command: /usr/local/libexec/code_saturne/cs_solver --param RTEST00.XML --mpi *************************************************************** (R) Code_Saturne Version 4.0-beta Copyright (C) 1998-2014 EDF S.A., France build mar 02 dic 2014 00:28:11 CET MPI version 2.1 (Open MPI 1.6.5) 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: mié 03 dic 2014 15:27:28 CET System: Linux 3.13.0-40-generic Machine: orthanc Processor: model name : Intel(R) Core(TM) i7 CPU Q 820 @ 1.73GHz Memory: 7917 MB User: orthanc (Orthanc) Directory: /home/orthanc/Escritorio/40b/1412/00TESTS/CASE1/RESU/20141203-1527 MPI ranks: 6 (appnum attribute: 0) I/O read method: collective MPI-IO (explicit offsets) I/O write method: collective MPI-IO (explicit offsets) I/O rank step: 1 Reading metadata from file: "mesh_input" =============================================================== CALCULATION PREPARATION ======================= =========================================================== No error detected during the data verification cs_user_parameters.f90 and others). =========================================================== CALCULATION PARAMETERS SUMMARY ============================== ----------------------------------------------------------- ** DIMENSIONS ---------- --- Physics NVAR = 6 (Nb variables ) NSCAL = 0 (Nb scalars ) NSCAUS = 0 (Nb user scalars ) NSCAPP = 0 (Nb specific physics scalars ) NPROCE = 6 (Nb cell properties ) ----------------------------------------------------------- ** PHYSICAL PROPERTIES ------------------- GX = 0.00000E+00 (Gravity x component ) GY = 0.00000E+00 (Gravity y component ) GZ = 0.00000E+00 (Gravity z component ) ICORIO = 0 (Coriolis source terms ) -- Continuous phase: RO0 = 0.11786E+01 (Reference density ) VISCL0 = 0.18300E-04 (Ref. molecular dyn. visc. ) CP0 = 0.10172E+04 (Ref. specific heat ) ICP = 0 (> 0: variable CP (usphyv) ) P0 = 0.10132E+06 (Ref. total pressure ) PRED0 = 0.00000E+00 (Ref. reduced pressure ) T0 = 0.29315E+03 (Ref. temperature ) IROVAR = 0 (Density constant(0) or not(1) IVIVAR = 0 (Molec. visc cst.(0) or not(1) Initial reference point for pressure XYZP0 = 0.00000E+00 0.00000E+00 0.00000E+00 ----------------------------------------------------------- ** HOMOGENEOUS MIXTURE MODEL FOR CAVITATION ---------------------------------------- ICAVIT = -1 (-1: single phase flow ) ( 0: no vap./cond. model ) ( 1: Merkle's model ) ----------------------------------------------------------- ** THERMAL MODEL ------------- --- Continuous phase: - Commons ITHERM = 0 (0: no thermal model ) (1: temperature ) (2: enthalpy ) (3: total energy ) ITPSCL = 0 (0: none ) (1: temperature in Kelvin ) (2: temperature in Celsius ) ISCALT = -1 (Thermal scalar number ) ** TURBULENCE ---------- --- Continuous phase: - Commons ITURB = 21 (Turbulence model ) IDEUCH = 1 (0: one-scale model ) (1: two-scale model ) (2: invariant wall function ) IWALLT = 0 (Exch. coeff. correlation ) (0: not activated ) (1: activated ) YPLULI = 0.23810E+01 (Limit Y+ ) ILOGPO = 1 (0: power law (forbidden for k-epsilon) ) (1: one-scale log law ) IGRHOK = 0 (1: computed Grad(rho k) ) - Linear production k-epsilon (ITURB = 21) ALMAX = -0.99900E+03 (Characteristic length ) UREF = 0.10000E+01 (Characteristic velocity ) ICLKEP = 0 (k-epsilon clipping model ) IKECOU = 0 (k-epsilon coupling mode ) IGRAKE = 1 (Account for gravity ) RELAXV = 0.10000E+01 for k (Relaxation) RELAXV = 0.10000E+01 for epsilon (Relaxation) - Rotation/curvature correction IRCCOR = 0 (0: desactivated ) (1: activated ) --- Constants - Commons XKAPPA = 0.42000E+00 (Von Karman constant ) CSTLOG = 0.52000E+01 (U+=Log(y+)/kappa +CSTLOG ) APOW = 0.83000E+01 (U+=APOW (y+)**BPOW (W&W law)) BPOW = 0.14286E+00 (U+=APOW (y+)**BPOW (W&W law)) - Linear production k-epsilon (ITURB = 21) Ce1 = 0.14400E+01 (Cepsilon 1: production coef.) CE2 = 0.19200E+01 (Cepsilon 2: dissipat. coef.) SIGMAK = 0.10000E+01 (Prandtl relative to k ) SIGMAE = 0.13000E+01 (Prandtl relative to epsilon ) CMU = 0.90000E-01 (Cmu constant ) ----------------------------------------------------------- ** SECONDARY VISCOSITY ------------------- --- Continuous phase: IVISSE = 1 (1: accounted for ) ----------------------------------------------------------- ** TIME STEPPING ------------- UNSTEADY ALGORITHM --- Time step parameters IDTVAR = 0 (0 cst; 1,2 var (t, t-space ) IPTLRO = 0 (1: rho-related DT clipping ) COUMAX = 0.10000E+01 (Maximum target CFL ) FOUMAX = 0.10000E+02 (Maximum target Fourier ) VARRDT = 0.10000E+00 (For var. DT, max. increase ) DTMIN = 0.50000E-02 (Minimum time step ) DTMAX = 0.50000E+02 (Maximum time step ) DTREF = 0.50000E-01 (Reference time step ) With a non-constant time step (IDTVAR = 1 or 2), when the value of COUMAX or FOUMAX is negative or zero, the associated time step limitation (for CFL and Fourier respectively) is ignored. --- Frozen velocity field ICCVFG = 0 (1: frozen velocity field ) --- Per-variable properties ------------------------------------ Variable ISTAT CDTVAR ------------------------------------ Velocity 1 0.1000E+01 Pressure 0 0.1000E+01 k 1 0.1000E+01 epsilon 1 0.1000E+01 ---------------------------- ISTAT = 0 ou 1 (1 for unsteady ) CDTVAR > 0 (time step multiplier ) --- Order of base time stepping scheme ISCHTP = 1 (1: order 1; 2: order 2 ) ----------------------------------------------------------- ** CONVECTION - DIFFUSION ---------------------- --------------------------------------------------------------------- Variable ICONV IDIFF IDIFFT ISCHCV ISSTPC BLENCV THETAV --------------------------------------------------------------------- Velocity 1 1 1 1 0 0.10E+01 0.10E+01 Pressure 0 1 1 1 0 0.00E+00 0.10E+01 k 1 1 1 1 0 0.00E+00 0.10E+01 epsilon 1 1 1 1 0 0.00E+00 0.10E+01 ------------------------------------------------------------- ICONV = 0 ou 1 (1 for convection active ) IDIFF = 0 ou 1 (1 for total diffusion active) IDIFFT = 0 ou 1 (1 for turbulent diff. active) ISCHCV = 0 ou 1 (SOLU or CD ) ISSTPC = 0 ou 1 (1: no slope test ) BLENCV = [0.;1.] (1-upwind proportion ) THETAV = [0.;1.] (0.5 Crank-Nicolson/AB ) (theta for convection- ) (diffusion terms uses ) ((1-theta).old+theta.new ) ----------------------------------------------------------- ** STOKES ------ IDILAT = 1 (1 : without unsteady term in the continuity equation 2 : with unsteady term in the continuity equation) IPOROS = 0 (0 : without porous media 1 : with porous media) IPHYDR = 0 (1: account for explicit balance between pressure gradient, gravity source terms, and head losses ) ICALHY = 0 (1: compute hydrastatic pressure for Dirichlet conditions for pressure on outlet ) IPRCO = 1 (1: pressure-continuity ) IPUCOU = 0 (1: reinforced U-P coupling ) NTERUP = 1 (n: n sweeps on navsto for velocity/pressure coupling ) -- Continuous phase: IREVMC = 0 (Velocity reconstruction mode) RELAXV = 0.10000E+01 for pressure (relaxation) ARAK = 0.10000E+01 (Arakawa factor ) ISTMPF = 1 (time scheme for flow (0: explicit (THETFL = 0 ) (1: std scheme (Saturne 1.0 ) (2: 2nd-order (THETFL = 0.5 ) THETFL = -0.99900E+03 (theta for mass flow ) IROEXT = 0 (density extrapolation (0: explicit (1: n+thetro with thetro=1/2 (2: n+thetro with thetro=1 THETRO = 0.00000E+00 (theta for density ((1+theta).new-theta.old IVIEXT = 0 (total viscosity extrapolation (0: explicit (1: n+thetvi with thetro=1/2 (2: n+thetvi with thetro=1 THETVI = 0.00000E+00 (theta for total viscosity ((1+theta).new-theta.old ICPEXT = 0 (specific heat extrapolation (0: explicit (1: n+thetcp with thetro=1/2 (2: n+thetcp with thetro=1 THETCP = 0.00000E+00 (specific heat theta-scheme ((1+theta).new-theta.old THETSN = 0.00000E+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 ) ----------------------------------------------------------- ** GRADIENTS CALCULATION --------------------- IMRGRA = 3 (Reconstruction mode ) ANOMAX = 0.78540E+00 (Non-ortho angle: limit for ) (least squares ext. neighbors) ------------------------------------------------------------------- Variable NSWRGR NSWRSM EPSRGR EPSRSM EXTRAG ------------------------------------------------------------------- Velocity 100 1 0.1000E-04 0.1000E-06 0.0000E+00 Pressure 100 2 0.1000E-04 0.1000E-06 0.0000E+00 k 100 1 0.1000E-04 0.1000E-06 0.0000E+00 epsilon 100 1 0.1000E-04 0.1000E-06 0.0000E+00 ----------------------------------------------------------- ------------------------------------------- Variable IRCFLU IMLIGR CLIMGR ------------------------------------------- Velocity 1 1 0.1500E+01 Pressure 1 1 0.1500E+01 k 1 1 0.1500E+01 epsilon 1 1 0.1500E+01 ----------------------------------- NSWRGR = (nb sweep gradient reconstr. ) NSWRSM = (nb sweep rhs reconstrcution ) EPSRGR = (grad. reconstruction prec. ) EPSRSM = (rhs reconstruction prec. ) EXTRAG = [0.;1.] (gradients extrapolation ) IRCFLU = 0 ou 1 (flow reconstruction ) IMLIGR = < 0, 0 ou 1 (gradient limitation method ) CLIMGR = > 1 ou 1 (gradient limitation coeff. ) ----------------------------------------------------------- ** FACE INTERPOLATION ------------------ IMVISF = 0 (0 arithmetic ) ----------------------------------------------------------- ** BASE ITERATIVE SOLVERS ---------------------- ------------------------------------ Variable EPSILO IDIRCL ------------------------------------ Velocity 0.1000E-07 1 Pressure 0.1000E-07 1 k 0.1000E-07 1 epsilon 0.1000E-07 1 ------------------------------------ IRESOL = -1 (automatic solver choice ) IPOL*1000 + 0 (p conjuguate gradient ) 1 (Jacobi ) IPOL*1000 + 2 (bicgstab ) avec IPOL (preconditioning degree ) NITMAX = (max number of iterations ) EPSILO = (resolution precision ) IDIRCL = 0 ou 1 (shift diagonal if ISTAT=0 and no Dirichlet ) ----------------------------------------------------------- ** CALCULATION MANAGEMENT ---------------------- --- Restarted calculation ISUITE = 0 (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. INPDT0 = 0 (1: 0 time step calcuation ) NTMABS = 400 (Final time step required ) --- CPU time margin TMARUS = -0.10000E+01 (CPU time margin before stop ) ----------------------------------------------------------- ** INPUT-OUTPUT ------------ --- Restart file NTSUIT = 0 (Checkpoint frequency ) --- Post-processed variables Velocity Pressure k epsilon TurbVisc CourantNb FourierNb total_pressure -- -- --- Probe history files NTHIST = -1 (Output frequency ) FRHIST = -.10000E+01 (Output frequency (s) ) NCAPT = 0 (Number of probes ) NTHSAV = -1 (Checkpoint frequency ) Number Name Nb. probes (-1: all) 2 Velocity[X] -1 3 Velocity[Y] -1 4 Velocity[Z] -1 5 Pressure -1 6 k -1 7 epsilon -1 9 LamVisc -1 10 TurbVisc -1 11 CourantNb -1 12 FourierNb -1 13 total_pressure -1 -- -- -- --- Log files NTLIST = 20 (Output frequency ) Number Name IWARNI verbosity level (-999: not applicable) 2 Velocity 0 5 Pressure 0 6 k 0 7 epsilon 0 10 TurbVisc -999 11 CourantNb -999 12 FourierNb -999 13 total_pressure -999 -- -- -- --- Additional post-processing variables (ipstdv) ipstfo = 1 (Force exerted by the fluid on the boundary) ipstft = 1 (Thermal flux at boundary) ipsttb = 0 (Temperature at boundary) ipstnu = 0 (Dimensionless thermal flux at boundary) ----------------------------------------------------------- ** ALE METHOD (MOVING MESH) ----------- IALE = 0 (1: activated ) NALINF = 0 (Fluid initialization iterations) ----------------------------------------------------------- Postprocessing output writers: ------------------------------ -1: name: results directory: postprocessing format: EnSight Gold options: binary time dependency: fixed mesh output: every 10 time steps and at calculation end Reading file: mesh_input Finished reading: mesh_input No "partition_input/domain_number_6" file available; ---------------------------------------------------------- Partitioning by space-filling curve: Morton (in bounding box). Number of cells per domain (histogramm): [ 510 ; 511 ] = 6 Partitioning finished (0.0313 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 = 510 maximum value = 511 1 : [ 510 ; 511 ] = 6 ---------------------------------------------------------- Histogram of the number of standard + halo cells per rank: minimum value = 557 maximum value = 666 1 : [ 557 ; 578 [ = 1 2 : [ 578 ; 600 [ = 0 3 : [ 600 ; 622 [ = 1 4 : [ 622 ; 644 [ = 1 5 : [ 644 ; 666 ] = 3 ---------------------------------------------------------- Histogram of the number of ghost cells per rank: minimum value = 47 maximum value = 155 1 : [ 47 ; 68 [ = 1 2 : [ 68 ; 90 [ = 0 3 : [ 90 ; 111 [ = 1 4 : [ 111 ; 133 [ = 1 5 : [ 133 ; 155 ] = 3 Histogram of the number of ghost cells in the standard neighborhood per rank: minimum value = 28 maximum value = 94 1 : [ 28 ; 41 [ = 1 2 : [ 41 ; 54 [ = 0 3 : [ 54 ; 67 [ = 2 4 : [ 67 ; 80 [ = 1 5 : [ 80 ; 94 ] = 2 ---------------------------------------------------------- Histogram of the number of interior faces per rank: minimum value = 737 maximum value = 795 1 : [ 737 ; 748 [ = 1 2 : [ 748 ; 760 [ = 0 3 : [ 760 ; 771 [ = 0 4 : [ 771 ; 783 [ = 2 5 : [ 783 ; 795 ] = 3 ---------------------------------------------------------- Histogram of the number of boundary faces per rank: minimum value = 1045 maximum value = 1104 1 : [ 1045 ; 1056 [ = 1 2 : [ 1056 ; 1068 [ = 3 3 : [ 1068 ; 1080 [ = 1 4 : [ 1080 ; 1092 [ = 0 5 : [ 1092 ; 1104 ] = 1 ---------------------------------------------------------- Histogram of the number of interior faces per cell: minimum value = 2 maximum value = 3 1 : [ 2 ; 3 ] = 3064 ---------------------------------------------------------- Histogram of the number of neighboring domains per rank: minimum value = 1 maximum value = 3 1 : [ 1 ; 2 [ = 1 2 : [ 2 ; 3 ] = 5 ---------------------------------------------------------- Global definition of the number of elements (cells, vertices, faces...) Synchronizing cell families Renumbering mesh: renumbering for cells: pre-numbering: none cells adjacent to ghost cells last: no numbering: none renumbering for interior faces: cell adjacency pre-ordering: lowest id first faces adjacent to ghost cells last: no numbering: none renumbering for boundary faces: numbering: none ---------------------------------------------------------- Histogram of volume mesh matrix bandwidth per rank: minimum value = 510 maximum value = 591 1 : [ 510 ; 526 [ = 2 2 : [ 526 ; 542 [ = 0 3 : [ 542 ; 558 [ = 0 4 : [ 558 ; 574 [ = 2 5 : [ 574 ; 591 ] = 2 Histogram of volume mesh matrix profile/lines per rank: minimum value = 44 maximum value = 131 1 : [ 44 ; 61 [ = 2 2 : [ 61 ; 78 [ = 0 3 : [ 78 ; 96 [ = 1 4 : [ 96 ; 113 [ = 0 5 : [ 113 ; 131 ] = 3 Mesh coordinates: minimum and maximum X : 6.6613381e-16 3.2500000e+00 Y : -5.0000000e-01 5.0000000e-01 Z : 0.0000000e+00 5.0000000e-02 Mesh Number of cells: 3064 Number of interior faces: 4455 Number of boundary faces: 6410 Number of vertices: 3348 Groups: "7" cells: 3064 boundary faces: 6410 "BC_IN_1_extruded" boundary faces: 9 "BC_IN_2_extruded" boundary faces: 5 "BC_OUT_extruded" boundary faces: 17 --- Information on the volumes Minimum control volume = 6.0139123e-06 Maximum control volume = 3.0112107e-05 Total volume for the domain = 7.0937500e-02 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: 0 --> 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 % Computing geometric quantities (0.00344 s) Extended neighborhood reduced by non-orthogonality -------------------------------------------------- Size of complete cell-cell connectivity: 25968 Size of filtered cell-cell conectivity: 0 25968 connections removed, for a ratio of 0 % used ALMAX = 0.41433E+00 (Characteristic length ) ALMAX is the cubic root of the domain volume. ALMAX is the length used to initialize the turbulence. ----------------------------------------------------------- ** VARIABLES INITIALIZATION ------------------------ ----------------------------------------- Variable Min. value Max. value ----------------------------------------- Velocity 0.0000E+00 0.0000E+00 Velocity 0.0000E+00 0.0000E+00 Velocity 0.0000E+00 0.0000E+00 Pressure 0.0000E+00 0.0000E+00 k 0.6000E-03 0.6000E-03 epsilon 0.3192E-05 0.3192E-05 --------------------------------- dt 0.5000E-01 0.5000E-01 --------------------------------- ------------------------------------------------------------- ------------------------------------------------------------- =============================================================== MAIN CALCULATION ================ =============================================================== =============================================================== INSTANT 0.500000000E-01 TIME STEP NUMBER 1 ============================================================= ----------------------------------------- Property Min. value Max. value ----------------------------------------- density 0.1179E+01 0.1179E+01 molecular_viscos 0.1830E-04 0.1830E-04 turbulent_viscos 0.1196E-01 0.1196E-01 ----------------------------------------- ** INFORMATION ON BOUNDARY FACES TYPE ---------------------------------- ------------------------------------------------------------------------- Boundary type Code Nb faces ------------------------------------------------------------------------- Inlet 2 14 Smooth wall 5 6379 Rough wall 6 0 Symmetry 4 0 Free outlet 3 17 Free inlet 13 0 Free surface 14 0 Undefined 1 0 ------------------------------------------------------------------------- Boundary faces with free inlet/outlet detected Update of reference point for total pressure XYZP0 = 0.32500E+01 0.14706E-01 0.25000E-01 ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 0.000000000E+00 Smooth wall 5 6379 0.000000000E+00 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.000000000E+00 Free inlet 13 0 0.000000000E+00 Free surface 14 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 : 0.00000E+00 0.00000E+00 Friction velocity uk : 0.84825E-02 0.13229E-01 Dimensionless distance yplus : 0.19442E+01 0.21301E+02 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 0 Nb of faces within the viscous sub-layer : 1 Total number of wall faces : 6379 ------------------------------------------------------------ @ @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ @ @ @@ WARNING: MESH TOO REFINED AT THE WALL @ ======== @ The mesh seems to be too refined at the wall to use @ a high-Reynolds turbulence model. @ @ The last time step at which too small values for the @ dimensionless distance to the wall (yplus) have been @ observed is the time step 1 @ @ The minimum value for yplus must be greater than the @ limit value YPLULI = 0.23810E+01 @ @ Have a look at the distribution of yplus at the wall @ (with EnSight or ParaView for example) to conclude on @ the way the results quality might be affected. @ @ This warning is only printed at the first two @ occurences of the problem and at the last time step @ of the calculation. The vanishing of the message does @ not necessarily mean the vanishing of the problem. @ @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ @ TIME FOR THE TIME STEP 1: 0.12239E+00 =============================================================== INSTANT 0.100000000E+00 TIME STEP NUMBER 2 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 -0.241512957E-37 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060248E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- TIME FOR THE TIME STEP 2: 0.87111E-01 =============================================================== INSTANT 0.150000000E+00 TIME STEP NUMBER 3 ============================================================= TIME FOR THE TIME STEP 3: 0.75228E-01 =============================================================== INSTANT 0.200000000E+00 TIME STEP NUMBER 4 ============================================================= TIME FOR THE TIME STEP 4: 0.71236E-01 =============================================================== INSTANT 0.250000000E+00 TIME STEP NUMBER 5 ============================================================= TIME FOR THE TIME STEP 5: 0.65326E-01 =============================================================== INSTANT 0.300000000E+00 TIME STEP NUMBER 6 ============================================================= TIME FOR THE TIME STEP 6: 0.61157E-01 =============================================================== INSTANT 0.350000000E+00 TIME STEP NUMBER 7 ============================================================= TIME FOR THE TIME STEP 7: 0.64458E-01 =============================================================== INSTANT 0.400000000E+00 TIME STEP NUMBER 8 ============================================================= TIME FOR THE TIME STEP 8: 0.70873E-01 =============================================================== INSTANT 0.450000000E+00 TIME STEP NUMBER 9 ============================================================= TIME FOR THE TIME STEP 9: 0.68176E-01 =============================================================== INSTANT 0.500000000E+00 TIME STEP NUMBER 10 ============================================================= TIME FOR THE TIME STEP 10: 0.75360E-01 =============================================================== INSTANT 0.550000000E+00 TIME STEP NUMBER 11 ============================================================= TIME FOR THE TIME STEP 11: 0.68850E-01 =============================================================== INSTANT 0.600000000E+00 TIME STEP NUMBER 12 ============================================================= TIME FOR THE TIME STEP 12: 0.67699E-01 =============================================================== INSTANT 0.650000000E+00 TIME STEP NUMBER 13 ============================================================= TIME FOR THE TIME STEP 13: 0.61879E-01 =============================================================== INSTANT 0.700000000E+00 TIME STEP NUMBER 14 ============================================================= TIME FOR THE TIME STEP 14: 0.64270E-01 =============================================================== INSTANT 0.750000000E+00 TIME STEP NUMBER 15 ============================================================= TIME FOR THE TIME STEP 15: 0.62602E-01 =============================================================== INSTANT 0.800000000E+00 TIME STEP NUMBER 16 ============================================================= TIME FOR THE TIME STEP 16: 0.62687E-01 =============================================================== INSTANT 0.850000000E+00 TIME STEP NUMBER 17 ============================================================= TIME FOR THE TIME STEP 17: 0.61056E-01 =============================================================== INSTANT 0.900000000E+00 TIME STEP NUMBER 18 ============================================================= TIME FOR THE TIME STEP 18: 0.61700E-01 =============================================================== INSTANT 0.950000000E+00 TIME STEP NUMBER 19 ============================================================= TIME FOR THE TIME STEP 19: 0.71114E-01 =============================================================== INSTANT 0.100000000E+01 TIME STEP NUMBER 20 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 -0.592923063E-20 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060245E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.82815E+00 0.11617E+01 Friction velocity uet : 0.26828E-03 0.15413E+00 Friction velocity uk : 0.74813E-02 0.68465E-01 Dimensionless distance yplus : 0.36728E+01 0.11024E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 937 Nb of faces within the viscous sub-layer : 0 Total number of wall faces : 6379 ------------------------------------------------------------ ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.23605E-01 55 0.53019E-01 0.73750E-02 0.54279E+00 c Velocity[X] 0.60019E-02 c Velocity[Y] 0.13731E-02 c Velocity[Z] 0.14635E-34 c Pressure 0.60934E-03 376 0.90835E-03 0.86133E-01 0.92997E+00 c k 0.96171E-04 54 0.11343E-03 0.10916E-05 0.20314E+01 c epsilon 0.29163E-03 52 0.22740E-03 0.17166E-04 0.28605E+01 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -1.1513 1.9829 0.53779 0.55841 v Velocity[Y] -0.21408 1.5651 0.094387 0.090215 v Velocity[Z] -3.4663e-17 8.1324e-17 4.248e-19 3.8356e-19 v ǁVelocityǁ 0.025591 1.9859 0.63057 0.64132 v Pressure -2.0519 1.0463 0.083213 0.07773 v k 8.6231e-05 0.018074 0.0011771 0.0011844 v epsilon 0.00013404 0.099485 0.0023327 0.0022775 v TurbVisc 1.6135e-06 0.0017332 9.5641e-05 9.748e-05 v CourantNb 0.062659 6.5594 2.0219 1.988 v FourierNb 0.0075326 1.9078 0.058406 0.055475 v total_pressure 1.0132e+05 1.0133e+05 1.0133e+05 1.0133e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.076929 6.8178 2.0803 2.0435 TIME FOR THE TIME STEP 20: 0.75279E-01 =============================================================== INSTANT 0.105000000E+01 TIME STEP NUMBER 21 ============================================================= TIME FOR THE TIME STEP 21: 0.69046E-01 =============================================================== INSTANT 0.110000000E+01 TIME STEP NUMBER 22 ============================================================= ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.85870E+00 0.12046E+01 Friction velocity uet : 0.77990E-03 0.16107E+00 Friction velocity uk : 0.64142E-02 0.77358E-01 Dimensionless distance yplus : 0.21354E+01 0.12456E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 900 Nb of faces within the viscous sub-layer : 1 Total number of wall faces : 6379 ------------------------------------------------------------ @ @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ @ @ @@ WARNING: MESH TOO REFINED AT THE WALL @ ======== @ The mesh seems to be too refined at the wall to use @ a high-Reynolds turbulence model. @ @ The last time step at which too small values for the @ dimensionless distance to the wall (yplus) have been @ observed is the time step 22 @ @ The minimum value for yplus must be greater than the @ limit value YPLULI = 0.23810E+01 @ @ Have a look at the distribution of yplus at the wall @ (with EnSight or ParaView for example) to conclude on @ the way the results quality might be affected. @ @ This warning is only printed at the first two @ occurences of the problem and at the last time step @ of the calculation. The vanishing of the message does @ not necessarily mean the vanishing of the problem. @ @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ @ TIME FOR THE TIME STEP 22: 0.79274E-01 =============================================================== INSTANT 0.115000000E+01 TIME STEP NUMBER 23 ============================================================= TIME FOR THE TIME STEP 23: 0.70131E-01 =============================================================== INSTANT 0.120000000E+01 TIME STEP NUMBER 24 ============================================================= TIME FOR THE TIME STEP 24: 0.74298E-01 =============================================================== INSTANT 0.125000000E+01 TIME STEP NUMBER 25 ============================================================= TIME FOR THE TIME STEP 25: 0.72131E-01 =============================================================== INSTANT 0.130000000E+01 TIME STEP NUMBER 26 ============================================================= TIME FOR THE TIME STEP 26: 0.73248E-01 =============================================================== INSTANT 0.135000000E+01 TIME STEP NUMBER 27 ============================================================= TIME FOR THE TIME STEP 27: 0.71554E-01 =============================================================== INSTANT 0.140000000E+01 TIME STEP NUMBER 28 ============================================================= TIME FOR THE TIME STEP 28: 0.70242E-01 =============================================================== INSTANT 0.145000000E+01 TIME STEP NUMBER 29 ============================================================= TIME FOR THE TIME STEP 29: 0.71542E-01 =============================================================== INSTANT 0.150000000E+01 TIME STEP NUMBER 30 ============================================================= TIME FOR THE TIME STEP 30: 0.73230E-01 =============================================================== INSTANT 0.155000000E+01 TIME STEP NUMBER 31 ============================================================= TIME FOR THE TIME STEP 31: 0.69871E-01 =============================================================== INSTANT 0.160000000E+01 TIME STEP NUMBER 32 ============================================================= TIME FOR THE TIME STEP 32: 0.68570E-01 =============================================================== INSTANT 0.165000000E+01 TIME STEP NUMBER 33 ============================================================= TIME FOR THE TIME STEP 33: 0.65826E-01 =============================================================== INSTANT 0.170000000E+01 TIME STEP NUMBER 34 ============================================================= TIME FOR THE TIME STEP 34: 0.62425E-01 =============================================================== INSTANT 0.175000000E+01 TIME STEP NUMBER 35 ============================================================= TIME FOR THE TIME STEP 35: 0.69667E-01 =============================================================== INSTANT 0.180000000E+01 TIME STEP NUMBER 36 ============================================================= TIME FOR THE TIME STEP 36: 0.71171E-01 =============================================================== INSTANT 0.185000000E+01 TIME STEP NUMBER 37 ============================================================= TIME FOR THE TIME STEP 37: 0.69118E-01 =============================================================== INSTANT 0.190000000E+01 TIME STEP NUMBER 38 ============================================================= TIME FOR THE TIME STEP 38: 0.69655E-01 =============================================================== INSTANT 0.195000000E+01 TIME STEP NUMBER 39 ============================================================= TIME FOR THE TIME STEP 39: 0.69225E-01 =============================================================== INSTANT 0.200000000E+01 TIME STEP NUMBER 40 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 -0.457821308E-18 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060257E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.90562E+00 0.14094E+01 Friction velocity uet : 0.23347E-03 0.18587E+00 Friction velocity uk : 0.55642E-02 0.13095E+00 Dimensionless distance yplus : 0.26990E+01 0.21085E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 703 Nb of faces within the viscous sub-layer : 0 Total number of wall faces : 6379 ------------------------------------------------------------ ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.27053E-01 71 0.54019E-01 0.10862E-01 0.57982E+00 c Velocity[X] 0.68694E-02 c Velocity[Y] 0.39926E-02 c Velocity[Z] 0.23972E-34 c Pressure 0.58119E-03 406 0.61500E-03 0.67770E-01 0.70712E+00 c k 0.32925E-03 60 0.15686E-03 0.23898E-05 0.88685E+00 c epsilon 0.18110E-02 56 0.12603E-03 0.80252E-04 0.10791E+01 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -1.1678 2.3519 0.51517 0.55849 v Velocity[Y] -0.42723 1.5794 0.096629 0.090378 v Velocity[Z] -6.4055e-17 1.3992e-16 1.7519e-18 1.3717e-18 v ǁVelocityǁ 0.0043832 2.3603 0.67967 0.6983 v Pressure -2.5775 1.2918 -0.010106 -0.012525 v k 5.1169e-05 0.057262 0.0033847 0.0035246 v epsilon 5.7746e-05 0.33757 0.011665 0.01215 v TurbVisc 1.1693e-06 0.0017331 0.00015612 0.00016076 v CourantNb 0.0098579 8.3506 2.1945 2.1892 v FourierNb 0.0072625 1.9078 0.087528 0.08433 v total_pressure 1.0132e+05 1.0133e+05 1.0132e+05 1.0132e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.037858 8.4328 2.282 2.2736 TIME FOR THE TIME STEP 40: 0.80812E-01 =============================================================== INSTANT 0.205000000E+01 TIME STEP NUMBER 41 ============================================================= TIME FOR THE TIME STEP 41: 0.70523E-01 =============================================================== INSTANT 0.210000000E+01 TIME STEP NUMBER 42 ============================================================= TIME FOR THE TIME STEP 42: 0.68912E-01 =============================================================== INSTANT 0.215000000E+01 TIME STEP NUMBER 43 ============================================================= TIME FOR THE TIME STEP 43: 0.73693E-01 =============================================================== INSTANT 0.220000000E+01 TIME STEP NUMBER 44 ============================================================= TIME FOR THE TIME STEP 44: 0.68100E-01 =============================================================== INSTANT 0.225000000E+01 TIME STEP NUMBER 45 ============================================================= TIME FOR THE TIME STEP 45: 0.65157E-01 =============================================================== INSTANT 0.230000000E+01 TIME STEP NUMBER 46 ============================================================= TIME FOR THE TIME STEP 46: 0.74279E-01 =============================================================== INSTANT 0.235000000E+01 TIME STEP NUMBER 47 ============================================================= TIME FOR THE TIME STEP 47: 0.72980E-01 =============================================================== INSTANT 0.240000000E+01 TIME STEP NUMBER 48 ============================================================= TIME FOR THE TIME STEP 48: 0.73654E-01 =============================================================== INSTANT 0.245000000E+01 TIME STEP NUMBER 49 ============================================================= TIME FOR THE TIME STEP 49: 0.72109E-01 =============================================================== INSTANT 0.250000000E+01 TIME STEP NUMBER 50 ============================================================= TIME FOR THE TIME STEP 50: 0.78659E-01 =============================================================== INSTANT 0.255000000E+01 TIME STEP NUMBER 51 ============================================================= TIME FOR THE TIME STEP 51: 0.68501E-01 =============================================================== INSTANT 0.260000000E+01 TIME STEP NUMBER 52 ============================================================= TIME FOR THE TIME STEP 52: 0.69755E-01 =============================================================== INSTANT 0.265000000E+01 TIME STEP NUMBER 53 ============================================================= TIME FOR THE TIME STEP 53: 0.63312E-01 =============================================================== INSTANT 0.270000000E+01 TIME STEP NUMBER 54 ============================================================= TIME FOR THE TIME STEP 54: 0.63497E-01 =============================================================== INSTANT 0.275000000E+01 TIME STEP NUMBER 55 ============================================================= TIME FOR THE TIME STEP 55: 0.63050E-01 =============================================================== INSTANT 0.280000000E+01 TIME STEP NUMBER 56 ============================================================= TIME FOR THE TIME STEP 56: 0.71277E-01 =============================================================== INSTANT 0.285000000E+01 TIME STEP NUMBER 57 ============================================================= TIME FOR THE TIME STEP 57: 0.66552E-01 =============================================================== INSTANT 0.290000000E+01 TIME STEP NUMBER 58 ============================================================= TIME FOR THE TIME STEP 58: 0.74703E-01 =============================================================== INSTANT 0.295000000E+01 TIME STEP NUMBER 59 ============================================================= TIME FOR THE TIME STEP 59: 0.64334E-01 =============================================================== INSTANT 0.300000000E+01 TIME STEP NUMBER 60 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 0.237169225E-18 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060256E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.97460E+00 0.13293E+01 Friction velocity uet : 0.36443E-03 0.17722E+00 Friction velocity uk : 0.62668E-02 0.11964E+00 Dimensionless distance yplus : 0.31839E+01 0.19263E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 391 Nb of faces within the viscous sub-layer : 0 Total number of wall faces : 6379 ------------------------------------------------------------ ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.28409E-01 75 0.52227E-01 0.72506E-02 0.44716E+00 c Velocity[X] 0.44253E-02 c Velocity[Y] 0.28253E-02 c Velocity[Z] 0.32159E-34 c Pressure 0.63717E-03 350 0.56342E-03 0.80207E-01 0.38004E+00 c k 0.34183E-03 56 0.53749E-04 0.74491E-06 0.46498E+00 c epsilon 0.17717E-02 52 0.92598E-04 0.14569E-04 0.46067E+00 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -1.1107 2.2444 0.50734 0.55856 v Velocity[Y] -0.44867 1.5964 0.099111 0.09069 v Velocity[Z] -9.1208e-17 1.4363e-16 2.3578e-18 2.0657e-18 v ǁVelocityǁ 0.013832 2.2527 0.71644 0.7338 v Pressure -2.4619 1.2409 -0.0941 -0.094264 v k 4.5091e-05 0.047205 0.0048137 0.0049293 v epsilon 4.5158e-05 0.26122 0.015469 0.015812 v TurbVisc 9.4693e-07 0.0017331 0.00021451 0.00021879 v CourantNb 0.0092397 8.3671 2.3583 2.3442 v FourierNb 0.0071719 1.9078 0.11844 0.11225 v total_pressure 1.0132e+05 1.0133e+05 1.0132e+05 1.0132e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.060975 8.5614 2.4767 2.4565 TIME FOR THE TIME STEP 60: 0.78091E-01 =============================================================== INSTANT 0.305000000E+01 TIME STEP NUMBER 61 ============================================================= TIME FOR THE TIME STEP 61: 0.68859E-01 =============================================================== INSTANT 0.310000000E+01 TIME STEP NUMBER 62 ============================================================= TIME FOR THE TIME STEP 62: 0.70676E-01 =============================================================== INSTANT 0.315000000E+01 TIME STEP NUMBER 63 ============================================================= TIME FOR THE TIME STEP 63: 0.63765E-01 =============================================================== INSTANT 0.320000000E+01 TIME STEP NUMBER 64 ============================================================= TIME FOR THE TIME STEP 64: 0.66373E-01 =============================================================== INSTANT 0.325000000E+01 TIME STEP NUMBER 65 ============================================================= TIME FOR THE TIME STEP 65: 0.67478E-01 =============================================================== INSTANT 0.330000000E+01 TIME STEP NUMBER 66 ============================================================= TIME FOR THE TIME STEP 66: 0.67883E-01 =============================================================== INSTANT 0.335000000E+01 TIME STEP NUMBER 67 ============================================================= TIME FOR THE TIME STEP 67: 0.63683E-01 =============================================================== INSTANT 0.340000000E+01 TIME STEP NUMBER 68 ============================================================= TIME FOR THE TIME STEP 68: 0.71279E-01 =============================================================== INSTANT 0.345000000E+01 TIME STEP NUMBER 69 ============================================================= TIME FOR THE TIME STEP 69: 0.59666E-01 =============================================================== INSTANT 0.350000000E+01 TIME STEP NUMBER 70 ============================================================= TIME FOR THE TIME STEP 70: 0.72807E-01 =============================================================== INSTANT 0.355000000E+01 TIME STEP NUMBER 71 ============================================================= TIME FOR THE TIME STEP 71: 0.62225E-01 =============================================================== INSTANT 0.360000000E+01 TIME STEP NUMBER 72 ============================================================= TIME FOR THE TIME STEP 72: 0.61750E-01 =============================================================== INSTANT 0.365000000E+01 TIME STEP NUMBER 73 ============================================================= TIME FOR THE TIME STEP 73: 0.61904E-01 =============================================================== INSTANT 0.370000000E+01 TIME STEP NUMBER 74 ============================================================= TIME FOR THE TIME STEP 74: 0.65267E-01 =============================================================== INSTANT 0.375000000E+01 TIME STEP NUMBER 75 ============================================================= TIME FOR THE TIME STEP 75: 0.65060E-01 =============================================================== INSTANT 0.380000000E+01 TIME STEP NUMBER 76 ============================================================= TIME FOR THE TIME STEP 76: 0.63749E-01 =============================================================== INSTANT 0.385000000E+01 TIME STEP NUMBER 77 ============================================================= TIME FOR THE TIME STEP 77: 0.63892E-01 =============================================================== INSTANT 0.390000000E+01 TIME STEP NUMBER 78 ============================================================= TIME FOR THE TIME STEP 78: 0.63112E-01 =============================================================== INSTANT 0.395000000E+01 TIME STEP NUMBER 79 ============================================================= TIME FOR THE TIME STEP 79: 0.61720E-01 =============================================================== INSTANT 0.400000000E+01 TIME STEP NUMBER 80 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 -0.459091857E-18 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060253E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.63147E+00 0.12981E+01 Friction velocity uet : 0.62627E-03 0.17506E+00 Friction velocity uk : 0.47598E-02 0.11011E+00 Dimensionless distance yplus : 0.18876E+01 0.17729E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 72 Nb of faces within the viscous sub-layer : 1 Total number of wall faces : 6379 ------------------------------------------------------------ ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.29440E-01 72 0.50486E-01 0.56976E-02 0.38221E+00 c Velocity[X] 0.35605E-02 c Velocity[Y] 0.21371E-02 c Velocity[Z] 0.26907E-34 c Pressure 0.44547E-03 340 0.32449E-03 0.57166E-01 0.32934E+00 c k 0.33020E-03 54 0.51478E-04 0.31735E-06 0.30692E+00 c epsilon 0.15450E-02 50 0.83844E-04 0.58566E-05 0.32585E+00 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.99489 2.2067 0.50355 0.5587 v Velocity[Y] -0.43592 1.6095 0.094954 0.089512 v Velocity[Z] -6.2486e-17 1.2534e-16 2.8093e-18 2.6213e-18 v ǁVelocityǁ 0.0089009 2.2151 0.73449 0.75614 v Pressure -2.3586 1.2415 -0.13527 -0.13674 v k 9.1053e-05 0.04016 0.00559 0.005707 v epsilon 8.7618e-05 0.20378 0.016583 0.016846 v TurbVisc 1.9233e-06 0.0017331 0.00025702 0.00026254 v CourantNb 0.015992 7.812 2.4304 2.4335 v FourierNb 0.0086635 1.9078 0.13971 0.13256 v total_pressure 1.0132e+05 1.0133e+05 1.0132e+05 1.0132e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.032413 7.8927 2.5701 2.566 TIME FOR THE TIME STEP 80: 0.71640E-01 =============================================================== INSTANT 0.405000000E+01 TIME STEP NUMBER 81 ============================================================= TIME FOR THE TIME STEP 81: 0.64596E-01 =============================================================== INSTANT 0.410000000E+01 TIME STEP NUMBER 82 ============================================================= TIME FOR THE TIME STEP 82: 0.66873E-01 =============================================================== INSTANT 0.415000000E+01 TIME STEP NUMBER 83 ============================================================= TIME FOR THE TIME STEP 83: 0.63422E-01 =============================================================== INSTANT 0.420000000E+01 TIME STEP NUMBER 84 ============================================================= TIME FOR THE TIME STEP 84: 0.61940E-01 =============================================================== INSTANT 0.425000000E+01 TIME STEP NUMBER 85 ============================================================= TIME FOR THE TIME STEP 85: 0.61311E-01 =============================================================== INSTANT 0.430000000E+01 TIME STEP NUMBER 86 ============================================================= TIME FOR THE TIME STEP 86: 0.63657E-01 =============================================================== INSTANT 0.435000000E+01 TIME STEP NUMBER 87 ============================================================= TIME FOR THE TIME STEP 87: 0.61990E-01 =============================================================== INSTANT 0.440000000E+01 TIME STEP NUMBER 88 ============================================================= TIME FOR THE TIME STEP 88: 0.64931E-01 =============================================================== INSTANT 0.445000000E+01 TIME STEP NUMBER 89 ============================================================= TIME FOR THE TIME STEP 89: 0.68372E-01 =============================================================== INSTANT 0.450000000E+01 TIME STEP NUMBER 90 ============================================================= TIME FOR THE TIME STEP 90: 0.71288E-01 =============================================================== INSTANT 0.455000000E+01 TIME STEP NUMBER 91 ============================================================= TIME FOR THE TIME STEP 91: 0.69364E-01 =============================================================== INSTANT 0.460000000E+01 TIME STEP NUMBER 92 ============================================================= TIME FOR THE TIME STEP 92: 0.67319E-01 =============================================================== INSTANT 0.465000000E+01 TIME STEP NUMBER 93 ============================================================= TIME FOR THE TIME STEP 93: 0.66189E-01 =============================================================== INSTANT 0.470000000E+01 TIME STEP NUMBER 94 ============================================================= TIME FOR THE TIME STEP 94: 0.64276E-01 =============================================================== INSTANT 0.475000000E+01 TIME STEP NUMBER 95 ============================================================= TIME FOR THE TIME STEP 95: 0.66866E-01 =============================================================== INSTANT 0.480000000E+01 TIME STEP NUMBER 96 ============================================================= TIME FOR THE TIME STEP 96: 0.68401E-01 =============================================================== INSTANT 0.485000000E+01 TIME STEP NUMBER 97 ============================================================= TIME FOR THE TIME STEP 97: 0.70891E-01 =============================================================== INSTANT 0.490000000E+01 TIME STEP NUMBER 98 ============================================================= TIME FOR THE TIME STEP 98: 0.68694E-01 =============================================================== INSTANT 0.495000000E+01 TIME STEP NUMBER 99 ============================================================= TIME FOR THE TIME STEP 99: 0.69058E-01 =============================================================== INSTANT 0.500000000E+01 TIME STEP NUMBER 100 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 -0.370153398E-18 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060245E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.12294E-02 0.12984E+01 Friction velocity uet : 0.41793E-03 0.17440E+00 Friction velocity uk : 0.44166E-02 0.10644E+00 Dimensionless distance yplus : 0.21815E+01 0.17138E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 2 Nb of faces within the viscous sub-layer : 1 Total number of wall faces : 6379 ------------------------------------------------------------ Write intermediate restart files checkpoint at iteration 100, Physical time 0.50000E+01 ** Writing the main restart file ----------------------------- Start writing Wrote field names and types to checkpoint: 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 Time for restart files: 0.11795E-01 ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.30055E-01 70 0.44631E-01 0.39740E-02 0.31225E+00 c Velocity[X] 0.30030E-02 c Velocity[Y] 0.97101E-03 c Velocity[Z] 0.34503E-34 c Pressure 0.49530E-03 404 0.59511E-03 0.63815E-01 0.23146E+00 c k 0.32488E-03 54 0.35652E-04 0.15201E-06 0.21401E+00 c epsilon 0.14513E-02 51 0.99800E-04 0.30516E-05 0.24764E+00 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.91605 2.2099 0.50384 0.5588 v Velocity[Y] -0.4707 1.5956 0.094653 0.093482 v Velocity[Z] -1.1516e-16 1.4015e-16 2.8811e-18 2.8029e-18 v ǁVelocityǁ 0.010513 2.2187 0.7465 0.76941 v Pressure -2.3716 1.2491 -0.17512 -0.18025 v k 8.4753e-05 0.037653 0.005893 0.0060068 v epsilon 8.4498e-05 0.18434 0.017044 0.017295 v TurbVisc 8.7667e-06 0.0017331 0.00027185 0.00027709 v CourantNb 0.0054583 7.8349 2.4677 2.4759 v FourierNb 0.016148 1.9078 0.14725 0.13954 v total_pressure 1.0132e+05 1.0133e+05 1.0132e+05 1.0132e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.030223 7.916 2.6149 2.6155 TIME FOR THE TIME STEP 100: 0.88514E-01 =============================================================== INSTANT 0.505000000E+01 TIME STEP NUMBER 101 ============================================================= TIME FOR THE TIME STEP 101: 0.71270E-01 =============================================================== INSTANT 0.510000000E+01 TIME STEP NUMBER 102 ============================================================= TIME FOR THE TIME STEP 102: 0.66641E-01 =============================================================== INSTANT 0.515000000E+01 TIME STEP NUMBER 103 ============================================================= TIME FOR THE TIME STEP 103: 0.69327E-01 =============================================================== INSTANT 0.520000000E+01 TIME STEP NUMBER 104 ============================================================= TIME FOR THE TIME STEP 104: 0.68700E-01 =============================================================== INSTANT 0.525000000E+01 TIME STEP NUMBER 105 ============================================================= TIME FOR THE TIME STEP 105: 0.71797E-01 =============================================================== INSTANT 0.530000000E+01 TIME STEP NUMBER 106 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 106: 0.70509E-01 =============================================================== INSTANT 0.535000000E+01 TIME STEP NUMBER 107 ============================================================= Incoming flow detained for 2 outlet faces on 17 TIME FOR THE TIME STEP 107: 0.72915E-01 =============================================================== INSTANT 0.540000000E+01 TIME STEP NUMBER 108 ============================================================= Incoming flow detained for 2 outlet faces on 17 TIME FOR THE TIME STEP 108: 0.72519E-01 =============================================================== INSTANT 0.545000000E+01 TIME STEP NUMBER 109 ============================================================= Incoming flow detained for 2 outlet faces on 17 TIME FOR THE TIME STEP 109: 0.71965E-01 =============================================================== INSTANT 0.550000000E+01 TIME STEP NUMBER 110 ============================================================= Incoming flow detained for 3 outlet faces on 17 TIME FOR THE TIME STEP 110: 0.78316E-01 =============================================================== INSTANT 0.555000000E+01 TIME STEP NUMBER 111 ============================================================= Incoming flow detained for 3 outlet faces on 17 TIME FOR THE TIME STEP 111: 0.73911E-01 =============================================================== INSTANT 0.560000000E+01 TIME STEP NUMBER 112 ============================================================= Incoming flow detained for 3 outlet faces on 17 TIME FOR THE TIME STEP 112: 0.72093E-01 =============================================================== INSTANT 0.565000000E+01 TIME STEP NUMBER 113 ============================================================= Incoming flow detained for 3 outlet faces on 17 TIME FOR THE TIME STEP 113: 0.73756E-01 =============================================================== INSTANT 0.570000000E+01 TIME STEP NUMBER 114 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 114: 0.72242E-01 =============================================================== INSTANT 0.575000000E+01 TIME STEP NUMBER 115 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 115: 0.71818E-01 =============================================================== INSTANT 0.580000000E+01 TIME STEP NUMBER 116 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 116: 0.67997E-01 =============================================================== INSTANT 0.585000000E+01 TIME STEP NUMBER 117 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 117: 0.72276E-01 =============================================================== INSTANT 0.590000000E+01 TIME STEP NUMBER 118 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 118: 0.67115E-01 =============================================================== INSTANT 0.595000000E+01 TIME STEP NUMBER 119 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 119: 0.69780E-01 =============================================================== INSTANT 0.600000000E+01 TIME STEP NUMBER 120 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 0.256650983E-18 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060243E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.10533E-02 0.13241E+01 Friction velocity uet : 0.56965E-03 0.17736E+00 Friction velocity uk : 0.38130E-02 0.10218E+00 Dimensionless distance yplus : 0.21901E+01 0.16452E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 2 Nb of faces within the viscous sub-layer : 1 Total number of wall faces : 6379 ------------------------------------------------------------ Incoming flow detained for 5 outlet faces on 17 ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.30215E-01 71 0.45797E-01 0.22846E-02 0.23584E+00 c Velocity[X] 0.16326E-02 c Velocity[Y] 0.65199E-03 c Velocity[Z] 0.20902E-34 c Pressure 0.64059E-03 390 0.11100E-02 0.81636E-01 0.46887E+00 c k 0.31543E-03 55 0.41311E-04 0.15778E-06 0.22353E+00 c epsilon 0.13633E-02 52 0.82579E-04 0.35926E-05 0.28394E+00 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.88794 2.2291 0.50702 0.55864 v Velocity[Y] -0.46797 1.5832 0.11569 0.1171 v Velocity[Z] -6.3389e-17 1.3802e-16 2.8021e-18 2.6928e-18 v ǁVelocityǁ 0.0062207 2.2401 0.74312 0.76506 v Pressure -2.0717 1.661 0.20648 0.20112 v k 9.2624e-05 0.034637 0.0058316 0.0059605 v epsilon 7.2138e-05 0.1628 0.01661 0.016887 v TurbVisc 1.2825e-05 0.0017331 0.00027137 0.00027712 v CourantNb 0.00051723 9.1523 2.4541 2.4547 v FourierNb 0.014261 1.9078 0.14671 0.13936 v total_pressure 1.0132e+05 1.0133e+05 1.0133e+05 1.0133e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.018143 9.4672 2.6008 2.5941 TIME FOR THE TIME STEP 120: 0.76371E-01 =============================================================== INSTANT 0.605000000E+01 TIME STEP NUMBER 121 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 121: 0.68912E-01 =============================================================== INSTANT 0.610000000E+01 TIME STEP NUMBER 122 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 122: 0.65334E-01 =============================================================== INSTANT 0.615000000E+01 TIME STEP NUMBER 123 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 123: 0.65931E-01 =============================================================== INSTANT 0.620000000E+01 TIME STEP NUMBER 124 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 124: 0.64429E-01 =============================================================== INSTANT 0.625000000E+01 TIME STEP NUMBER 125 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 125: 0.61208E-01 =============================================================== INSTANT 0.630000000E+01 TIME STEP NUMBER 126 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 126: 0.60823E-01 =============================================================== INSTANT 0.635000000E+01 TIME STEP NUMBER 127 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 127: 0.59733E-01 =============================================================== INSTANT 0.640000000E+01 TIME STEP NUMBER 128 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 128: 0.61952E-01 =============================================================== INSTANT 0.645000000E+01 TIME STEP NUMBER 129 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 129: 0.65204E-01 =============================================================== INSTANT 0.650000000E+01 TIME STEP NUMBER 130 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 130: 0.68828E-01 =============================================================== INSTANT 0.655000000E+01 TIME STEP NUMBER 131 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 131: 0.60900E-01 =============================================================== INSTANT 0.660000000E+01 TIME STEP NUMBER 132 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 132: 0.68411E-01 =============================================================== INSTANT 0.665000000E+01 TIME STEP NUMBER 133 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 133: 0.62509E-01 =============================================================== INSTANT 0.670000000E+01 TIME STEP NUMBER 134 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 134: 0.65653E-01 =============================================================== INSTANT 0.675000000E+01 TIME STEP NUMBER 135 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 135: 0.63364E-01 =============================================================== INSTANT 0.680000000E+01 TIME STEP NUMBER 136 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 136: 0.64786E-01 =============================================================== INSTANT 0.685000000E+01 TIME STEP NUMBER 137 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 137: 0.63103E-01 =============================================================== INSTANT 0.690000000E+01 TIME STEP NUMBER 138 ============================================================= Incoming flow detained for 2 outlet faces on 17 TIME FOR THE TIME STEP 138: 0.60757E-01 =============================================================== INSTANT 0.695000000E+01 TIME STEP NUMBER 139 ============================================================= Incoming flow detained for 2 outlet faces on 17 TIME FOR THE TIME STEP 139: 0.64615E-01 =============================================================== INSTANT 0.700000000E+01 TIME STEP NUMBER 140 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 -0.205829006E-18 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060245E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.14003E-01 0.13214E+01 Friction velocity uet : 0.10918E-03 0.17691E+00 Friction velocity uk : 0.34140E-02 0.10080E+00 Dimensionless distance yplus : 0.19610E+01 0.16231E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 4 Nb of faces within the viscous sub-layer : 2 Total number of wall faces : 6379 ------------------------------------------------------------ Incoming flow detained for 4 outlet faces on 17 ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.30006E-01 75 0.52160E-01 0.22351E-02 0.23581E+00 c Velocity[X] 0.16798E-02 c Velocity[Y] 0.55533E-03 c Velocity[Z] 0.19264E-34 c Pressure 0.52057E-03 343 0.59600E-03 0.65884E-01 0.19891E+00 c k 0.31125E-03 55 0.50591E-04 0.14966E-06 0.22011E+00 c epsilon 0.13296E-02 51 0.22575E-03 0.33820E-05 0.28108E+00 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.91187 2.2337 0.50591 0.55873 v Velocity[Y] -0.50386 1.5984 0.11338 0.11431 v Velocity[Z] -6.4526e-17 1.2274e-16 2.7779e-18 2.6537e-18 v ǁVelocityǁ 0.00063794 2.2375 0.72568 0.7511 v Pressure -2.1193 1.6301 0.18705 0.18039 v k 8.4595e-05 0.033765 0.005763 0.0059095 v epsilon 6.2873e-05 0.15774 0.016408 0.016722 v TurbVisc 1.0719e-05 0.0017331 0.00026897 0.00027526 v CourantNb 0.0022111 9.0063 2.3853 2.4035 v FourierNb 0.013436 1.9078 0.14496 0.13819 v total_pressure 1.0132e+05 1.0133e+05 1.0133e+05 1.0133e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.015983 9.3566 2.5303 2.5417 TIME FOR THE TIME STEP 140: 0.75289E-01 =============================================================== INSTANT 0.705000000E+01 TIME STEP NUMBER 141 ============================================================= Incoming flow detained for 3 outlet faces on 17 TIME FOR THE TIME STEP 141: 0.69098E-01 =============================================================== INSTANT 0.710000000E+01 TIME STEP NUMBER 142 ============================================================= Incoming flow detained for 3 outlet faces on 17 TIME FOR THE TIME STEP 142: 0.77699E-01 =============================================================== INSTANT 0.715000000E+01 TIME STEP NUMBER 143 ============================================================= Incoming flow detained for 3 outlet faces on 17 TIME FOR THE TIME STEP 143: 0.63892E-01 =============================================================== INSTANT 0.720000000E+01 TIME STEP NUMBER 144 ============================================================= Incoming flow detained for 3 outlet faces on 17 TIME FOR THE TIME STEP 144: 0.64562E-01 =============================================================== INSTANT 0.725000000E+01 TIME STEP NUMBER 145 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 145: 0.64855E-01 =============================================================== INSTANT 0.730000000E+01 TIME STEP NUMBER 146 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 146: 0.62026E-01 =============================================================== INSTANT 0.735000000E+01 TIME STEP NUMBER 147 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 147: 0.64832E-01 =============================================================== INSTANT 0.740000000E+01 TIME STEP NUMBER 148 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 148: 0.63464E-01 =============================================================== INSTANT 0.745000000E+01 TIME STEP NUMBER 149 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 149: 0.66872E-01 =============================================================== INSTANT 0.750000000E+01 TIME STEP NUMBER 150 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 150: 0.67316E-01 =============================================================== INSTANT 0.755000000E+01 TIME STEP NUMBER 151 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 151: 0.69962E-01 =============================================================== INSTANT 0.760000000E+01 TIME STEP NUMBER 152 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 152: 0.61665E-01 =============================================================== INSTANT 0.765000000E+01 TIME STEP NUMBER 153 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 153: 0.66313E-01 =============================================================== INSTANT 0.770000000E+01 TIME STEP NUMBER 154 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 154: 0.59266E-01 =============================================================== INSTANT 0.775000000E+01 TIME STEP NUMBER 155 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 155: 0.65059E-01 =============================================================== INSTANT 0.780000000E+01 TIME STEP NUMBER 156 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 156: 0.64258E-01 =============================================================== INSTANT 0.785000000E+01 TIME STEP NUMBER 157 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 157: 0.63971E-01 =============================================================== INSTANT 0.790000000E+01 TIME STEP NUMBER 158 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 158: 0.67614E-01 =============================================================== INSTANT 0.795000000E+01 TIME STEP NUMBER 159 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 159: 0.67123E-01 =============================================================== INSTANT 0.800000000E+01 TIME STEP NUMBER 160 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 0.387094057E-18 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060246E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.14027E-01 0.13366E+01 Friction velocity uet : 0.17698E-04 0.17787E+00 Friction velocity uk : 0.24921E-02 0.98230E-01 Dimensionless distance yplus : 0.14314E+01 0.15816E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 16 Nb of faces within the viscous sub-layer : 2 Total number of wall faces : 6379 ------------------------------------------------------------ Incoming flow detained for 4 outlet faces on 17 ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.30011E-01 74 0.50361E-01 0.25198E-02 0.25055E+00 c Velocity[X] 0.18563E-02 c Velocity[Y] 0.66355E-03 c Velocity[Z] 0.21308E-34 c Pressure 0.53549E-03 338 0.29329E-03 0.67357E-01 0.19116E+00 c k 0.31403E-03 57 0.43315E-04 0.14021E-06 0.21136E+00 c epsilon 0.13268E-02 53 0.13003E-03 0.31538E-05 0.27191E+00 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.91112 2.2268 0.50267 0.55867 v Velocity[Y] -0.48201 1.5932 0.11312 0.11393 v Velocity[Z] -5.7612e-17 1.3407e-16 2.747e-18 2.6105e-18 v ǁVelocityǁ 0.00087775 2.2301 0.71713 0.7461 v Pressure -2.1518 1.6394 0.18192 0.17501 v k 5.4215e-05 0.032153 0.0057674 0.0059407 v epsilon 3.6009e-05 0.14508 0.016463 0.016873 v TurbVisc 8.7094e-06 0.0017331 0.00026803 0.00027502 v CourantNb 0.0035934 8.2548 2.3432 2.3792 v FourierNb 0.011625 1.9078 0.14388 0.13772 v total_pressure 1.0132e+05 1.0133e+05 1.0133e+05 1.0133e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.016487 8.6378 2.487 2.5169 TIME FOR THE TIME STEP 160: 0.69923E-01 =============================================================== INSTANT 0.805000000E+01 TIME STEP NUMBER 161 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 161: 0.60960E-01 =============================================================== INSTANT 0.810000000E+01 TIME STEP NUMBER 162 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 162: 0.61131E-01 =============================================================== INSTANT 0.815000000E+01 TIME STEP NUMBER 163 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 163: 0.59715E-01 =============================================================== INSTANT 0.820000000E+01 TIME STEP NUMBER 164 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 164: 0.56837E-01 =============================================================== INSTANT 0.825000000E+01 TIME STEP NUMBER 165 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 165: 0.59585E-01 =============================================================== INSTANT 0.830000000E+01 TIME STEP NUMBER 166 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 166: 0.60250E-01 =============================================================== INSTANT 0.835000000E+01 TIME STEP NUMBER 167 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 167: 0.64844E-01 =============================================================== INSTANT 0.840000000E+01 TIME STEP NUMBER 168 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 168: 0.57948E-01 =============================================================== INSTANT 0.845000000E+01 TIME STEP NUMBER 169 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 169: 0.59535E-01 =============================================================== INSTANT 0.850000000E+01 TIME STEP NUMBER 170 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 170: 0.64450E-01 =============================================================== INSTANT 0.855000000E+01 TIME STEP NUMBER 171 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 171: 0.60560E-01 =============================================================== INSTANT 0.860000000E+01 TIME STEP NUMBER 172 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 172: 0.60536E-01 =============================================================== INSTANT 0.865000000E+01 TIME STEP NUMBER 173 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 173: 0.61670E-01 =============================================================== INSTANT 0.870000000E+01 TIME STEP NUMBER 174 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 174: 0.60372E-01 =============================================================== INSTANT 0.875000000E+01 TIME STEP NUMBER 175 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 175: 0.62126E-01 =============================================================== INSTANT 0.880000000E+01 TIME STEP NUMBER 176 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 176: 0.59990E-01 =============================================================== INSTANT 0.885000000E+01 TIME STEP NUMBER 177 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 177: 0.60600E-01 =============================================================== INSTANT 0.890000000E+01 TIME STEP NUMBER 178 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 178: 0.61886E-01 =============================================================== INSTANT 0.895000000E+01 TIME STEP NUMBER 179 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 179: 0.63986E-01 =============================================================== INSTANT 0.900000000E+01 TIME STEP NUMBER 180 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 -0.152465931E-19 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060254E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.28227E-01 0.13468E+01 Friction velocity uet : 0.15809E-03 0.17914E+00 Friction velocity uk : 0.28598E-02 0.96011E-01 Dimensionless distance yplus : 0.13102E+01 0.15459E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 31 Nb of faces within the viscous sub-layer : 4 Total number of wall faces : 6379 ------------------------------------------------------------ Incoming flow detained for 4 outlet faces on 17 ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.29985E-01 74 0.45472E-01 0.24350E-02 0.24615E+00 c Velocity[X] 0.18141E-02 c Velocity[Y] 0.62091E-03 c Velocity[Z] 0.22769E-34 c Pressure 0.54080E-03 311 0.29423E-03 0.68199E-01 0.20889E+00 c k 0.31089E-03 57 0.37090E-04 0.13336E-06 0.20756E+00 c epsilon 0.12803E-02 54 0.71269E-04 0.21568E-05 0.23133E+00 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.89921 2.2659 0.50038 0.5587 v Velocity[Y] -0.50131 1.5995 0.11075 0.11169 v Velocity[Z] -1.2574e-16 1.4124e-16 2.5613e-18 2.4255e-18 v ǁVelocityǁ 0.0014124 2.2784 0.71353 0.74424 v Pressure -2.2747 1.5965 0.1292 0.12177 v k 5.8092e-05 0.030785 0.0057723 0.0059728 v epsilon 4.2082e-05 0.14081 0.016351 0.016828 v TurbVisc 7.6485e-06 0.0017331 0.00026804 0.000276 v CourantNb 0.00067416 8.1224 2.3246 2.3697 v FourierNb 0.010786 1.9078 0.14313 0.13773 v total_pressure 1.0132e+05 1.0133e+05 1.0133e+05 1.0133e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.011901 8.2063 2.4677 2.5074 TIME FOR THE TIME STEP 180: 0.66029E-01 =============================================================== INSTANT 0.905000000E+01 TIME STEP NUMBER 181 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 181: 0.61528E-01 =============================================================== INSTANT 0.910000000E+01 TIME STEP NUMBER 182 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 182: 0.61713E-01 =============================================================== INSTANT 0.915000000E+01 TIME STEP NUMBER 183 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 183: 0.60503E-01 =============================================================== INSTANT 0.920000000E+01 TIME STEP NUMBER 184 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 184: 0.64304E-01 =============================================================== INSTANT 0.925000000E+01 TIME STEP NUMBER 185 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 185: 0.62681E-01 =============================================================== INSTANT 0.930000000E+01 TIME STEP NUMBER 186 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 186: 0.60406E-01 =============================================================== INSTANT 0.935000000E+01 TIME STEP NUMBER 187 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 187: 0.63001E-01 =============================================================== INSTANT 0.940000000E+01 TIME STEP NUMBER 188 ============================================================= Incoming flow detained for 2 outlet faces on 17 TIME FOR THE TIME STEP 188: 0.60059E-01 =============================================================== INSTANT 0.945000000E+01 TIME STEP NUMBER 189 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 189: 0.59330E-01 =============================================================== INSTANT 0.950000000E+01 TIME STEP NUMBER 190 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 190: 0.71146E-01 =============================================================== INSTANT 0.955000000E+01 TIME STEP NUMBER 191 ============================================================= TIME FOR THE TIME STEP 191: 0.62467E-01 =============================================================== INSTANT 0.960000000E+01 TIME STEP NUMBER 192 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 192: 0.59541E-01 =============================================================== INSTANT 0.965000000E+01 TIME STEP NUMBER 193 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 193: 0.62767E-01 =============================================================== INSTANT 0.970000000E+01 TIME STEP NUMBER 194 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 194: 0.61446E-01 =============================================================== INSTANT 0.975000000E+01 TIME STEP NUMBER 195 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 195: 0.64523E-01 =============================================================== INSTANT 0.980000000E+01 TIME STEP NUMBER 196 ============================================================= TIME FOR THE TIME STEP 196: 0.64848E-01 =============================================================== INSTANT 0.985000000E+01 TIME STEP NUMBER 197 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 197: 0.62528E-01 =============================================================== INSTANT 0.990000000E+01 TIME STEP NUMBER 198 ============================================================= TIME FOR THE TIME STEP 198: 0.61167E-01 =============================================================== INSTANT 0.995000000E+01 TIME STEP NUMBER 199 ============================================================= TIME FOR THE TIME STEP 199: 0.65336E-01 =============================================================== INSTANT 0.100000000E+02 TIME STEP NUMBER 200 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 -0.210487687E-18 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060255E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.67632E-01 0.13496E+01 Friction velocity uet : 0.23063E-03 0.17975E+00 Friction velocity uk : 0.30245E-02 0.94700E-01 Dimensionless distance yplus : 0.14658E+01 0.15248E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 35 Nb of faces within the viscous sub-layer : 1 Total number of wall faces : 6379 ------------------------------------------------------------ Write intermediate restart files checkpoint at iteration 200, Physical time 0.10000E+02 ** Writing the main restart file ----------------------------- Start writing Wrote field names and types to checkpoint: 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 Time for restart files: 0.11138E-01 ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.30169E-01 75 0.50518E-01 0.25295E-02 0.24961E+00 c Velocity[X] 0.18985E-02 c Velocity[Y] 0.63106E-03 c Velocity[Z] 0.23869E-34 c Pressure 0.46772E-03 321 0.35893E-03 0.58246E-01 0.17306E+00 c k 0.30692E-03 57 0.38712E-04 0.13961E-06 0.21460E+00 c epsilon 0.12308E-02 54 0.84430E-04 0.26603E-05 0.26589E+00 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.95426 2.3026 0.50004 0.55868 v Velocity[Y] -0.53326 1.5949 0.10918 0.10977 v Velocity[Z] -5.892e-17 1.301e-16 2.7025e-18 2.5831e-18 v ǁVelocityǁ 0.0015272 2.3124 0.71598 0.74846 v Pressure -2.3604 1.5929 0.1007 0.091233 v k 4.0442e-05 0.030011 0.0057679 0.005987 v epsilon 2.8749e-05 0.14143 0.016158 0.016678 v TurbVisc 6.0977e-06 0.0017331 0.00026857 0.00027738 v CourantNb 0.016231 8.1864 2.3232 2.3772 v FourierNb 0.01002 1.9078 0.14262 0.1379 v total_pressure 1.0132e+05 1.0133e+05 1.0133e+05 1.0133e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.02911 8.2705 2.4658 2.5151 TIME FOR THE TIME STEP 200: 0.81743E-01 =============================================================== INSTANT 0.100500000E+02 TIME STEP NUMBER 201 ============================================================= TIME FOR THE TIME STEP 201: 0.63418E-01 =============================================================== INSTANT 0.101000000E+02 TIME STEP NUMBER 202 ============================================================= TIME FOR THE TIME STEP 202: 0.59541E-01 =============================================================== INSTANT 0.101500000E+02 TIME STEP NUMBER 203 ============================================================= TIME FOR THE TIME STEP 203: 0.65725E-01 =============================================================== INSTANT 0.102000000E+02 TIME STEP NUMBER 204 ============================================================= TIME FOR THE TIME STEP 204: 0.61219E-01 =============================================================== INSTANT 0.102500000E+02 TIME STEP NUMBER 205 ============================================================= TIME FOR THE TIME STEP 205: 0.62210E-01 =============================================================== INSTANT 0.103000000E+02 TIME STEP NUMBER 206 ============================================================= TIME FOR THE TIME STEP 206: 0.63903E-01 =============================================================== INSTANT 0.103500000E+02 TIME STEP NUMBER 207 ============================================================= TIME FOR THE TIME STEP 207: 0.63980E-01 =============================================================== INSTANT 0.104000000E+02 TIME STEP NUMBER 208 ============================================================= TIME FOR THE TIME STEP 208: 0.65327E-01 =============================================================== INSTANT 0.104500000E+02 TIME STEP NUMBER 209 ============================================================= TIME FOR THE TIME STEP 209: 0.62092E-01 =============================================================== INSTANT 0.105000000E+02 TIME STEP NUMBER 210 ============================================================= TIME FOR THE TIME STEP 210: 0.68974E-01 =============================================================== INSTANT 0.105500000E+02 TIME STEP NUMBER 211 ============================================================= TIME FOR THE TIME STEP 211: 0.64188E-01 =============================================================== INSTANT 0.106000000E+02 TIME STEP NUMBER 212 ============================================================= TIME FOR THE TIME STEP 212: 0.65397E-01 =============================================================== INSTANT 0.106500000E+02 TIME STEP NUMBER 213 ============================================================= TIME FOR THE TIME STEP 213: 0.58648E-01 =============================================================== INSTANT 0.107000000E+02 TIME STEP NUMBER 214 ============================================================= TIME FOR THE TIME STEP 214: 0.65096E-01 =============================================================== INSTANT 0.107500000E+02 TIME STEP NUMBER 215 ============================================================= TIME FOR THE TIME STEP 215: 0.63033E-01 =============================================================== INSTANT 0.108000000E+02 TIME STEP NUMBER 216 ============================================================= TIME FOR THE TIME STEP 216: 0.60479E-01 =============================================================== INSTANT 0.108500000E+02 TIME STEP NUMBER 217 ============================================================= TIME FOR THE TIME STEP 217: 0.64262E-01 =============================================================== INSTANT 0.109000000E+02 TIME STEP NUMBER 218 ============================================================= TIME FOR THE TIME STEP 218: 0.62752E-01 =============================================================== INSTANT 0.109500000E+02 TIME STEP NUMBER 219 ============================================================= TIME FOR THE TIME STEP 219: 0.66963E-01 =============================================================== INSTANT 0.110000000E+02 TIME STEP NUMBER 220 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 0.188041314E-18 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060245E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.12061E+00 0.13590E+01 Friction velocity uet : 0.11745E-03 0.18007E+00 Friction velocity uk : 0.30233E-02 0.93071E-01 Dimensionless distance yplus : 0.12475E+01 0.14986E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 45 Nb of faces within the viscous sub-layer : 5 Total number of wall faces : 6379 ------------------------------------------------------------ ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.30378E-01 73 0.53699E-01 0.34346E-02 0.28894E+00 c Velocity[X] 0.25485E-02 c Velocity[Y] 0.88613E-03 c Velocity[Z] 0.20723E-34 c Pressure 0.57109E-03 312 0.31911E-03 0.70148E-01 0.21564E+00 c k 0.30931E-03 57 0.36839E-04 0.19848E-06 0.25387E+00 c epsilon 0.12270E-02 54 0.50865E-04 0.38286E-05 0.31917E+00 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -0.99153 2.2825 0.49906 0.55866 v Velocity[Y] -0.53815 1.5935 0.10605 0.1051 v Velocity[Z] -7.4856e-17 1.3068e-16 2.4263e-18 2.3109e-18 v ǁVelocityǁ 0.00092871 2.2869 0.71875 0.75406 v Pressure -2.4842 1.5459 0.04065 0.028914 v k 3.8661e-05 0.028663 0.0058186 0.0060633 v epsilon 3.383e-05 0.1348 0.016263 0.016861 v TurbVisc 3.8526e-06 0.0017331 0.00027066 0.00028042 v CourantNb 0.00023203 8.2505 2.3177 2.3849 v FourierNb 0.0090954 1.9078 0.143 0.13889 v total_pressure 1.0132e+05 1.0133e+05 1.0133e+05 1.0133e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.012022 8.3353 2.4607 2.5238 TIME FOR THE TIME STEP 220: 0.67055E-01 =============================================================== INSTANT 0.110500000E+02 TIME STEP NUMBER 221 ============================================================= TIME FOR THE TIME STEP 221: 0.63710E-01 =============================================================== INSTANT 0.111000000E+02 TIME STEP NUMBER 222 ============================================================= TIME FOR THE TIME STEP 222: 0.59628E-01 =============================================================== INSTANT 0.111500000E+02 TIME STEP NUMBER 223 ============================================================= TIME FOR THE TIME STEP 223: 0.62598E-01 =============================================================== INSTANT 0.112000000E+02 TIME STEP NUMBER 224 ============================================================= TIME FOR THE TIME STEP 224: 0.60211E-01 =============================================================== INSTANT 0.112500000E+02 TIME STEP NUMBER 225 ============================================================= TIME FOR THE TIME STEP 225: 0.64814E-01 =============================================================== INSTANT 0.113000000E+02 TIME STEP NUMBER 226 ============================================================= TIME FOR THE TIME STEP 226: 0.62861E-01 =============================================================== INSTANT 0.113500000E+02 TIME STEP NUMBER 227 ============================================================= TIME FOR THE TIME STEP 227: 0.60442E-01 =============================================================== INSTANT 0.114000000E+02 TIME STEP NUMBER 228 ============================================================= TIME FOR THE TIME STEP 228: 0.65213E-01 =============================================================== INSTANT 0.114500000E+02 TIME STEP NUMBER 229 ============================================================= TIME FOR THE TIME STEP 229: 0.62279E-01 =============================================================== INSTANT 0.115000000E+02 TIME STEP NUMBER 230 ============================================================= TIME FOR THE TIME STEP 230: 0.67714E-01 =============================================================== INSTANT 0.115500000E+02 TIME STEP NUMBER 231 ============================================================= TIME FOR THE TIME STEP 231: 0.66684E-01 =============================================================== INSTANT 0.116000000E+02 TIME STEP NUMBER 232 ============================================================= TIME FOR THE TIME STEP 232: 0.64025E-01 =============================================================== INSTANT 0.116500000E+02 TIME STEP NUMBER 233 ============================================================= TIME FOR THE TIME STEP 233: 0.65117E-01 =============================================================== INSTANT 0.117000000E+02 TIME STEP NUMBER 234 ============================================================= TIME FOR THE TIME STEP 234: 0.65537E-01 =============================================================== INSTANT 0.117500000E+02 TIME STEP NUMBER 235 ============================================================= TIME FOR THE TIME STEP 235: 0.65895E-01 =============================================================== INSTANT 0.118000000E+02 TIME STEP NUMBER 236 ============================================================= TIME FOR THE TIME STEP 236: 0.65608E-01 =============================================================== INSTANT 0.118500000E+02 TIME STEP NUMBER 237 ============================================================= TIME FOR THE TIME STEP 237: 0.66161E-01 =============================================================== INSTANT 0.119000000E+02 TIME STEP NUMBER 238 ============================================================= TIME FOR THE TIME STEP 238: 0.65886E-01 =============================================================== INSTANT 0.119500000E+02 TIME STEP NUMBER 239 ============================================================= TIME FOR THE TIME STEP 239: 0.57406E-01 =============================================================== INSTANT 0.120000000E+02 TIME STEP NUMBER 240 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 -0.296461532E-18 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060245E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.52039E-01 0.13716E+01 Friction velocity uet : 0.18820E-03 0.18138E+00 Friction velocity uk : 0.36807E-02 0.91532E-01 Dimensionless distance yplus : 0.19011E+01 0.14738E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 21 Nb of faces within the viscous sub-layer : 2 Total number of wall faces : 6379 ------------------------------------------------------------ ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.30620E-01 77 0.52836E-01 0.31742E-02 0.27515E+00 c Velocity[X] 0.23849E-02 c Velocity[Y] 0.78922E-03 c Velocity[Z] 0.31146E-34 c Pressure 0.60253E-03 299 0.41972E-03 0.73165E-01 0.18247E+00 c k 0.30756E-03 58 0.36503E-04 0.27119E-06 0.29762E+00 c epsilon 0.11954E-02 55 0.62854E-04 0.46139E-05 0.35785E+00 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -1.0141 2.3191 0.49753 0.55863 v Velocity[Y] -0.52001 1.585 0.098603 0.095288 v Velocity[Z] -9.4371e-17 1.2873e-16 2.4109e-18 2.3556e-18 v ǁVelocityǁ 0.0042508 2.3294 0.72277 0.75943 v Pressure -2.5919 1.5379 0.0028133 -0.010096 v k 4.7716e-05 0.02779 0.0058476 0.0061024 v epsilon 2.8952e-05 0.1317 0.01622 0.016844 v TurbVisc 2.9361e-06 0.0017331 0.00027264 0.00028279 v CourantNb 0.005593 8.3509 2.3222 2.3968 v FourierNb 0.01043 1.9078 0.14375 0.13984 v total_pressure 1.0132e+05 1.0133e+05 1.0133e+05 1.0132e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.019302 8.4373 2.466 2.5366 TIME FOR THE TIME STEP 240: 0.66254E-01 =============================================================== INSTANT 0.120500000E+02 TIME STEP NUMBER 241 ============================================================= TIME FOR THE TIME STEP 241: 0.67118E-01 =============================================================== INSTANT 0.121000000E+02 TIME STEP NUMBER 242 ============================================================= TIME FOR THE TIME STEP 242: 0.63364E-01 =============================================================== INSTANT 0.121500000E+02 TIME STEP NUMBER 243 ============================================================= TIME FOR THE TIME STEP 243: 0.68359E-01 =============================================================== INSTANT 0.122000000E+02 TIME STEP NUMBER 244 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 244: 0.62270E-01 =============================================================== INSTANT 0.122500000E+02 TIME STEP NUMBER 245 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 245: 0.64245E-01 =============================================================== INSTANT 0.123000000E+02 TIME STEP NUMBER 246 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 246: 0.66927E-01 =============================================================== INSTANT 0.123500000E+02 TIME STEP NUMBER 247 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 247: 0.61258E-01 =============================================================== INSTANT 0.124000000E+02 TIME STEP NUMBER 248 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 248: 0.58754E-01 =============================================================== INSTANT 0.124500000E+02 TIME STEP NUMBER 249 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 249: 0.57991E-01 =============================================================== INSTANT 0.125000000E+02 TIME STEP NUMBER 250 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 250: 0.71773E-01 =============================================================== INSTANT 0.125500000E+02 TIME STEP NUMBER 251 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 251: 0.61879E-01 =============================================================== INSTANT 0.126000000E+02 TIME STEP NUMBER 252 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 252: 0.63392E-01 =============================================================== INSTANT 0.126500000E+02 TIME STEP NUMBER 253 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 253: 0.63698E-01 =============================================================== INSTANT 0.127000000E+02 TIME STEP NUMBER 254 ============================================================= Incoming flow detained for 1 outlet faces on 17 TIME FOR THE TIME STEP 254: 0.68734E-01 =============================================================== INSTANT 0.127500000E+02 TIME STEP NUMBER 255 ============================================================= Incoming flow detained for 2 outlet faces on 17 TIME FOR THE TIME STEP 255: 0.65374E-01 =============================================================== INSTANT 0.128000000E+02 TIME STEP NUMBER 256 ============================================================= Incoming flow detained for 2 outlet faces on 17 TIME FOR THE TIME STEP 256: 0.63726E-01 =============================================================== INSTANT 0.128500000E+02 TIME STEP NUMBER 257 ============================================================= Incoming flow detained for 2 outlet faces on 17 TIME FOR THE TIME STEP 257: 0.65499E-01 =============================================================== INSTANT 0.129000000E+02 TIME STEP NUMBER 258 ============================================================= Incoming flow detained for 3 outlet faces on 17 TIME FOR THE TIME STEP 258: 0.67493E-01 =============================================================== INSTANT 0.129500000E+02 TIME STEP NUMBER 259 ============================================================= Incoming flow detained for 3 outlet faces on 17 TIME FOR THE TIME STEP 259: 0.57718E-01 =============================================================== INSTANT 0.130000000E+02 TIME STEP NUMBER 260 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 -0.880914265E-19 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060244E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.33812E-01 0.14030E+01 Friction velocity uet : 0.23910E-03 0.18381E+00 Friction velocity uk : 0.23374E-02 0.89996E-01 Dimensionless distance yplus : 0.12965E+01 0.14491E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 20 Nb of faces within the viscous sub-layer : 3 Total number of wall faces : 6379 ------------------------------------------------------------ Incoming flow detained for 3 outlet faces on 17 ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.30841E-01 75 0.54593E-01 0.39122E-02 0.30340E+00 c Velocity[X] 0.29847E-02 c Velocity[Y] 0.92744E-03 c Velocity[Z] 0.37012E-34 c Pressure 0.66153E-03 356 0.11619E-02 0.78884E-01 0.26765E+00 c k 0.30377E-03 58 0.80446E-04 0.34470E-06 0.33916E+00 c epsilon 0.11651E-02 55 0.13839E-03 0.53584E-05 0.39559E+00 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -1.0537 2.3454 0.49925 0.55863 v Velocity[Y] -0.56905 1.5967 0.08491 0.079243 v Velocity[Z] -6.5606e-17 1.7592e-16 3.0872e-18 2.9538e-18 v ǁVelocityǁ 0.0040656 2.354 0.73046 0.76433 v Pressure -2.662 1.6092 0.023487 0.0098014 v k 3.4066e-05 0.0268 0.00582 0.0060663 v epsilon 2.5149e-05 0.1303 0.01608 0.016668 v TurbVisc 2.213e-06 0.0017331 0.00027243 0.00028251 v CourantNb 0.0079693 8.5941 2.339 2.4016 v FourierNb 0.010325 1.9078 0.14386 0.13982 v total_pressure 1.0132e+05 1.0133e+05 1.0133e+05 1.0133e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.018742 8.6826 2.4829 2.5414 TIME FOR THE TIME STEP 260: 0.72508E-01 =============================================================== INSTANT 0.130500000E+02 TIME STEP NUMBER 261 ============================================================= Incoming flow detained for 3 outlet faces on 17 TIME FOR THE TIME STEP 261: 0.59699E-01 =============================================================== INSTANT 0.131000000E+02 TIME STEP NUMBER 262 ============================================================= Incoming flow detained for 3 outlet faces on 17 TIME FOR THE TIME STEP 262: 0.63468E-01 =============================================================== INSTANT 0.131500000E+02 TIME STEP NUMBER 263 ============================================================= Incoming flow detained for 3 outlet faces on 17 TIME FOR THE TIME STEP 263: 0.66309E-01 =============================================================== INSTANT 0.132000000E+02 TIME STEP NUMBER 264 ============================================================= Incoming flow detained for 3 outlet faces on 17 TIME FOR THE TIME STEP 264: 0.63922E-01 =============================================================== INSTANT 0.132500000E+02 TIME STEP NUMBER 265 ============================================================= Incoming flow detained for 3 outlet faces on 17 TIME FOR THE TIME STEP 265: 0.67610E-01 =============================================================== INSTANT 0.133000000E+02 TIME STEP NUMBER 266 ============================================================= Incoming flow detained for 3 outlet faces on 17 TIME FOR THE TIME STEP 266: 0.64561E-01 =============================================================== INSTANT 0.133500000E+02 TIME STEP NUMBER 267 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 267: 0.68111E-01 =============================================================== INSTANT 0.134000000E+02 TIME STEP NUMBER 268 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 268: 0.64152E-01 =============================================================== INSTANT 0.134500000E+02 TIME STEP NUMBER 269 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 269: 0.69337E-01 =============================================================== INSTANT 0.135000000E+02 TIME STEP NUMBER 270 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 270: 0.65350E-01 =============================================================== INSTANT 0.135500000E+02 TIME STEP NUMBER 271 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 271: 0.61968E-01 =============================================================== INSTANT 0.136000000E+02 TIME STEP NUMBER 272 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 272: 0.64841E-01 =============================================================== INSTANT 0.136500000E+02 TIME STEP NUMBER 273 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 273: 0.67071E-01 =============================================================== INSTANT 0.137000000E+02 TIME STEP NUMBER 274 ============================================================= Incoming flow detained for 4 outlet faces on 17 TIME FOR THE TIME STEP 274: 0.65367E-01 =============================================================== INSTANT 0.137500000E+02 TIME STEP NUMBER 275 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 275: 0.58423E-01 =============================================================== INSTANT 0.138000000E+02 TIME STEP NUMBER 276 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 276: 0.60856E-01 =============================================================== INSTANT 0.138500000E+02 TIME STEP NUMBER 277 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 277: 0.62048E-01 =============================================================== INSTANT 0.139000000E+02 TIME STEP NUMBER 278 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 278: 0.60028E-01 =============================================================== INSTANT 0.139500000E+02 TIME STEP NUMBER 279 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 279: 0.58726E-01 =============================================================== INSTANT 0.140000000E+02 TIME STEP NUMBER 280 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 -0.211758237E-18 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060245E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.64457E-01 0.14278E+01 Friction velocity uet : 0.33910E-03 0.18647E+00 Friction velocity uk : 0.26195E-02 0.89196E-01 Dimensionless distance yplus : 0.15078E+01 0.14362E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 23 Nb of faces within the viscous sub-layer : 3 Total number of wall faces : 6379 ------------------------------------------------------------ Incoming flow detained for 5 outlet faces on 17 ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.30870E-01 74 0.64357E-01 0.25608E-02 0.24543E+00 c Velocity[X] 0.17493E-02 c Velocity[Y] 0.81153E-03 c Velocity[Z] 0.75607E-34 c Pressure 0.56132E-03 307 0.88698E-03 0.65465E-01 0.17116E+00 c k 0.30220E-03 58 0.36671E-04 0.29458E-06 0.31487E+00 c epsilon 0.11395E-02 55 0.50102E-04 0.41421E-05 0.35422E+00 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -1.0586 2.3731 0.50363 0.55862 v Velocity[Y] -0.6274 1.5884 0.075446 0.069053 v Velocity[Z] -5.0735e-17 1.3797e-16 3.728e-18 3.4676e-18 v ǁVelocityǁ 0.0030044 2.3901 0.72611 0.75868 v Pressure -2.7329 1.6737 0.059561 0.045528 v k 2.4659e-05 0.026304 0.005757 0.0060168 v epsilon 1.8335e-05 0.13071 0.015871 0.016493 v TurbVisc 2.0192e-06 0.0017331 0.00027063 0.00028129 v CourantNb 0.0081058 8.7334 2.3156 2.373 v FourierNb 0.0097623 1.9078 0.14267 0.139 v total_pressure 1.0132e+05 1.0133e+05 1.0133e+05 1.0133e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.021804 8.8226 2.4583 2.512 TIME FOR THE TIME STEP 280: 0.66217E-01 =============================================================== INSTANT 0.140500000E+02 TIME STEP NUMBER 281 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 281: 0.72098E-01 =============================================================== INSTANT 0.141000000E+02 TIME STEP NUMBER 282 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 282: 0.64423E-01 =============================================================== INSTANT 0.141500000E+02 TIME STEP NUMBER 283 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 283: 0.67374E-01 =============================================================== INSTANT 0.142000000E+02 TIME STEP NUMBER 284 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 284: 0.69126E-01 =============================================================== INSTANT 0.142500000E+02 TIME STEP NUMBER 285 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 285: 0.72735E-01 =============================================================== INSTANT 0.143000000E+02 TIME STEP NUMBER 286 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 286: 0.69744E-01 =============================================================== INSTANT 0.143500000E+02 TIME STEP NUMBER 287 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 287: 0.66904E-01 =============================================================== INSTANT 0.144000000E+02 TIME STEP NUMBER 288 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 288: 0.71980E-01 =============================================================== INSTANT 0.144500000E+02 TIME STEP NUMBER 289 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 289: 0.68956E-01 =============================================================== INSTANT 0.145000000E+02 TIME STEP NUMBER 290 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 290: 0.72694E-01 =============================================================== INSTANT 0.145500000E+02 TIME STEP NUMBER 291 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 291: 0.66901E-01 =============================================================== INSTANT 0.146000000E+02 TIME STEP NUMBER 292 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 292: 0.71876E-01 =============================================================== INSTANT 0.146500000E+02 TIME STEP NUMBER 293 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 293: 0.68281E-01 =============================================================== INSTANT 0.147000000E+02 TIME STEP NUMBER 294 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 294: 0.62622E-01 =============================================================== INSTANT 0.147500000E+02 TIME STEP NUMBER 295 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 295: 0.59734E-01 =============================================================== INSTANT 0.148000000E+02 TIME STEP NUMBER 296 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 296: 0.64545E-01 =============================================================== INSTANT 0.148500000E+02 TIME STEP NUMBER 297 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 297: 0.65100E-01 =============================================================== INSTANT 0.149000000E+02 TIME STEP NUMBER 298 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 298: 0.65260E-01 =============================================================== INSTANT 0.149500000E+02 TIME STEP NUMBER 299 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 299: 0.65316E-01 =============================================================== INSTANT 0.150000000E+02 TIME STEP NUMBER 300 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 -0.204134940E-18 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060243E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.14375E-01 0.14316E+01 Friction velocity uet : 0.29875E-03 0.18690E+00 Friction velocity uk : 0.30199E-02 0.90540E-01 Dimensionless distance yplus : 0.21518E+01 0.14578E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 16 Nb of faces within the viscous sub-layer : 4 Total number of wall faces : 6379 ------------------------------------------------------------ Incoming flow detained for 5 outlet faces on 17 Write intermediate restart files checkpoint at iteration 300, Physical time 0.15000E+02 ** Writing the main restart file ----------------------------- Start writing Wrote field names and types to checkpoint: 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 Time for restart files: 0.17627E-01 ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.30778E-01 76 0.61637E-01 0.19903E-02 0.21725E+00 c Velocity[X] 0.13014E-02 c Velocity[Y] 0.68894E-03 c Velocity[Z] 0.40183E-34 c Pressure 0.52269E-03 368 0.45141E-03 0.60748E-01 0.18273E+00 c k 0.30002E-03 58 0.50553E-04 0.23500E-06 0.28239E+00 c epsilon 0.11063E-02 55 0.42146E-04 0.33781E-05 0.32738E+00 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -1.0894 2.382 0.50682 0.55861 v Velocity[Y] -0.63619 1.5979 0.074309 0.068205 v Velocity[Z] -4.4632e-17 1.3022e-16 3.6387e-18 3.4164e-18 v ǁVelocityǁ 0.0019444 2.4069 0.71808 0.75044 v Pressure -2.7926 1.6784 0.062796 0.048484 v k 2.9556e-05 0.027405 0.0057455 0.0060058 v epsilon 1.529e-05 0.12783 0.01581 0.016418 v TurbVisc 3.7159e-06 0.0017331 0.00026979 0.00028061 v CourantNb 0.0012999 8.8054 2.2998 2.3578 v FourierNb 0.0099081 1.9078 0.14218 0.13859 v total_pressure 1.0132e+05 1.0133e+05 1.0133e+05 1.0133e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.034428 8.8947 2.442 2.4964 TIME FOR THE TIME STEP 300: 0.95133E-01 =============================================================== INSTANT 0.150500000E+02 TIME STEP NUMBER 301 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 301: 0.65477E-01 =============================================================== INSTANT 0.151000000E+02 TIME STEP NUMBER 302 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 302: 0.66021E-01 =============================================================== INSTANT 0.151500000E+02 TIME STEP NUMBER 303 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 303: 0.67607E-01 =============================================================== INSTANT 0.152000000E+02 TIME STEP NUMBER 304 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 304: 0.67278E-01 =============================================================== INSTANT 0.152500000E+02 TIME STEP NUMBER 305 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 305: 0.65967E-01 =============================================================== INSTANT 0.153000000E+02 TIME STEP NUMBER 306 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 306: 0.62386E-01 =============================================================== INSTANT 0.153500000E+02 TIME STEP NUMBER 307 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 307: 0.67782E-01 =============================================================== INSTANT 0.154000000E+02 TIME STEP NUMBER 308 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 308: 0.65095E-01 =============================================================== INSTANT 0.154500000E+02 TIME STEP NUMBER 309 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 309: 0.64174E-01 =============================================================== INSTANT 0.155000000E+02 TIME STEP NUMBER 310 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 310: 0.72230E-01 =============================================================== INSTANT 0.155500000E+02 TIME STEP NUMBER 311 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 311: 0.68246E-01 =============================================================== INSTANT 0.156000000E+02 TIME STEP NUMBER 312 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 312: 0.64681E-01 =============================================================== INSTANT 0.156500000E+02 TIME STEP NUMBER 313 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 313: 0.65105E-01 =============================================================== INSTANT 0.157000000E+02 TIME STEP NUMBER 314 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 314: 0.64372E-01 =============================================================== INSTANT 0.157500000E+02 TIME STEP NUMBER 315 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 315: 0.72401E-01 =============================================================== INSTANT 0.158000000E+02 TIME STEP NUMBER 316 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 316: 0.64501E-01 =============================================================== INSTANT 0.158500000E+02 TIME STEP NUMBER 317 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 317: 0.62052E-01 =============================================================== INSTANT 0.159000000E+02 TIME STEP NUMBER 318 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 318: 0.70182E-01 =============================================================== INSTANT 0.159500000E+02 TIME STEP NUMBER 319 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 319: 0.67724E-01 =============================================================== INSTANT 0.160000000E+02 TIME STEP NUMBER 320 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 -0.382858892E-18 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060255E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.16786E-01 0.14446E+01 Friction velocity uet : 0.16442E-03 0.18781E+00 Friction velocity uk : 0.20651E-02 0.91012E-01 Dimensionless distance yplus : 0.11168E+01 0.14654E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 8 Nb of faces within the viscous sub-layer : 5 Total number of wall faces : 6379 ------------------------------------------------------------ Incoming flow detained for 6 outlet faces on 17 ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.30669E-01 78 0.68006E-01 0.20382E-02 0.22067E+00 c Velocity[X] 0.14037E-02 c Velocity[Y] 0.63445E-03 c Velocity[Z] 0.45615E-34 c Pressure 0.59283E-03 337 0.62868E-03 0.68315E-01 0.14462E+00 c k 0.29625E-03 56 0.62288E-04 0.22705E-06 0.27993E+00 c epsilon 0.10719E-02 53 0.82010E-04 0.30470E-05 0.31961E+00 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -1.1249 2.4002 0.51112 0.5586 v Velocity[Y] -0.63799 1.6009 0.072872 0.066129 v Velocity[Z] -1.2327e-16 1.0375e-16 3.6488e-18 3.3708e-18 v ǁVelocityǁ 0.0014448 2.4302 0.71429 0.74494 v Pressure -2.8275 1.7223 0.10778 0.094059 v k 2.3551e-05 0.027702 0.0057536 0.0059876 v epsilon 1.2017e-05 0.13011 0.015788 0.016304 v TurbVisc 4.9747e-06 0.0017331 0.00026953 0.0002797 v CourantNb 0.0014828 8.8886 2.2949 2.3459 v FourierNb 0.008485 1.9078 0.1429 0.13857 v total_pressure 1.0132e+05 1.0133e+05 1.0133e+05 1.0133e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.015297 8.9788 2.4378 2.4844 TIME FOR THE TIME STEP 320: 0.77297E-01 =============================================================== INSTANT 0.160500000E+02 TIME STEP NUMBER 321 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 321: 0.69620E-01 =============================================================== INSTANT 0.161000000E+02 TIME STEP NUMBER 322 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 322: 0.68843E-01 =============================================================== INSTANT 0.161500000E+02 TIME STEP NUMBER 323 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 323: 0.65636E-01 =============================================================== INSTANT 0.162000000E+02 TIME STEP NUMBER 324 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 324: 0.66043E-01 =============================================================== INSTANT 0.162500000E+02 TIME STEP NUMBER 325 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 325: 0.73499E-01 =============================================================== INSTANT 0.163000000E+02 TIME STEP NUMBER 326 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 326: 0.68742E-01 =============================================================== INSTANT 0.163500000E+02 TIME STEP NUMBER 327 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 327: 0.71460E-01 =============================================================== INSTANT 0.164000000E+02 TIME STEP NUMBER 328 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 328: 0.70852E-01 =============================================================== INSTANT 0.164500000E+02 TIME STEP NUMBER 329 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 329: 0.70387E-01 =============================================================== INSTANT 0.165000000E+02 TIME STEP NUMBER 330 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 330: 0.75452E-01 =============================================================== INSTANT 0.165500000E+02 TIME STEP NUMBER 331 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 331: 0.70757E-01 =============================================================== INSTANT 0.166000000E+02 TIME STEP NUMBER 332 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 332: 0.70738E-01 =============================================================== INSTANT 0.166500000E+02 TIME STEP NUMBER 333 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 333: 0.67994E-01 =============================================================== INSTANT 0.167000000E+02 TIME STEP NUMBER 334 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 334: 0.68775E-01 =============================================================== INSTANT 0.167500000E+02 TIME STEP NUMBER 335 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 335: 0.69327E-01 =============================================================== INSTANT 0.168000000E+02 TIME STEP NUMBER 336 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 336: 0.70758E-01 =============================================================== INSTANT 0.168500000E+02 TIME STEP NUMBER 337 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 337: 0.70429E-01 =============================================================== INSTANT 0.169000000E+02 TIME STEP NUMBER 338 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 338: 0.69663E-01 =============================================================== INSTANT 0.169500000E+02 TIME STEP NUMBER 339 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 339: 0.71456E-01 =============================================================== INSTANT 0.170000000E+02 TIME STEP NUMBER 340 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 0.974087889E-19 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060257E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.66843E-01 0.14577E+01 Friction velocity uet : 0.73845E-04 0.18917E+00 Friction velocity uk : 0.21620E-02 0.90416E-01 Dimensionless distance yplus : 0.76092E+00 0.14558E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 17 Nb of faces within the viscous sub-layer : 4 Total number of wall faces : 6379 ------------------------------------------------------------ Incoming flow detained for 6 outlet faces on 17 ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.30676E-01 74 0.61548E-01 0.20589E-02 0.22183E+00 c Velocity[X] 0.14148E-02 c Velocity[Y] 0.64409E-03 c Velocity[Z] 0.43762E-34 c Pressure 0.62428E-03 307 0.39164E-03 0.71016E-01 0.18432E+00 c k 0.29356E-03 57 0.61061E-04 0.18358E-06 0.25279E+00 c epsilon 0.10524E-02 54 0.11506E-03 0.28290E-05 0.31235E+00 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -1.1464 2.4079 0.51585 0.55859 v Velocity[Y] -0.68195 1.5957 0.071601 0.06412 v Velocity[Z] -1.6518e-16 1.0382e-16 3.278e-18 3.123e-18 v ǁVelocityǁ 0.0013683 2.4417 0.7168 0.74404 v Pressure -2.8268 1.8085 0.1798 0.1663 v k 2.3416e-05 0.027495 0.0058103 0.0059906 v epsilon 1.0057e-05 0.12839 0.015986 0.016302 v TurbVisc 4.5373e-06 0.0017331 0.00027056 0.00027946 v CourantNb 0.0015438 9.5221 2.3113 2.3464 v FourierNb 0.0085209 1.9078 0.1445 0.13905 v total_pressure 1.0132e+05 1.0133e+05 1.0133e+05 1.0133e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.015315 9.8732 2.4558 2.4854 TIME FOR THE TIME STEP 340: 0.73927E-01 =============================================================== INSTANT 0.170500000E+02 TIME STEP NUMBER 341 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 341: 0.61355E-01 =============================================================== INSTANT 0.171000000E+02 TIME STEP NUMBER 342 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 342: 0.66972E-01 =============================================================== INSTANT 0.171500000E+02 TIME STEP NUMBER 343 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 343: 0.62112E-01 =============================================================== INSTANT 0.172000000E+02 TIME STEP NUMBER 344 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 344: 0.66532E-01 =============================================================== INSTANT 0.172500000E+02 TIME STEP NUMBER 345 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 345: 0.65452E-01 =============================================================== INSTANT 0.173000000E+02 TIME STEP NUMBER 346 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 346: 0.65799E-01 =============================================================== INSTANT 0.173500000E+02 TIME STEP NUMBER 347 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 347: 0.64795E-01 =============================================================== INSTANT 0.174000000E+02 TIME STEP NUMBER 348 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 348: 0.69776E-01 =============================================================== INSTANT 0.174500000E+02 TIME STEP NUMBER 349 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 349: 0.66974E-01 =============================================================== INSTANT 0.175000000E+02 TIME STEP NUMBER 350 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 350: 0.75565E-01 =============================================================== INSTANT 0.175500000E+02 TIME STEP NUMBER 351 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 351: 0.64833E-01 =============================================================== INSTANT 0.176000000E+02 TIME STEP NUMBER 352 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 352: 0.69602E-01 =============================================================== INSTANT 0.176500000E+02 TIME STEP NUMBER 353 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 353: 0.69249E-01 =============================================================== INSTANT 0.177000000E+02 TIME STEP NUMBER 354 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 354: 0.66373E-01 =============================================================== INSTANT 0.177500000E+02 TIME STEP NUMBER 355 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 355: 0.69119E-01 =============================================================== INSTANT 0.178000000E+02 TIME STEP NUMBER 356 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 356: 0.70591E-01 =============================================================== INSTANT 0.178500000E+02 TIME STEP NUMBER 357 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 357: 0.68072E-01 =============================================================== INSTANT 0.179000000E+02 TIME STEP NUMBER 358 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 358: 0.65856E-01 =============================================================== INSTANT 0.179500000E+02 TIME STEP NUMBER 359 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 359: 0.67897E-01 =============================================================== INSTANT 0.180000000E+02 TIME STEP NUMBER 360 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 -0.149077799E-18 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060255E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.32923E-02 0.14594E+01 Friction velocity uet : 0.13753E-03 0.18944E+00 Friction velocity uk : 0.20131E-02 0.88517E-01 Dimensionless distance yplus : 0.11166E+01 0.14253E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 10 Nb of faces within the viscous sub-layer : 7 Total number of wall faces : 6379 ------------------------------------------------------------ Incoming flow detained for 6 outlet faces on 17 ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.30714E-01 73 0.68367E-01 0.19056E-02 0.21287E+00 c Velocity[X] 0.12548E-02 c Velocity[Y] 0.65075E-03 c Velocity[Z] 0.49376E-34 c Pressure 0.60126E-03 341 0.40486E-03 0.67785E-01 0.12549E+00 c k 0.29364E-03 57 0.32964E-04 0.12407E-06 0.20665E+00 c epsilon 0.10339E-02 54 0.64458E-04 0.18161E-05 0.25286E+00 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -1.1497 2.4299 0.51993 0.55863 v Velocity[Y] -0.69852 1.5949 0.071855 0.064329 v Velocity[Z] -9.2944e-17 9.1793e-17 2.8098e-18 2.8454e-18 v ǁVelocityǁ 0.0023682 2.4638 0.71957 0.74348 v Pressure -2.8776 1.8435 0.19746 0.18404 v k 2.6016e-05 0.025976 0.0059157 0.0060587 v epsilon 1.3935e-05 0.11944 0.016239 0.016445 v TurbVisc 5.1969e-06 0.0017331 0.0002738 0.00028139 v CourantNb 8.5558e-06 10.542 2.334 2.3546 v FourierNb 0.008816 1.9078 0.14747 0.14079 v total_pressure 1.0132e+05 1.0133e+05 1.0133e+05 1.0133e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.0088249 10.863 2.4815 2.4954 TIME FOR THE TIME STEP 360: 0.75373E-01 =============================================================== INSTANT 0.180500000E+02 TIME STEP NUMBER 361 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 361: 0.68933E-01 =============================================================== INSTANT 0.181000000E+02 TIME STEP NUMBER 362 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 362: 0.66705E-01 =============================================================== INSTANT 0.181500000E+02 TIME STEP NUMBER 363 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 363: 0.70706E-01 =============================================================== INSTANT 0.182000000E+02 TIME STEP NUMBER 364 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 364: 0.63879E-01 =============================================================== INSTANT 0.182500000E+02 TIME STEP NUMBER 365 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 365: 0.67644E-01 =============================================================== INSTANT 0.183000000E+02 TIME STEP NUMBER 366 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 366: 0.62227E-01 =============================================================== INSTANT 0.183500000E+02 TIME STEP NUMBER 367 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 367: 0.64911E-01 =============================================================== INSTANT 0.184000000E+02 TIME STEP NUMBER 368 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 368: 0.64123E-01 =============================================================== INSTANT 0.184500000E+02 TIME STEP NUMBER 369 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 369: 0.61958E-01 =============================================================== INSTANT 0.185000000E+02 TIME STEP NUMBER 370 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 370: 0.74122E-01 =============================================================== INSTANT 0.185500000E+02 TIME STEP NUMBER 371 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 371: 0.63795E-01 =============================================================== INSTANT 0.186000000E+02 TIME STEP NUMBER 372 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 372: 0.68307E-01 =============================================================== INSTANT 0.186500000E+02 TIME STEP NUMBER 373 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 373: 0.68385E-01 =============================================================== INSTANT 0.187000000E+02 TIME STEP NUMBER 374 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 374: 0.68341E-01 =============================================================== INSTANT 0.187500000E+02 TIME STEP NUMBER 375 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 375: 0.66938E-01 =============================================================== INSTANT 0.188000000E+02 TIME STEP NUMBER 376 ============================================================= Incoming flow detained for 5 outlet faces on 17 TIME FOR THE TIME STEP 376: 0.68235E-01 =============================================================== INSTANT 0.188500000E+02 TIME STEP NUMBER 377 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 377: 0.64714E-01 =============================================================== INSTANT 0.189000000E+02 TIME STEP NUMBER 378 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 378: 0.60447E-01 =============================================================== INSTANT 0.189500000E+02 TIME STEP NUMBER 379 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 379: 0.66027E-01 =============================================================== INSTANT 0.190000000E+02 TIME STEP NUMBER 380 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 -0.125360876E-18 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060244E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.24034E-03 0.14658E+01 Friction velocity uet : 0.12881E-03 0.18997E+00 Friction velocity uk : 0.25879E-02 0.88834E-01 Dimensionless distance yplus : 0.14354E+01 0.14303E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 6 Nb of faces within the viscous sub-layer : 5 Total number of wall faces : 6379 ------------------------------------------------------------ Incoming flow detained for 6 outlet faces on 17 ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.30738E-01 75 0.65599E-01 0.16760E-02 0.19906E+00 c Velocity[X] 0.11236E-02 c Velocity[Y] 0.55242E-03 c Velocity[Z] 0.45014E-34 c Pressure 0.57852E-03 356 0.36308E-03 0.64679E-01 0.11803E+00 c k 0.29179E-03 57 0.42198E-04 0.97626E-07 0.18358E+00 c epsilon 0.10186E-02 54 0.66922E-04 0.18238E-05 0.25580E+00 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -1.1519 2.4337 0.52578 0.5587 v Velocity[Y] -0.73644 1.5999 0.072177 0.06543 v Velocity[Z] -9.1405e-17 8.5162e-17 2.6762e-18 2.7056e-18 v ǁVelocityǁ 0.0025914 2.4688 0.72715 0.74645 v Pressure -2.9197 1.8509 0.19184 0.17796 v k 5.1804e-05 0.026245 0.0059997 0.006109 v epsilon 3.8173e-05 0.12118 0.016502 0.016567 v TurbVisc 7.141e-06 0.0017331 0.00027582 0.0002826 v CourantNb 2.3985e-05 10.911 2.377 2.3771 v FourierNb 0.010312 1.9078 0.14919 0.14177 v total_pressure 1.0132e+05 1.0133e+05 1.0133e+05 1.0133e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.01913 11.203 2.5262 2.5188 TIME FOR THE TIME STEP 380: 0.78786E-01 =============================================================== INSTANT 0.190500000E+02 TIME STEP NUMBER 381 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 381: 0.68225E-01 =============================================================== INSTANT 0.191000000E+02 TIME STEP NUMBER 382 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 382: 0.65139E-01 =============================================================== INSTANT 0.191500000E+02 TIME STEP NUMBER 383 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 383: 0.64355E-01 =============================================================== INSTANT 0.192000000E+02 TIME STEP NUMBER 384 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 384: 0.67899E-01 =============================================================== INSTANT 0.192500000E+02 TIME STEP NUMBER 385 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 385: 0.67659E-01 =============================================================== INSTANT 0.193000000E+02 TIME STEP NUMBER 386 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 386: 0.66544E-01 =============================================================== INSTANT 0.193500000E+02 TIME STEP NUMBER 387 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 387: 0.68092E-01 =============================================================== INSTANT 0.194000000E+02 TIME STEP NUMBER 388 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 388: 0.69892E-01 =============================================================== INSTANT 0.194500000E+02 TIME STEP NUMBER 389 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 389: 0.67976E-01 =============================================================== INSTANT 0.195000000E+02 TIME STEP NUMBER 390 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 390: 0.71979E-01 =============================================================== INSTANT 0.195500000E+02 TIME STEP NUMBER 391 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 391: 0.68428E-01 =============================================================== INSTANT 0.196000000E+02 TIME STEP NUMBER 392 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 392: 0.61647E-01 =============================================================== INSTANT 0.196500000E+02 TIME STEP NUMBER 393 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 393: 0.60188E-01 =============================================================== INSTANT 0.197000000E+02 TIME STEP NUMBER 394 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 394: 0.66060E-01 =============================================================== INSTANT 0.197500000E+02 TIME STEP NUMBER 395 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 395: 0.62448E-01 =============================================================== INSTANT 0.198000000E+02 TIME STEP NUMBER 396 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 396: 0.64744E-01 =============================================================== INSTANT 0.198500000E+02 TIME STEP NUMBER 397 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 397: 0.58727E-01 =============================================================== INSTANT 0.199000000E+02 TIME STEP NUMBER 398 ============================================================= Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 398: 0.67121E-01 =============================================================== INSTANT 0.199500000E+02 TIME STEP NUMBER 399 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 -0.114772964E-18 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060257E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.81896E-02 0.14801E+01 Friction velocity uet : 0.15100E-03 0.19166E+00 Friction velocity uk : 0.37671E-02 0.88768E-01 Dimensionless distance yplus : 0.20117E+01 0.14293E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 8 Nb of faces within the viscous sub-layer : 1 Total number of wall faces : 6379 ------------------------------------------------------------ @ @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ @ @ @@ WARNING: MESH TOO REFINED AT THE WALL @ ======== @ The mesh seems to be too refined at the wall to use @ a high-Reynolds turbulence model. @ @ The last time step at which too small values for the @ dimensionless distance to the wall (yplus) have been @ observed is the time step 399 @ @ The minimum value for yplus must be greater than the @ limit value YPLULI = 0.23810E+01 @ @ Have a look at the distribution of yplus at the wall @ (with EnSight or ParaView for example) to conclude on @ the way the results quality might be affected. @ @ This warning is only printed at the first two @ occurences of the problem and at the last time step @ of the calculation. The vanishing of the message does @ not necessarily mean the vanishing of the problem. @ @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ @ Incoming flow detained for 6 outlet faces on 17 TIME FOR THE TIME STEP 399: 0.66956E-01 =============================================================== INSTANT 0.200000000E+02 TIME STEP NUMBER 400 ============================================================= ** BOUNDARY MASS FLOW INFORMATION ------------------------------ --------------------------------------------------------------- Boundary type Code Nb faces Mass flow --------------------------------------------------------------- Inlet 2 14 -0.162060250E-01 Smooth wall 5 6379 -0.569206141E-18 Rough wall 6 0 0.000000000E+00 Symmetry 4 0 0.000000000E+00 Free outlet 3 17 0.162060254E-01 Free inlet 13 0 0.000000000E+00 Free surface 14 0 0.000000000E+00 Undefined 1 0 0.000000000E+00 --------------------------------------------------------------- ** BOUNDARY CONDITIONS FOR SMOOTH WALLS --------------------------------------- ------------------------------------------------------------ Minimum Maximum ------------------------------------------------------------ Rel velocity at the wall uiptn : -0.84834E-02 0.14755E+01 Friction velocity uet : 0.48194E-03 0.19082E+00 Friction velocity uk : 0.41057E-02 0.87470E-01 Dimensionless distance yplus : 0.20945E+01 0.14084E+03 ------------------------------------------------------ Nb of reversal of the velocity at the wall : 10 Nb of faces within the viscous sub-layer : 1 Total number of wall faces : 6379 ------------------------------------------------------------ @ @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ @ @ @@ WARNING: MESH TOO REFINED AT THE WALL @ ======== @ The mesh seems to be too refined at the wall to use @ a high-Reynolds turbulence model. @ @ The last time step at which too small values for the @ dimensionless distance to the wall (yplus) have been @ observed is the time step 400 @ @ The minimum value for yplus must be greater than the @ limit value YPLULI = 0.23810E+01 @ @ Have a look at the distribution of yplus at the wall @ (with EnSight or ParaView for example) to conclude on @ the way the results quality might be affected. @ @ This warning is only printed at the first two @ occurences of the problem and at the last time step @ of the calculation. The vanishing of the message does @ not necessarily mean the vanishing of the problem. @ @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ @ Incoming flow detained for 6 outlet faces on 17 Write final restart files checkpoint at iteration 400, Physical time 0.20000E+02 ** Writing the main restart file ----------------------------- Start writing Wrote field names and types to checkpoint: 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 Time for restart files: 0.17563E-01 ** INFORMATION ON CONVERGENCE -------------------------- ----------------------------------------------------------------------------- Variable Rhs norm N_iter Norm. residual derive Time residual ----------------------------------------------------------------------------- c Velocity 0.30746E-01 72 0.70998E-01 0.15072E-02 0.18823E+00 c Velocity[X] 0.10359E-02 c Velocity[Y] 0.47134E-03 c Velocity[Z] 0.66359E-34 c Pressure 0.54498E-03 335 0.46220E-03 0.60570E-01 0.10811E+00 c k 0.29087E-03 58 0.45348E-04 0.85803E-07 0.17207E+00 c epsilon 0.10223E-02 56 0.51815E-04 0.17334E-05 0.24814E+00 ----------------------------------------------------------------------------- ** Clippings for computed fields ----------------------------- field initial min initial max clips to min clips to max - ------- -------------- -------------- ------------ ------------ a k a epsilon ** Computed fields on cells ------------------------ field minimum maximum set mean spatial mean - -------------- -------------- -------------- -------------- -------------- v Velocity[X] -1.1844 2.4498 0.53283 0.55874 v Velocity[Y] -0.76078 1.6094 0.07095 0.064562 v Velocity[Z] -1.1364e-16 7.842e-17 2.8931e-18 2.7809e-18 v ǁVelocityǁ 0.0087592 2.4899 0.73583 0.74921 v Pressure -2.9422 1.8834 0.20827 0.19483 v k 7.1256e-05 0.0249 0.0060479 0.006111 v epsilon 4.56e-05 0.11748 0.016774 0.016647 v TurbVisc 8.5431e-06 0.0017331 0.00027579 0.00028176 v CourantNb 0.00049478 11.104 2.4224 2.3963 v FourierNb 0.010995 1.9078 0.14975 0.14175 v total_pressure 1.0132e+05 1.0133e+05 1.0133e+05 1.0133e+05 ** Computed values on cells ------------------------ criterion minimum maximum set mean spatial mean --------------- -------------- -------------- -------------- -------------- Courant/Fourier 0.015533 11.397 2.5721 2.538 TIME FOR THE TIME STEP 400: 0.93819E-01 =============================================================== =============================================================== FINAL STAGE OF THE CALCULATION ============================== =========================================================== ** TIME FOR FINAL WRITING: 0.13391E-04 ----------------------- =========================================================== END OF CALCULATION ================== =============================================================== Destroying structures and ending computation Calculation time summary: User CPU time: 18.424 s System CPU time: 8.223 s Total CPU time: 160.284 s Elapsed time: 26.830 s CPU / elapsed time 0.993 Memory use summary: Total memory used: 1.345 GiB local minimum: 229.449 MiB (rank 5) local maximum: 230.238 MiB (rank 0) Theoretical instrumented dynamic memory: 8.123 MiB local minimum: 1.199 MiB (rank 5) local maximum: 1.998 MiB (rank 0)