command: ./cs_solver --mpi *************************************************************** (R) Code_Saturne Version 6.0.0 Copyright (C) 1998-2019 EDF S.A., France revision 6.0.0-7bd635ff7 build Thu 05 Dec 2019 16:49:06 GMT MPI version 3.0 (Open MPI 1.10.2) The Code_Saturne CFD tool is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. The Code_Saturne CFD tool is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. *************************************************************** Local case configuration: Date: Thu 10 Nov 2022 04:21:23 GMT System: Linux 4.4.0-210-generic (Ubuntu 16.04.7 LTS) Machine: heft-vis2 Processor: model name : Intel(R) Xeon(R) Gold 5120 CPU @ 2.20GHz Memory: 191893 MB User: xhuang () Directory: /home/xhuang/Desktop/junction/RESU/G819 MPI ranks: 10 (appnum attribute: 0) OpenMP threads: 1 Processors/node: 28 I/O read method: collective MPI-IO (explicit offsets) I/O write method: collective MPI-IO (explicit offsets) I/O rank step: 1 External libraries for partitioning: METIS SCOTCH 5.1.12 Reading metadata from file: "mesh_input" =============================================================== CALCULATION PREPARATION ======================= =========================================================== @ @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ @ @ @@ WARNING : WHEN READING INPUT DATA @ ========= @ NON-STANDARD CHOICE WITH TIME-SCHEME @ @ ORDER 2 IN TIME or LES @ THE VALUE RECOMMENDED FOR THE PARAMETER NSWRSM FOR @ VARIABLE Pressure IS 10 @ NSWRSM IS NOW IMPOSED AS 5 @ @ computation will go on @ @ Check the input data given through the User Interface @ or in cs_user_parameters.f90. @ @ @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ @ @ @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ @ @ @@ WARNING : WHEN READING INPUT DATA @ ========= @ CHOICE OF TIME-SCHEME @ @ TIME-SCHEME FOR VELOCITY IS SECOND ORDER @ (THETAV = 0.50E+00) @ SOME TERMS ARE HOWEVER FIRST ORDER IN TIME WITH @ THE FOLLOWING SETTINGS: @ @ parameters ISTMPF ISNO2T ISTO2T IROEXT IVIEXT ICPEXT @ Values entered 2 1 0 0 0 0 @ @ computation will go on. @ @ Check the input data given through the User Interface @ or in cs_user_parameters.f90. @ @ @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ @ Warning in LES, while reading convection scheme parameters for variable Velocity ------- Parameter: var_cal_opt.isstpc (limiter type) = 0 while its recommended value is equal to 1. No error detected during the data verification cs_user_parameters.f90 and others). =========================================================== CALCULATION PARAMETERS SUMMARY ============================== ----------------------------------------------------------- ** DIMENSIONS ---------- --- Physics NVAR = 5 (Nb variables ) NSCAL = 1 (Nb scalars ) NSCAUS = 0 (Nb user scalars ) NSCAPP = 1 (Nb specific physics scalars ) ----------------------------------------------------------- ** HOMOGENEOUS MIXTURE MODEL VoF ---------------------------------------- IVOFMT = 0 ( 0 : disabled ) ( > 0: enabled ) ----------------------------------------------------------- ** TIME STEPPING ------------- --- Per-variable properties ------------------------------------ Variable ISTAT CDTVAR ------------------------------------ Velocity 1 0.1000E+01 Pressure 0 0.1000E+01 TempK 1 0.1000E+01 ---------------------------- ISTAT = 0 ou 1 (1 for unsteady ) CDTVAR > 0 (time step multiplier ) --- Order of base time stepping scheme ISCHTP = 2 (1: order 1; 2: order 2 ) ----------------------------------------------------------- ** STOKES ------ -- Continuous phase: ISTMPF = 2 (time scheme for flow (0: explicit (THETFL = 0 ) (1: std scheme (Saturne 1.0 ) (2: 2nd-order (THETFL = 0.5 ) THETFL = 0.50000E+00 (theta for mass flow ) THETVI = 0.00000E+00 (theta for total viscosity ((1+theta).new-theta.old THETCP = 0.00000E+00 (specific heat theta-scheme ((1+theta).new-theta.old THETSN = 0.50000E+00 (Nav-Stokes S.T. theta scheme) ((1+theta).new-theta.old THETST = 0.00000E+00 (Turbulence S.T. theta-scheme) ((1+theta).new-theta.old EPSUP = 0.10000E-04 (Velocity/pressure coupling stop test ) ----------------------------------------------------------- ** SCALARS ------- ITBRRB = 0 (T or H reconstruction at bdy) ------------------------------------------------------------- Variable Number ISCACP ITURT VISLS0 SIGMAS ------------------------------------------------------------- TempK 1 1 0 0.7900E+02 0.1000E+01 ------------------------------------------------------------- ------------------------------------ Variable Number RVARFL ------------------------------------ TempK 1 0.8000E+00 ------------------------------------------- ------------------------------------------------------- Variable Number ICLVFL SCAMIN SCAMAX ------------------------------------------------------- TempK 1 -1 0.5000E+03 0.6000E+03 ------------------------------------------------------- ------------------------------------------------------------- For each scalar, the number indicates it's rank in the list of all scalars. User scalars are placed first, from 1 to NSCAUS. Specific physics scalars are placed at the end, from NSCAUS+1 to NSCAPP+NSCAUS=NSCAL. ISCACP = 0 or 1 2 (use Cp or not ) VISLS0 = >0 (Reference viscosity ) SIGMAS = >0 (Schmidt ) RVARFL = >0 (Rf, cf variance dissipation ) ICLVFL = 0, 1 or 2 (Variance clipping mode ) SCAMIN = (Min authorized value ) SCAMAX = (Max authorized value ) For variances, SCAMIN is ignored and SCAMAX is used only if ICLVFL = 2 ------------------------------------------------------ Scalar THETSS THETVS ------------------------------------------------------ 1 0.5000E+00 0.0000E+00 ------------------------------------------------------ THETSS = (theta for source terms ) ((1+theta).new-theta.old ) THETVS = (theta for scalar diffusivity ((1+theta).new-theta.old ) ----------------------------------------------------------- ** CALCULATION MANAGEMENT ---------------------- --- Restarted calculation ISUITE = 1 (1: restarted calculation ) ILEAUX = 1 (1: read restart/auxiliary ) IECAUX = 1 (1: write checkpoint/auxiliary) --- Calculation time The numbering of time steps and the measure of simulated physical time are absolute values, and not values relative to the current calculation. NTPABS = 471581 (Initial time step) NTMABS = -1 (Final time step required) ----------------------------------------------------------- ** INPUT-OUTPUT ------------ --- Restart file NTSUIT = 0 (Checkpoint frequency ) --- Probe history files NTHIST = 1 (Output frequency ) FRHIST = -.10000E+01 (Output frequency (s) ) -- -- -- --- run_solver.log files NTLIST = 100 (Output frequency ) -- -- -- --- Additional post-processing variables (ipstdv) ipstfo = 0 (Force exerted by the fluid on the boundary) ipstyp = 0 (y+ at boundary) ipsttp = 0 (T+ at boundary) ipstft = 0 (Thermal flux at boundary) ipstnu = 0 (Dimensionless thermal flux at boundary) ----------------------------------------------------------- ** ALE METHOD (MOVING MESH) ----------- IALE = 0 (1: activated,2: CDO ) NALINF = 0 (Fluid initialization iterations) IFLXMW = 0 (ALE mass flux computation 0: thanks to vertices 1: thanks to mesh velocity) ----------------------------------------------------------- Postprocessing output writers: ------------------------------ -1: name: results directory: postprocessing format: EnSight Gold options: separate_meshes time dependency: fixed mesh output: at calculation end 1: name: user_txt directory: postprocessing format: EnSight Gold options: time dependency: fixed mesh output: at calculation end -5: name: directory: monitoring format: time_plot options: time dependency: fixed mesh output: every 1 time steps -6: name: directory: profiles format: plot options: time dependency: fixed mesh output: at calculation end -7: name: histograms directory: histograms format: histogram options: txt time dependency: fixed mesh output: at calculation end Reading file: mesh_input Finished reading: mesh_input No "partition_input/domain_number_10" file available; ---------------------------------------------------------- Partitioning 12441600 cells to 10 domains (SCOTCH_graphPart). Total number of faces on parallel boundaries: 206993 wall-clock time: 41.700085 s Number of cells per domain (histogramm): [ 1205523 ; 1211177 [ = 1 [ 1211177 ; 1216831 [ = 0 [ 1216831 ; 1222485 [ = 0 [ 1222485 ; 1228139 [ = 0 [ 1228139 ; 1233794 [ = 3 [ 1233794 ; 1239448 [ = 1 [ 1239448 ; 1245102 [ = 0 [ 1245102 ; 1250756 [ = 0 [ 1250756 ; 1256410 [ = 0 [ 1256410 ; 1262065 ] = 5 Partitioning finished (55.3 s) ---------------------------------------------------------- Halo construction with extended neighborhood ============================================ Face interfaces creation Vertex interfaces creation Halo creation Halo definition Local halo definition Distant halo creation Updating the faces -> cells connectivity Extended neighborhood structures definition Histogram of the number of cells per rank: minimum value = 1205523 maximum value = 1262065 1 : [ 1205523 ; 1216831 [ = 1 2 : [ 1216831 ; 1228139 [ = 0 3 : [ 1228139 ; 1239448 [ = 4 4 : [ 1239448 ; 1250756 [ = 0 5 : [ 1250756 ; 1262065 ] = 5 ---------------------------------------------------------- Histogram of the number of standard + halo cells per rank: minimum value = 1263021 maximum value = 1316913 1 : [ 1263021 ; 1273799 [ = 4 2 : [ 1273799 ; 1284577 [ = 2 3 : [ 1284577 ; 1295356 [ = 1 4 : [ 1295356 ; 1306134 [ = 1 5 : [ 1306134 ; 1316913 ] = 2 ---------------------------------------------------------- Histogram of the number of ghost cells per rank: minimum value = 13312 maximum value = 61638 1 : [ 13312 ; 22977 [ = 1 2 : [ 22977 ; 32642 [ = 2 3 : [ 32642 ; 42307 [ = 2 4 : [ 42307 ; 51972 [ = 2 5 : [ 51972 ; 61638 ] = 3 Histogram of the number of ghost cells in the standard neighborhood per rank: minimum value = 9283 maximum value = 44125 1 : [ 9283 ; 16251 [ = 1 2 : [ 16251 ; 23219 [ = 0 3 : [ 23219 ; 30188 [ = 4 4 : [ 30188 ; 37156 [ = 2 5 : [ 37156 ; 44125 ] = 3 ---------------------------------------------------------- Histogram of the number of interior faces per rank: minimum value = 3635167 maximum value = 3801819 1 : [ 3635167 ; 3668497 [ = 1 2 : [ 3668497 ; 3701827 [ = 1 3 : [ 3701827 ; 3735158 [ = 3 4 : [ 3735158 ; 3768488 [ = 1 5 : [ 3768488 ; 3801819 ] = 4 ---------------------------------------------------------- Histogram of the number of boundary faces per rank: minimum value = 22172 maximum value = 41837 1 : [ 22172 ; 26105 [ = 4 2 : [ 26105 ; 30038 [ = 1 3 : [ 30038 ; 33971 [ = 0 4 : [ 33971 ; 37904 [ = 4 5 : [ 37904 ; 41837 ] = 1 ---------------------------------------------------------- Histogram of the number of interior faces per cell: minimum value = 4 maximum value = 6 1 : [ 4 ; 5 [ = 1160 2 : [ 5 ; 6 ] = 12440440 ---------------------------------------------------------- Histogram of the number of neighboring domains per rank: minimum value = 2 maximum value = 6 1 : [ 2 ; 3 [ = 1 2 : [ 3 ; 4 [ = 3 3 : [ 4 ; 5 [ = 1 4 : [ 5 ; 6 ] = 5 ---------------------------------------------------------- Global definition of the number of elements (cells, vertices, faces...) Synchronizing cell families Renumbering mesh: renumbering for cells: pre-numbering: no renumbering cells adjacent to ghost cells last: no numbering: no renumbering renumbering for interior faces: cell adjacency pre-ordering: lowest id first faces adjacent to ghost cells last: no numbering: multipass renumbering for boundary faces: numbering: no shared cell across threads renumbering for vertices: numbering: no renumbering Numbering for cells: type: default Numbering for interior faces: type: default Numbering for boundary faces: type: default ---------------------------------------------------------- Histogram of volume mesh matrix bandwidth per rank: minimum value = 1078683 maximum value = 1295530 1 : [ 1078683 ; 1122052 [ = 1 2 : [ 1122052 ; 1165421 [ = 0 3 : [ 1165421 ; 1208791 [ = 0 4 : [ 1208791 ; 1252160 [ = 3 5 : [ 1252160 ; 1295530 ] = 6 Histogram of volume mesh matrix profile/lines per rank: minimum value = 35483 maximum value = 54161 1 : [ 35483 ; 39218 [ = 3 2 : [ 39218 ; 42954 [ = 1 3 : [ 42954 ; 46689 [ = 1 4 : [ 46689 ; 50425 [ = 2 5 : [ 50425 ; 54161 ] = 3 Mesh coordinates: minimum and maximum X : -2.0380001e-01 2.2099999e-01 Y : -1.1050000e-02 1.1050000e-02 Z : -1.1049977e-02 8.1049994e-02 Mesh Number of cells: 12441600 Number of interior faces: 37171536 Number of boundary faces: 306528 Number of vertices: 12595697 Groups: "IN_COLD" boundary faces: 8832 "IN_HOT" boundary faces: 23808 "OUTLET" boundary faces: 23808 "WALL_1" boundary faces: 213888 "WALL_2" boundary faces: 36192 --- Information on the volumes Minimum control volume = 5.5415531e-14 Maximum control volume = 4.3306702e-11 Total volume for the domain = 1.6564381e-04 Criterion 1: Orthogonality: Number of bad cells detected: 0 --> 0 % Criterion 2: Offset: Number of bad cells detected: 0 --> 0 % Criterion 3: Least-Squares Gradient Quality: Number of bad cells detected: 37046 --> 0 % Criterion 4: Cells Volume Ratio: Number of bad cells detected: 0 --> 0 % Criterion 5: Guilt by Association: Number of bad cells detected: 0 --> 0 % Warning: -------- Mesh quality issue has been detected The mesh should be re-considered using the listed criteria. The calculation will run but the solution quality may be degraded... Computing geometric quantities (3.45 s) --- Information on volume zones Volume zone "cells" id = 0 Number of cells = 12441600 Volume = 1.6564381e-04 Surface = -1 (not computed) Fluid surface = -1 (not computed) Volume zone "all_cells" id = 1 Number of cells = 12441600 Volume = 1.6564381e-04 Surface = -1 (not computed) Fluid surface = -1 (not computed) --- Information on boundary zones Boundary zone "boundary_faces" id = 0 Number of faces = 306528 Surface = 3.1805376e-02 Fluid surface = 3.1805376e-02 Perimeter = -1 (not computed) Fluid perimeter = -1 (not computed) Boundary zone "inlet_branch" id = 1 Number of faces = 8832 Surface = 3.8479458e-05 Fluid surface = 3.8479458e-05 Perimeter = -1 (not computed) Fluid perimeter = -1 (not computed) Boundary zone "inlet_main" id = 2 Number of faces = 23808 Surface = 3.8358141e-04 Fluid surface = 3.8358141e-04 Perimeter = -1 (not computed) Fluid perimeter = -1 (not computed) Boundary zone "outlet" id = 3 Number of faces = 23808 Surface = 3.8358078e-04 Fluid surface = 3.8358078e-04 Perimeter = -1 (not computed) Fluid perimeter = -1 (not computed) Boundary zone "main_side" id = 4 Number of faces = 213888 Surface = 2.9454192e-02 Fluid surface = 2.9454192e-02 Perimeter = -1 (not computed) Fluid perimeter = -1 (not computed) Boundary zone "inlet_side" id = 5 Number of faces = 36192 Surface = 1.5455423e-03 Fluid surface = 1.5455423e-03 Perimeter = -1 (not computed) Fluid perimeter = -1 (not computed) Probe set: "probes": maximum distance between cell centers and requested coordinates: 2.854e-07 ALMAX = 0.54919E-01 (Characteristic length ) ALMAX is the cubic root of the domain volume. Definition of the LES inflow boundary "1" Method: 2 (Batten) Number of boundary faces (global): 8832 Number of modes: 200 Definition of the LES inflow boundary "2" Method: 2 (Batten) Number of boundary faces (global): 23808 Number of modes: 200 ------------------------------------------------------------- ----------------------------------------------------------- ** READING MAIN AND AUXILIARY RESTART FILES ---------------------------------------- READING THE MAIN RESTART FILE Start reading Warning: the number of variables or properties has been changed relative to the restart file. current: 3 model and 0 user variables 14 model and 2 user properties previous: 3 model and 0 user variables 17 model and 2 user properties The computation continues, with a partial restart. Reading dimensions complete Reading the previous time step number (restarting computation) NTPABS = 471581 Reading the previous time step number (restarting computation) TTPABS = 0.5280E+02 Reading options complete Read variables from restart: restart/main Reading complete READING THE AUXILIARY RESTART FILE Start reading Fin de la lecture des options restart/auxiliary: section "ref_presstot01" not present. @ @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ @ @ @@ WARNING: WHEN READING THE AUXILIARY RESTART FILE @ ======= @ Lecture des proprietes physiques @ @ It was not possible to read some values from the @ auxiliary restart file. @ They will be initialized by the default values. @ @ This situation can occur when the restart file @ originates from a run realised with different @ options or when the file is damaged. @ @ The run will continue... @ @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ @ Fin de la lecture des proprietes physiques Fin de la lecture du pas de temps Fin de la lecture des flux de masse Fin de la lecture des conditions aux limites End reading ----------------------------------------------------------- Reading the LES inflow module restart file... ...completed ----------------------------------------------------------- ** VARIABLES INITIALIZATION ------------------------ ----------------------------------------- Variable Min. value Max. value ----------------------------------------- Velocity -0.4718E+00 0.1872E+01 Velocity -0.7833E+00 0.7430E+00 Velocity -0.1484E+01 0.3730E+00 Pressure -0.2739E+04 0.3534E+04 TempK 0.5231E+03 0.5531E+03 --------------------------------- dt 0.1000E-03 0.1000E-03 --------------------------------- ------------------------------------------------------------- ** INFORMATION ON BOUNDARY FACES TYPE ---------------------------------- ------------------------------------------------------------------------- Boundary type Code Nb faces ------------------------------------------------------------------------- Inlet 2 32640 Smooth wall 5 250080 Rough wall 6 0 Symmetry 4 0 Free outlet 3 23808 Free inlet 14 0 Convective inlet 16 0 Free surface 15 0 Undefined 1 0 ------------------------------------------------------------------------- =============================================================== MAIN CALCULATION ================ =============================================================== =============================================================== INSTANT 0.527964580E+02 TIME STEP NUMBER 471582 ============================================================= ----------------------------------------- Property Min. value Max. value ----------------------------------------- density 0.8840E+03 0.8911E+03 molecular_viscos 0.3585E-03 0.3882E-03 turbulent_viscos 0.0000E+00 0.2337E-02 specific_heat 0.1315E+04 0.1325E+04 ----------------------------------------- --- Diffusivity: ----------------------------------------------- Scalar Number Min. value Max. value ----------------------------------------------- TempK 1 0.7800E+02 0.7941E+02 ----------------------------------------------- ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 32640 -0.465015630E+00 Smooth wall 5 250080 0.000000000E+00 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 23808 0.465015624E+00 Free inlet 14 0 0.000000000E+00 Convective inlet 16 0 0.000000000E+00 Free surface 15 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** INFORMATION ON CONVERGENCE -------------------------- ---------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual Drift Time residual ---------------------------------------------------------------------------- c Velocity 0.74073E+00 2 0.50067E-04 0.89061E-02 0.69703E+01 c Velocity[X] 0.56737E-02 c Velocity[Y] 0.15373E-02 c Velocity[Z] 0.16950E-02 c Pressure 0.45582E-04 16 0.34327E-04 0.13796E-01 0.41333E+01 c TempK 0.38580E+06 1 0.19443E-05 0.24908E+00 0.90501E-01 ---------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ----- -------------- -------------- ------------ ------------ a TempK ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.47132 1.8727 0.99402 1.2977 v Velocity[Y] -0.78361 0.74306 -0.00061624 2.3358e-05 v Velocity[Z] -1.4837 0.37288 -0.12269 -0.01956 v ǁVelocityǁ 0.00051005 1.8791 1.1052 1.3173 v Pressure -2740.2 3534.5 868.72 741.99 v TempK 523.15 553.15 548.67 551.45 v Density 884.01 891.06 885.06 884.41 v LamVisc 0.00035847 0.00038825 0.00036285 0.00036008 v TurbVisc 0 0.0023368 2.2994e-05 3.4179e-05 v CourantNb 9.545e-05 7.9991 0.32568 0.17912 v FourierNb 0.0045899 1.7018 0.056494 0.01792 v total_pressure 98562 1.0495e+05 1.0209e+05 1.0199e+05 v Csdyn2 0 0.004225 0.001705 0.002244 v maxT 0 0 0 v minT 0 0 0 v SpecHeat 1315.5 1325.4 1316.9 1316 v ThermalCond 78.002 79.412 78.213 78.082 ** Computed fields on boundary_faces --------------------------------- field minimum maximum set mean spatial mean - ---------------- -------------- -------------- -------------- -------------- v Boundary Density 884.01 891.06 885.23 884.52 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.023201 8.3899 0.38217 0.19704 INSTANT 0.527965580E+02 TIME STEP NUMBER 471583 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 32640 -0.465015630E+00 Smooth wall 5 250080 0.000000000E+00 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 23808 0.465015629E+00 Free inlet 14 0 0.000000000E+00 Convective inlet 16 0 0.000000000E+00 Free surface 15 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** INFORMATION ON CONVERGENCE -------------------------- ---------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual Drift Time residual ---------------------------------------------------------------------------- c Velocity 0.74073E+00 2 0.48624E-04 0.89125E-02 0.69728E+01 c Velocity[X] 0.56789E-02 c Velocity[Y] 0.15383E-02 c Velocity[Z] 0.16953E-02 c Pressure 0.45446E-04 18 0.34621E-04 0.13755E-01 0.62462E+01 c TempK 0.38580E+06 1 0.19304E-05 0.24901E+00 0.90487E-01 ---------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ----- -------------- -------------- ------------ ------------ a TempK ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.47095 1.8733 0.99402 1.2977 v Velocity[Y] -0.78396 0.74313 -0.00061518 2.4025e-05 v Velocity[Z] -1.4836 0.37278 -0.12269 -0.01956 v ǁVelocityǁ 0.00049899 1.88 1.1052 1.3173 v Pressure -2741.5 3534.4 868.53 742.02 v TempK 523.15 553.15 548.67 551.45 v Density 884.01 891.06 885.06 884.41 v LamVisc 0.00035847 0.00038825 0.00036285 0.00036008 v TurbVisc 0 0.0022919 2.2992e-05 3.4172e-05 v CourantNb 9.0167e-05 7.9495 0.32567 0.17912 v FourierNb 0.0045899 1.7181 0.056494 0.01792 v total_pressure 98561 1.0494e+05 1.0209e+05 1.0199e+05 v Csdyn2 0 0.004225 0.0017049 0.0022438 v maxT 0 0 0 v minT 0 0 0 v SpecHeat 1315.5 1325.4 1316.9 1316 v ThermalCond 78.002 79.412 78.213 78.082 ** Computed fields on boundary_faces --------------------------------- field minimum maximum set mean spatial mean - ---------------- -------------- -------------- -------------- -------------- v Boundary Density 884.01 891.06 885.23 884.52 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.023157 8.2649 0.38217 0.19704 INSTANT 0.527966580E+02 TIME STEP NUMBER 471584 ============================================================= ** INFORMATION ON CONVERGENCE -------------------------- ---------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual Drift Time residual ---------------------------------------------------------------------------- c Velocity 0.74073E+00 2 0.48609E-04 0.89144E-02 0.69736E+01 c Velocity[X] 0.56813E-02 c Velocity[Y] 0.15387E-02 c Velocity[Z] 0.16943E-02 c Pressure 0.45204E-04 17 0.34670E-04 0.13682E-01 0.48120E+01 c TempK 0.38580E+06 1 0.19216E-05 0.24871E+00 0.90434E-01 ---------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ----- -------------- -------------- ------------ ------------ a TempK ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.47052 1.8738 0.99402 1.2977 v Velocity[Y] -0.78447 0.74319 -0.00061408 2.4798e-05 v Velocity[Z] -1.4836 0.37269 -0.12269 -0.019561 v ǁVelocityǁ 0.00048861 1.8809 1.1052 1.3173 v Pressure -2742.5 3534 868.36 742.08 v TempK 523.15 553.15 548.67 551.45 v Density 884.01 891.06 885.06 884.41 v LamVisc 0.00035847 0.00038825 0.00036285 0.00036008 v TurbVisc 0 0.0023231 2.2991e-05 3.4169e-05 v CourantNb 8.4686e-05 7.9131 0.32567 0.17912 v FourierNb 0.0045899 1.7032 0.056494 0.01792 v total_pressure 98560 1.0495e+05 1.0209e+05 1.0199e+05 v Csdyn2 0 0.004225 0.0017047 0.0022436 v maxT 0 0 0 v minT 0 0 0 v SpecHeat 1315.5 1325.4 1316.9 1316 v ThermalCond 78.002 79.412 78.213 78.082 ** Computed fields on boundary_faces --------------------------------- field minimum maximum set mean spatial mean - ---------------- -------------- -------------- -------------- -------------- v Boundary Density 884.01 891.06 885.23 884.52 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.028421 8.292 0.38216 0.19704 INSTANT 0.527967580E+02 TIME STEP NUMBER 471585 ============================================================= ** INFORMATION ON CONVERGENCE -------------------------- ---------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual Drift Time residual ---------------------------------------------------------------------------- c Velocity 0.74073E+00 2 0.49906E-04 0.89205E-02 0.69759E+01 c Velocity[X] 0.56863E-02 c Velocity[Y] 0.15396E-02 c Velocity[Z] 0.16947E-02 c Pressure 0.45280E-04 17 0.34395E-04 0.13705E-01 0.49047E+01 c TempK 0.38580E+06 1 0.19077E-05 0.24852E+00 0.90398E-01 ---------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ----- -------------- -------------- ------------ ------------ a TempK ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.47005 1.8743 0.99402 1.2977 v Velocity[Y] -0.78453 0.74321 -0.00061291 2.5635e-05 v Velocity[Z] -1.4836 0.37259 -0.12269 -0.019562 v ǁVelocityǁ 0.00047886 1.8817 1.1052 1.3173 v Pressure -2743.9 3533.9 868.21 742.16 v TempK 523.15 553.15 548.67 551.45 v Density 884.01 891.06 885.06 884.41 v LamVisc 0.00035847 0.00038825 0.00036285 0.00036008 v TurbVisc 0 0.0023715 2.2991e-05 3.4166e-05 v CourantNb 7.9126e-05 7.9009 0.32567 0.17912 v FourierNb 0.0045899 1.7217 0.056494 0.01792 v total_pressure 98559 1.0495e+05 1.0209e+05 1.0199e+05 v Csdyn2 0 0.004225 0.0017046 0.0022434 v maxT 0 0 0 v minT 0 0 0 v SpecHeat 1315.5 1325.4 1316.9 1316 v ThermalCond 78.002 79.412 78.213 78.082 ** Computed fields on boundary_faces --------------------------------- field minimum maximum set mean spatial mean - ---------------- -------------- -------------- -------------- -------------- v Boundary Density 884.01 891.06 885.23 884.52 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.025679 8.3122 0.38216 0.19704 INSTANT 0.527968580E+02 TIME STEP NUMBER 471586 ============================================================= ** INFORMATION ON CONVERGENCE -------------------------- ---------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual Drift Time residual ---------------------------------------------------------------------------- c Velocity 0.74073E+00 2 0.48806E-04 0.89292E-02 0.69793E+01 c Velocity[X] 0.56931E-02 c Velocity[Y] 0.15418E-02 c Velocity[Z] 0.16944E-02 c Pressure 0.45404E-04 17 0.34550E-04 0.13744E-01 0.52843E+01 c TempK 0.38580E+06 1 0.18928E-05 0.24819E+00 0.90338E-01 ---------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ----- -------------- -------------- ------------ ------------ a TempK ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.46955 1.8748 0.99402 1.2977 v Velocity[Y] -0.78495 0.74321 -0.00061111 2.6954e-05 v Velocity[Z] -1.4837 0.37242 -0.12269 -0.019562 v ǁVelocityǁ 0.0004694 1.8824 1.1052 1.3173 v Pressure -2745.3 3533.6 868.07 742.25 v TempK 523.15 553.15 548.67 551.45 v Density 884.01 891.06 885.06 884.41 v LamVisc 0.00035847 0.00038825 0.00036285 0.00036008 v TurbVisc 0 0.0024177 2.2991e-05 3.4163e-05 v CourantNb 7.3437e-05 7.9528 0.32566 0.17912 v FourierNb 0.0045899 1.7049 0.056494 0.01792 v total_pressure 98557 1.0495e+05 1.0209e+05 1.0199e+05 v Csdyn2 0 0.004225 0.0017044 0.0022432 v maxT 0 0 0 v minT 0 0 0 v SpecHeat 1315.5 1325.4 1316.9 1316 v ThermalCond 78.002 79.412 78.213 78.082 ** Computed fields on boundary_faces --------------------------------- field minimum maximum set mean spatial mean - ---------------- -------------- -------------- -------------- -------------- v Boundary Density 884.01 891.06 885.23 884.52 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.021114 8.3436 0.38216 0.19704 INSTANT 0.527969580E+02 TIME STEP NUMBER 471587 ============================================================= ** INFORMATION ON CONVERGENCE -------------------------- ---------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual Drift Time residual ---------------------------------------------------------------------------- c Velocity 0.74073E+00 2 0.47325E-04 0.89338E-02 0.69811E+01 c Velocity[X] 0.56960E-02 c Velocity[Y] 0.15434E-02 c Velocity[Z] 0.16944E-02 c Pressure 0.45532E-04 17 0.34462E-04 0.13784E-01 0.50128E+01 c TempK 0.38580E+06 1 0.18876E-05 0.24783E+00 0.90273E-01 ---------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ----- -------------- -------------- ------------ ------------ a TempK ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.46916 1.8752 0.99402 1.2977 v Velocity[Y] -0.78505 0.74325 -0.00060919 2.8388e-05 v Velocity[Z] -1.4837 0.37218 -0.12269 -0.019563 v ǁVelocityǁ 0.00046037 1.8832 1.1052 1.3173 v Pressure -2746.5 3533.2 867.94 742.36 v TempK 523.15 553.15 548.67 551.45 v Density 884.01 891.06 885.06 884.41 v LamVisc 0.00035847 0.00038825 0.00036285 0.00036008 v TurbVisc 0 0.0024559 2.2991e-05 3.416e-05 v CourantNb 6.7548e-05 7.9135 0.32566 0.17912 v FourierNb 0.0045899 1.7117 0.056495 0.01792 v total_pressure 98556 1.0495e+05 1.0209e+05 1.0199e+05 v Csdyn2 0 0.004225 0.0017043 0.002243 v maxT 0 0 0 v minT 0 0 0 v SpecHeat 1315.5 1325.4 1316.9 1316 v ThermalCond 78.002 79.412 78.213 78.082 ** Computed fields on boundary_faces --------------------------------- field minimum maximum set mean spatial mean - ---------------- -------------- -------------- -------------- -------------- v Boundary Density 884.01 891.06 885.23 884.52 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.021098 8.3136 0.38215 0.19704 INSTANT 0.527970580E+02 TIME STEP NUMBER 471588 ============================================================= ** INFORMATION ON CONVERGENCE -------------------------- ---------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual Drift Time residual ---------------------------------------------------------------------------- c Velocity 0.74073E+00 2 0.46724E-04 0.89346E-02 0.69814E+01 c Velocity[X] 0.56947E-02 c Velocity[Y] 0.15448E-02 c Velocity[Z] 0.16951E-02 c Pressure 0.45684E-04 17 0.34697E-04 0.13830E-01 0.49836E+01 c TempK 0.38580E+06 1 0.18804E-05 0.24757E+00 0.90226E-01 ---------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ----- -------------- -------------- ------------ ------------ a TempK ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.46879 1.8755 0.99402 1.2977 v Velocity[Y] -0.7854 0.74336 -0.00060729 3.0021e-05 v Velocity[Z] -1.4837 0.37185 -0.12268 -0.019564 v ǁVelocityǁ 0.00045162 1.8838 1.1052 1.3173 v Pressure -2747.7 3532.9 867.84 742.48 v TempK 523.15 553.15 548.67 551.45 v Density 884.01 891.06 885.06 884.41 v LamVisc 0.00035847 0.00038825 0.00036285 0.00036008 v TurbVisc 0 0.0024737 2.2991e-05 3.4158e-05 v CourantNb 6.5336e-05 7.9285 0.32566 0.17912 v FourierNb 0.0045899 1.7132 0.056494 0.01792 v total_pressure 98555 1.0495e+05 1.0209e+05 1.0199e+05 v Csdyn2 0 0.004225 0.0017042 0.0022428 v maxT 0 0 0 v minT 0 0 0 v SpecHeat 1315.5 1325.4 1316.9 1316 v ThermalCond 78.002 79.412 78.213 78.082 ** Computed fields on boundary_faces --------------------------------- field minimum maximum set mean spatial mean - ---------------- -------------- -------------- -------------- -------------- v Boundary Density 884.01 891.06 885.23 884.52 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.025755 8.2733 0.38215 0.19704 INSTANT 0.527971580E+02 TIME STEP NUMBER 471589 ============================================================= ** INFORMATION ON CONVERGENCE -------------------------- ---------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual Drift Time residual ---------------------------------------------------------------------------- c Velocity 0.74073E+00 2 0.47141E-04 0.89379E-02 0.69827E+01 c Velocity[X] 0.56977E-02 c Velocity[Y] 0.15461E-02 c Velocity[Z] 0.16941E-02 c Pressure 0.45838E-04 17 0.34514E-04 0.13877E-01 0.48553E+01 c TempK 0.38580E+06 1 0.18697E-05 0.24736E+00 0.90188E-01 ---------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ----- -------------- -------------- ------------ ------------ a TempK ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.4686 1.8758 0.99402 1.2977 v Velocity[Y] -0.78544 0.7435 -0.00060532 3.1471e-05 v Velocity[Z] -1.4837 0.37141 -0.12268 -0.019564 v ǁVelocityǁ 0.00044048 1.8845 1.1052 1.3173 v Pressure -2749 3532.6 867.74 742.61 v TempK 523.15 553.15 548.67 551.45 v Density 884.01 891.06 885.06 884.41 v LamVisc 0.00035847 0.00038825 0.00036285 0.00036008 v TurbVisc 0 0.00247 2.2991e-05 3.4156e-05 v CourantNb 6.4796e-05 7.933 0.32565 0.17912 v FourierNb 0.0045899 1.6951 0.056495 0.01792 v total_pressure 98553 1.0495e+05 1.0209e+05 1.0199e+05 v Csdyn2 0 0.004225 0.001704 0.0022427 v maxT 0 0 0 v minT 0 0 0 v SpecHeat 1315.5 1325.4 1316.9 1316 v ThermalCond 78.002 79.412 78.213 78.082 ** Computed fields on boundary_faces --------------------------------- field minimum maximum set mean spatial mean - ---------------- -------------- -------------- -------------- -------------- v Boundary Density 884.01 891.06 885.23 884.52 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.027673 8.3411 0.38215 0.19704 INSTANT 0.527972580E+02 TIME STEP NUMBER 471590 ============================================================= ** INFORMATION ON CONVERGENCE -------------------------- ---------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual Drift Time residual ---------------------------------------------------------------------------- c Velocity 0.74073E+00 2 0.47376E-04 0.89434E-02 0.69849E+01 c Velocity[X] 0.57022E-02 c Velocity[Y] 0.15482E-02 c Velocity[Z] 0.16930E-02 c Pressure 0.46004E-04 17 0.34709E-04 0.13926E-01 0.51800E+01 c TempK 0.38580E+06 1 0.18627E-05 0.24706E+00 0.90132E-01 ---------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ----- -------------- -------------- ------------ ------------ a TempK ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.4684 1.8766 0.99402 1.2977 v Velocity[Y] -0.78579 0.7436 -0.00060388 3.2574e-05 v Velocity[Z] -1.4837 0.37086 -0.12268 -0.019565 v ǁVelocityǁ 0.00042432 1.885 1.1052 1.3173 v Pressure -2750 3532 867.66 742.76 v TempK 523.15 553.15 548.67 551.45 v Density 884.01 891.06 885.06 884.41 v LamVisc 0.00035847 0.00038825 0.00036285 0.00036008 v TurbVisc 0 0.002454 2.2991e-05 3.4153e-05 v CourantNb 6.4265e-05 7.9462 0.32565 0.17912 v FourierNb 0.0045899 1.6955 0.056495 0.01792 v total_pressure 98552 1.0496e+05 1.0209e+05 1.0199e+05 v Csdyn2 0 0.004225 0.0017039 0.0022425 v maxT 0 0 0 v minT 0 0 0 v SpecHeat 1315.5 1325.4 1316.9 1316 v ThermalCond 78.002 79.412 78.213 78.082 ** Computed fields on boundary_faces --------------------------------- field minimum maximum set mean spatial mean - ---------------- -------------- -------------- -------------- -------------- v Boundary Density 884.01 891.06 885.23 884.52 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.027717 8.3371 0.38214 0.19704 INSTANT 0.527973580E+02 TIME STEP NUMBER 471591 ============================================================= ** INFORMATION ON CONVERGENCE -------------------------- ---------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual Drift Time residual ---------------------------------------------------------------------------- c Velocity 0.74073E+00 2 0.47407E-04 0.89485E-02 0.69869E+01 c Velocity[X] 0.57060E-02 c Velocity[Y] 0.15488E-02 c Velocity[Z] 0.16937E-02 c Pressure 0.45948E-04 17 0.34491E-04 0.13909E-01 0.54070E+01 c TempK 0.38580E+06 1 0.18564E-05 0.24679E+00 0.90082E-01 ---------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ----- -------------- -------------- ------------ ------------ a TempK ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.46817 1.8774 0.99403 1.2977 v Velocity[Y] -0.78588 0.74364 -0.00060229 3.415e-05 v Velocity[Z] -1.4837 0.37018 -0.12268 -0.019566 v ǁVelocityǁ 0.00040848 1.8856 1.1052 1.3173 v Pressure -2751.1 3531.6 867.58 742.92 v TempK 523.15 553.15 548.67 551.45 v Density 884.01 891.06 885.06 884.41 v LamVisc 0.00035847 0.00038825 0.00036285 0.00036008 v TurbVisc 0 0.0024259 2.2991e-05 3.4151e-05 v CourantNb 6.3755e-05 7.9131 0.32564 0.17912 v FourierNb 0.0045899 1.7111 0.056495 0.01792 v total_pressure 98551 1.0497e+05 1.0209e+05 1.0199e+05 v Csdyn2 0 0.004225 0.0017038 0.0022423 v maxT 0 0 0 v minT 0 0 0 v SpecHeat 1315.5 1325.4 1316.9 1316 v ThermalCond 78.002 79.412 78.213 78.082 ** Computed fields on boundary_faces --------------------------------- field minimum maximum set mean spatial mean - ---------------- -------------- -------------- -------------- -------------- v Boundary Density 884.01 891.06 885.23 884.52 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.027808 8.3234 0.38214 0.19704 INSTANT 0.527982580E+02 TIME STEP NUMBER 471600 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 32640 -0.465015630E+00 Smooth wall 5 250080 0.000000000E+00 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 23808 0.465015473E+00 Free inlet 14 0 0.000000000E+00 Convective inlet 16 0 0.000000000E+00 Free surface 15 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.00000E+00-0.00000E+00 Friction velocity uet : 0.36775E-02 0.20035E+00 Friction velocity uk : 0.36775E-02 0.20035E+00 Dimensionless distance yplus : 0.67594E-01 0.24599E+01 Friction thermal sca. tstar : 0.00000E+00 0.00000E+00 Rough dim-less th. sca. tplus : 0.43468E-03 0.15831E-01 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 0 Nb of faces within the viscous sub-layer : 250080 Total number of wall faces : 250080 ------------------------------------------------------------ ** INFORMATION ON CONVERGENCE -------------------------- ---------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual Drift Time residual ---------------------------------------------------------------------------- c Velocity 0.74073E+00 2 0.45465E-04 0.89907E-02 0.70033E+01 c Velocity[X] 0.57349E-02 c Velocity[Y] 0.15569E-02 c Velocity[Z] 0.16989E-02 c Pressure 0.45672E-04 17 0.34155E-04 0.13823E-01 0.54319E+01 c TempK 0.38580E+06 1 0.17554E-05 0.24419E+00 0.89608E-01 ---------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ----- -------------- -------------- ------------ ------------ a TempK ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.46711 1.882 0.99403 1.2977 v Velocity[Y] -0.7878 0.74389 -0.00059282 4.1103e-05 v Velocity[Z] -1.484 0.36751 -0.12268 -0.01957 v ǁVelocityǁ 0.00030254 1.8877 1.1052 1.3173 v Pressure -2761.7 3525.6 867.34 744.64 v TempK 523.15 553.15 548.67 551.45 v Density 884.01 891.06 885.06 884.41 v LamVisc 0.00035847 0.00038825 0.00036285 0.00036008 v TurbVisc 0 0.0023642 2.2958e-05 3.413e-05 v CourantNb 9.9093e-05 7.936 0.32561 0.17912 v FourierNb 0.00459 1.7109 0.056491 0.017919 v total_pressure 98540 1.0495e+05 1.0209e+05 1.02e+05 v Csdyn2 0 0.004225 0.0017021 0.0022406 v maxT 0 0 0 v minT 0 0 0 v SpecHeat 1315.5 1325.4 1316.9 1316 v ThermalCond 78.002 79.412 78.213 78.082 ** Computed fields on boundary_faces --------------------------------- field minimum maximum set mean spatial mean - ---------------- -------------- -------------- -------------- -------------- v Boundary Density 884.01 891.06 885.23 884.52 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.03114 8.3148 0.3821 0.19703 INSTANT 0.528082580E+02 TIME STEP NUMBER 471700 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 32640 -0.465015630E+00 Smooth wall 5 250080 0.000000000E+00 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 23808 0.465015983E+00 Free inlet 14 0 0.000000000E+00 Convective inlet 16 0 0.000000000E+00 Free surface 15 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.00000E+00-0.00000E+00 Friction velocity uet : 0.21143E-02 0.19828E+00 Friction velocity uk : 0.21143E-02 0.19828E+00 Dimensionless distance yplus : 0.44655E-01 0.23931E+01 Friction thermal sca. tstar : 0.00000E+00 0.00000E+00 Rough dim-less th. sca. tplus : 0.28529E-03 0.15432E-01 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 0 Nb of faces within the viscous sub-layer : 250080 Total number of wall faces : 250080 ------------------------------------------------------------ ** INFORMATION ON CONVERGENCE -------------------------- ---------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual Drift Time residual ---------------------------------------------------------------------------- c Velocity 0.74075E+00 2 0.47324E-04 0.94006E-02 0.71611E+01 c Velocity[X] 0.60859E-02 c Velocity[Y] 0.16143E-02 c Velocity[Z] 0.17003E-02 c Pressure 0.45608E-04 18 0.35062E-04 0.13809E-01 0.63452E+01 c TempK 0.38580E+06 1 0.15953E-05 0.22177E+00 0.85396E-01 ---------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ----- -------------- -------------- ------------ ------------ a TempK ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.47358 1.9058 0.99412 1.2977 v Velocity[Y] -0.79098 0.74387 -0.00058503 9.359e-05 v Velocity[Z] -1.4816 0.36216 -0.12262 -0.019566 v ǁVelocityǁ 0.00011947 1.9116 1.1052 1.3173 v Pressure -2790.8 3494.2 858.96 750.89 v TempK 523.15 553.15 548.67 551.44 v Density 884.01 891.06 885.06 884.41 v LamVisc 0.00035847 0.00038825 0.00036286 0.00036009 v TurbVisc 0 0.0031839 2.303e-05 3.4247e-05 v CourantNb 0.00013694 7.9449 0.32537 0.17909 v FourierNb 0.0045894 1.6882 0.056481 0.017926 v total_pressure 98512 1.0497e+05 1.0208e+05 1.02e+05 v Csdyn2 0 0.004225 0.0017015 0.0022333 v maxT 0 0 0 v minT 0 0 0 v SpecHeat 1315.5 1325.4 1316.9 1316 v ThermalCond 78.002 79.412 78.213 78.082 ** Computed fields on boundary_faces --------------------------------- field minimum maximum set mean spatial mean - ---------------- -------------- -------------- -------------- -------------- v Boundary Density 884.01 891.06 885.23 884.51 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.028043 8.3076 0.38185 0.19702 Options set or changed by "control_file": ------------------------- max_time_step 471708 (current: 471708) Finished reading "control_file". ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 32640 -0.465015630E+00 Smooth wall 5 250080 0.000000000E+00 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 23808 0.465015963E+00 Free inlet 14 0 0.000000000E+00 Convective inlet 16 0 0.000000000E+00 Free surface 15 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- Write final restart files checkpoint at iteration 471708, Physical time 0.52809E+02 ** Writing the main restart file ----------------------------- Start writing Wrote field names and types to checkpoint at iteration 471708: checkpoint/main End writing the options Wrote main variables to checkpoint: checkpoint/main End writing ** Writing the auxiliary restart file ---------------------------------- Start writing End writing the dimensions and options End writing the physical properties End writing the time step Wrote boundary condition coefficients to checkpoint: checkpoint/auxiliary End writing the source terms End writing Writing the LES inflow module restart file... ...completed SIGSEGV signal (forbidden memory area access) intercepted! Call stack: 1: 0x7f16a5b0606b (libsaturne-6.0.so) 2: 0x7f16a590da70 (libsaturne-6.0.so) 3: 0x7f16a5901725 (libsaturne-6.0.so) 4: 0x7f16a590afef (libsaturne-6.0.so) 5: 0x7f16a59db154 (libsaturne-6.0.so) 6: 0x7f16a59e0549 (libsaturne-6.0.so) 7: 0x7f16a59e10a1 (libsaturne-6.0.so) 8: 0x7f16a5928685 (libsaturne-6.0.so) 9: 0x7f16a70f38df (libcs_solver-6.0.so) 10: 0x7f16a70f3197 (libcs_solver-6.0.so) 11: 0x7f16a4f94840 <__libc_start_main+0xf0> (libc.so.6) 12: 0x401349 <_start+0x29> (cs_solver) End of stack