204
Maximum integration order : 5
Calling terminal section
... "dsfinal.txt" creating (final states)
SUCCESSFUL simulation of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeEnergyConservationCheck2