﻿ Code_Saturne is running
                      ***********************

 Version: 4.0
 Path:    /Programs/Code_Saturne-4.0.2/build-catalyst

 Result directory:
   /home/antech/work/Svetly/Cyclones/Saturne/CS_G000/RESU/20161026-1538


 Parallel Code_Saturne on 8 processes.


 ****************************
  Preparing calculation data
 ****************************


 ***************************
  Preprocessing calculation
 ***************************


 **********************
  Starting calculation
 **********************

command:
 /Programs/Code_Saturne-4.0.2/build-catalyst/libexec/code_saturne/cs_solver --param CS_G000-Particles.xml --log 0 --mpi

***************************************************************

                                  (R)
                      Code_Saturne

                      Version 4.0.2


  Copyright (C) 1998-2015 EDF S.A., France

  revision 4.0.2
  build Fri 14 Oct 2016 02:25:41 PM GMT-3
  MPI version 3.0 (Open MPI 1.8.4)


  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:                Wed 26 Oct 2016 03:38:23 PM GMT-3
  System:              Linux 2.6.32-573.3.1.el6.x86_64
  Machine:             AntechPC
  Processor:           model name	: Intel(R) Core(TM) i7-2670QM CPU @ 2.20GHz
  Memory:              15911 MB
  User:                antech (Andrew)
  Directory:           /home/antech/work/Svetly/Cyclones/Saturne/CS_G000/RESU/20161026-1538
  MPI ranks:           8 (appnum attribute: 0)
  OpenMP threads:      1
  Processors/node:     8
  I/O read method:     collective MPI-IO (explicit offsets)
  I/O write method:    collective MPI-IO (explicit offsets)
  I/O rank step:        1

  External libraries for partitioning:
    SCOTCH 5.1.12

 Reading metadata from file: "mesh_input"

===============================================================

                   CALCULATION PREPARATION
                   =======================


 ===========================================================



idepst = 0
 No error detected during the data verification
                          cs_user_parameters.f90 and others).


 ===========================================================

               CALCULATION PARAMETERS SUMMARY
               ==============================

 -----------------------------------------------------------


 ** DIMENSIONS
    ----------

 --- Physics
       NVAR   =             11 (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    =    0.57740E+00 (Reference density           )
       VISCL0 =    0.29580E-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  =             31 (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)     )

   - SSG Rij-epsilon     (ITURB = 31)
       ALMAX  =   -0.99900E+03 (Characteristic length       )
       UREF   =    0.10000E+01 (Characteristic velocity     )
       IRIJNU =              0 (Matrix stabilization        )
       IRIJRB =              0 (Reconstruct at boundaries   )
       IGRARI =              1 (Account for gravity         )
       ICLSYR =              1 (Symmetry implicitation      )
       ICLPTR =              0 (Wall implicitation          )

 --- 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))

   - SSG Rij-epsilon     (ITURB = 31)
       CSSGS1 =    0.17000E+01 (Cs1 coeff.                  )
       CSSGS2 =   -0.10500E+01 (Cs2 coeff.                  )
       CSSGR1 =    0.90000E+00 (Cr1 coeff.                  )
       CSSGR2 =    0.80000E+00 (Cr2 coeff.                  )
       CSSGR3 =    0.65000E+00 (Cr3 coeff.                  )
       CSSGR4 =    0.62500E+00 (Cr4 coeff.                  )
       CSSGR5 =    0.20000E+00 (Cr5 coeff.                  )
       CSRIJ  =    0.22000E+00 (Rij Cs diffusion coeff.     )
       CRIJ3  =    0.55000E+00 (Gravity term coeff.         )
       Ce1    =    0.14400E+01 (Ceps1 coeff.                )
       CSSGE2 =    0.18300E+01 (Ceps2 coeff.                )
       SIGMAE =    0.12200E+01 (sigma_eps coeff.            )
       CMU    =    0.90000E-01 (Cmu constant                )


 -----------------------------------------------------------


 ** SECONDARY VISCOSITY
    -------------------

 --- Continuous phase:
       IVISSE =              1 (1: accounted for            )


 -----------------------------------------------------------


 ** TIME STEPPING
    -------------

    UNSTEADY ALGORITHM

 --- Time step parameters

       IDTVAR =              1 (0 cst; 1,2 var (t, t-space  )
       IPTLRO =              0 (1: rho-related DT clipping  )
       COUMAX =    0.50000E+01 (Maximum target CFL          )
       FOUMAX =    0.10000E+02 (Maximum target Fourier      )
       VARRDT =    0.10000E+00 (For var. DT, max. increase  )
       DTMIN  =    0.10000E-02 (Minimum time step           )
       DTMAX  =    0.10000E+02 (Maximum time step           )
       DTREF  =    0.10000E-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 =              1 (1: frozen velocity field    )

 --- Per-variable properties

------------------------------------
 Variable          ISTAT      CDTVAR
------------------------------------
 Velocity              1  0.1000E+01
 Pressure              0  0.1000E+01
 r11                   1  0.1000E+01
 r22                   1  0.1000E+01
 r33                   1  0.1000E+01
 r12                   1  0.1000E+01
 r13                   1  0.1000E+01
 r23                   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
 r11                   1      1      1      1      0 0.00E+00 0.10E+01
 r22                   1      1      1      1      0 0.00E+00 0.10E+01
 r33                   1      1      1      1      0 0.00E+00 0.10E+01
 r12                   1      1      1      1      0 0.00E+00 0.10E+01
 r13                   1      1      1      1      0 0.00E+00 0.10E+01
 r23                   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 =              0 (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-03  0.0000E+00
 Pressure            100      2  0.1000E-04  0.1000E-03  0.0000E+00
 r11                 100      1  0.1000E-04  0.1000E-03  0.0000E+00
 r22                 100      1  0.1000E-04  0.1000E-03  0.0000E+00
 r33                 100      1  0.1000E-04  0.1000E-03  0.0000E+00
 r12                 100      1  0.1000E-04  0.1000E-03  0.0000E+00
 r13                 100      1  0.1000E-04  0.1000E-03  0.0000E+00
 r23                 100      1  0.1000E-04  0.1000E-03  0.0000E+00
 epsilon             100      1  0.1000E-04  0.1000E-03  0.0000E+00
-----------------------------------------------------------

-------------------------------------------
 Variable         IRCFLU IMLIGR      CLIMGR
-------------------------------------------
 Velocity              1     -1  0.1500E+01
 Pressure              1     -1  0.1500E+01
 r11                   1     -1  0.1500E+01
 r22                   1     -1  0.1500E+01
 r33                   1     -1  0.1500E+01
 r12                   1     -1  0.1500E+01
 r13                   1     -1  0.1500E+01
 r23                   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-04      1
 Pressure          0.1000E-04      1
 r11               0.1000E-04      1
 r22               0.1000E-04      1
 r33               0.1000E-04      1
 r12               0.1000E-04      1
 r13               0.1000E-04      1
 r23               0.1000E-04      1
 epsilon           0.1000E-04      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 =              1 (1: restarted calculation    )
       ILEAUX =              1 (1: read  restart/auxiliary  )
       IECAUX =              1 (1: write checkpoint/auxiliary)


 --- Calculation time
     The numbering of time steps and the measure of simulated
       physical time are absolute values, and not values
       relative to the current calculation.

       INPDT0 =              0 (1: 0 time step calcuation   )
       NTMABS =         100000 (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
r11
r22
r33
r12
r13
r23
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 r11                           -1
         7 r22                           -1
         8 r33                           -1
         9 r12                           -1
        10 r13                           -1
        11 r23                           -1
        12 epsilon                       -1
        14 LamVisc                       -1
        15 TurbVisc                      -1
        16 CourantNb                     -1
        17 FourierNb                     -1
        18 total_pressure                -1
        19 Local Time Step               -1
         --           --                --

 --- Log files
       NTLIST =              1 (Output frequency     )

       Number Name                IWARNI verbosity level
                                      (-999: not applicable)

         2 Velocity                       0
         5 Pressure                       0
         6 r11                            0
         7 r22                            0
         8 r33                            0
         9 r12                            0
        10 r13                            0
        11 r23                            0
        12 epsilon                        0
        15 TurbVisc                    -999
        16 CourantNb                   -999
        17 FourierNb                   -999
        18 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)


 -----------------------------------------------------------


 ** TWO-PHASE LANGRANGIEN FLOW
    --------------------------
 --- Continuous phase:
       IILAGR =              3 (0: Lagrangian deactivated
                                1: one way coupling
                                2: two way coupling
                                3: on frozen fields         )
       ISUILA =              1 (0: no restart; 1: restart   )
       ISUIST =              1 (1: restart stats and return
                                   coupling ST              )
 --- Specific physics associated with particles:
       IPHYLA =              0 (0: no additional equations
                                1: equations on Dp Tp Mp
                                2: coal particles           )
 --- Global parameters:
       NVLS   =              0 (nb add. suppl. variables    )
       ISTTIO =              1 (1 steady carrier phase      )
       INJCON =              0 (1 continuous injection, or 0)
       IROULE =              0 (2 clone/merge with Y+ calc
                                1 clone/merge without Y+ calc
                                0 otherwise                 )
 --- Statistics options:
       ISTALA =              1 (1: compute statistics       )
       SEUIL  =    0.00000E+00 (minimum value for handling  )
       IDSTNT =            310 (start iter for stat calc    )
       NSTIST =            310 (start iter for time avergage)
       NVLSTS =              0 (nb add statistics variables )
 --- Turbulent dispersion options:
       IDISTU =              1 (1: accounted for; 0 otherws.)
       IDIFFL =              0 (1 dispersion = turb diffus. )
       MODCPL =              0 (complete model lag start it.)
 --- Numerical options:
       NORDRE =              2 (1 or 2 time scheme order    )
       ILAPOI =              0 (1 inst. velcity corr.       )
 --- Trajectory/particle     postprocessing options:
       IVISV1 =              1 (1: fluid velocity vu, 0 none)
       IVISV2 =              1 (1: particle velocity, 0 none)
       IVISTP =              1 (1: resident time,     0 none)
       IVISDM =              1 (1: particle diameter, 0 none)
       IVISTE =              0 (1: part. temperature, 0 none)
       IVISMP =              1 (1: particle mass,     0 none)
 --- Statistics options for particles/boundary interaction:
       IENSI3 =              1 (1 calculate wall stats      )
       SEUILF   =    0.00000E+00 (minimul value for handlin           )
       NSTBOR   =            945 (start iter for time average         )
       INBRBD   =              1 (1: nb interactions rec.             )
       IFLMBD   =              1 (1: particle mass flow rec.          )
       IANGBD   =              0 (1: interaction angle rec.           )
       IVITBD   =              0 (1: interaction velocity rec.        )
       IENCNBBD =              0 (1: nb interactions rec. with fouling)
       IENCMABD =              0 (1: fouling coal mass flux           )
       IENCDIBD =              0 (1: fouling coal diameter            )
       IENCCKBD =              0 (1: fouling coal coke fraction       )
       NUSBOR   =              0 (1: additional user info rec.        )

 -----------------------------------------------------------


 ** ALE METHOD (MOVING MESH)
    -----------

       IALE   =              0 (1: activated                )
       NALINF =              0 (Fluid initialization
                                                  iterations)
       IFLXMW =              0 (ALE mass flux computation
                                0: thanks to vertices
                                1: thanks to mesh velocity)


 -----------------------------------------------------------


Postprocessing output writers:
------------------------------

  -1: name: results
      directory: postprocessing
      format: EnSight Gold
      options:
      time dependency: fixed mesh
      output: at calculation end

   1: name: Catalyst
      directory: postprocessing
      format: Catalyst
      options:
      time dependency: fixed mesh
      output: every 1 time steps and at calculation end

  -3: name: particles
      directory: postprocessing
      format: EnSight Gold
      options:
      time dependency: transient connectivity
      output: at calculation end

  -4: name: trajectories
      directory: postprocessing
      format: EnSight Gold
      options:
      time dependency: fixed mesh
      output: at calculation end


 Reading file:        mesh_input
 Finished reading:    mesh_input

 Reading file:        partition_input/domain_number_8
 Finished reading:    partition_input/domain_number_8


 ----------------------------------------------------------

 Halo construction with standard neighborhood
 ============================================

 Face interfaces creation
 Vertex interfaces creation
 Halo creation
 Halo definition
    Local halo definition
    Distant halo creation
    Updating the faces -> cells connectivity

 Histogram of the number of cells per rank:

    minimum value =             389859
    maximum value =             389860

      1 : [     389859 ;     389860 ] =          8

 ----------------------------------------------------------

 Histogram of the number of standard + halo cells per rank:

    minimum value =             404472
    maximum value =             412058

      1 : [     404472 ;     405989 [ =          3
      2 : [     405989 ;     407506 [ =          1
      3 : [     407506 ;     409023 [ =          1
      4 : [     409023 ;     410540 [ =          1
      5 : [     410540 ;     412058 ] =          2

 ----------------------------------------------------------

 Histogram of the number of ghost cells per rank:

    minimum value =              14612
    maximum value =              22198

      1 : [      14612 ;      16129 [ =          3
      2 : [      16129 ;      17646 [ =          1
      3 : [      17646 ;      19163 [ =          1
      4 : [      19163 ;      20680 [ =          1
      5 : [      20680 ;      22198 ] =          2

 ----------------------------------------------------------

 Histogram of the number of interior faces per rank:

    minimum value =             778011
    maximum value =             788769

      1 : [     778011 ;     780162 [ =          2
      2 : [     780162 ;     782314 [ =          1
      3 : [     782314 ;     784465 [ =          2
      4 : [     784465 ;     786617 [ =          1
      5 : [     786617 ;     788769 ] =          2

 ----------------------------------------------------------

 Histogram of the number of boundary faces per rank:

    minimum value =              11645
    maximum value =              23756

      1 : [      11645 ;      14067 [ =          4
      2 : [      14067 ;      16489 [ =          0
      3 : [      16489 ;      18911 [ =          1
      4 : [      18911 ;      21333 [ =          1
      5 : [      21333 ;      23756 ] =          2

 ----------------------------------------------------------

 Histogram of the number of interior faces per cell:

    minimum value =                  2
    maximum value =                  4

      1 : [          2 ;          3 [ =        348
      2 : [          3 ;          4 ] =    3118531

 ----------------------------------------------------------

 Histogram of the number of neighboring domains per rank:

    minimum value =                  6
    maximum value =                  7

      1 : [          6 ;          7 ] =          8

 ----------------------------------------------------------

 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 =             403494
    maximum value =             410025

      1 : [     403494 ;     404800 [ =          2
      2 : [     404800 ;     406106 [ =          1
      3 : [     406106 ;     407412 [ =          3
      4 : [     407412 ;     408718 [ =          1
      5 : [     408718 ;     410025 ] =          1

 Histogram of volume mesh matrix profile/lines per rank:

    minimum value =              98839
    maximum value =             104342

      1 : [      98839 ;      99939 [ =          4
      2 : [      99939 ;     101040 [ =          0
      3 : [     101040 ;     102140 [ =          3
      4 : [     102140 ;     103241 [ =          0
      5 : [     103241 ;     104342 ] =          1

 Mesh coordinates:               minimum    and maximum
                       X : -1.5200000e+00  8.5000002e-01
                       Y : -7.9341295e-18  8.2419996e+00
                       Z : -8.4999996e-01  8.5000002e-01
 Mesh
     Number of cells:          3118879
     Number of interior faces: 6171656
     Number of boundary faces: 132204
     Number of vertices:       553665

 Groups:
    "IN"
       boundary faces:          678
    "INFL"
       boundary faces:       129759
    "OUT_DOWN"
       boundary faces:          410
    "OUT_UP"
       boundary faces:         1357

 --- Information on the volumes
       Minimum control volume      =  3.4182644e-09
       Maximum control volume      =  1.1677794e-05
       Total volume for the domain =  1.2976038e+01

  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: 630 -->   0 %

  Criterion 4: Cells Volume Ratio:
    Number of bad cells detected: 0 -->   0 %

  Criterion 5: Guilt by Association:
    Number of bad cells detected: 0 -->   0 %

 Warning:
 --------
    Mesh quality issue has been detected

    The mesh should be re-considered using the listed criteria.

    The calculation will run but the solution quality may be degraded...

 Computing geometric quantities (1.81 s)









       ALMAX  =    0.23479E+01 (Characteristic length       )
       ALMAX is the cubic root of the domain volume.

       ALMAX is the length used to initialize the turbulence.

 -----------------------------------------------------------

   ** READING MAIN AND AUXILIARY RESTART FILES
      ----------------------------------------


      READING THE MAIN RESTART FILE

 Start reading
 Reading dimensions complete
  Reading the previous time step number (restarting computation)  NTPABS =         7327
  Reading the previous time step number (restarting computation)  TTPABS =   0.6141E+02
 Reading options complete
  Read variables from restart: restart/main
 Reading complete

         READING THE AUXILIARY RESTART FILE

 Start reading
   Fin de la lecture des options

   Apdatation of the reference point for the total pressure
       by reading the restart file
    XYZP0 =    0.71027E-02   0.82420E+01   0.50011E-02

   Fin de la lecture des proprietes physiques
   Fin de la lecture du pas de temps
   Fin de la lecture des flux de masse
   Fin de la lecture des conditions aux limites
   Fin de la lecture des termes sources
  restart/auxiliary: section "time_moments:sizes" not present.
  restart/auxiliary: section "nombre_moyennes_temps" not present.
 End reading

 -----------------------------------------------------------


 -----------------------------------------------------------


 ** VARIABLES INITIALIZATION
    ------------------------

 -----------------------------------------
  Variable          Min. value  Max. value
 -----------------------------------------
  Velocity         -0.5061E+02  0.6309E+02
  Velocity         -0.6674E+02  0.4959E+02
  Velocity         -0.6007E+02  0.4990E+02
  Pressure         -0.3474E+03  0.8367E+03
  r11               0.4087E-02  0.1954E+02
  r22               0.2159E-02  0.2569E+02
  r33               0.1406E-02  0.2874E+02
  r12              -0.4680E+01  0.5111E+01
  r13              -0.5243E+01  0.4821E+01
  r23              -0.4347E+01  0.4943E+01
  epsilon           0.1966E-01  0.1159E+06
 ---------------------------------

                dt  0.1000E-02  0.1000E-02
 ---------------------------------



-------------------------------------------------------------


   ** INFORMATIONS SUR LE CALCUL LAGRANGIEN
      -------------------------------------
    Lecture d'un fichier suite
      sur les statistiques et TS couplage retour
      Debut de la lecture
@
@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
@
@ @@ ATTENTION : A LA LECTURE DU FICHIER SUITE
@    =========     LAGRANGIEN lagrangian_st
@      DONNEES AMONT ET ACTUELLES DIFFERENTES
@
@    LE CALCUL ACTUEL DES STATISTIQUES AUX FRONTIERES
@      EST EN MODE INSTATIONNAIRE, ALORS QUE LE FICHIER
@      SUITE CONTIENT DES STATISTIQUES STATIONNAIRES.
@
@    Les statistiques aux frontieres stationnaires amont
@      seront remises a zero.
@
@    Le calcul se poursuit...
@
@    Il est conseille de verifier ces indicateurs dans
@      le sous-programme USLAG1.
@
@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
@

      Fin   de la lecture
    Fin de la lecture du fichier suite
      sur les statistiques et TS couplage retour

-------------------------------------------------------------

 -------------------------------------------------------------



===============================================================



                       MAIN CALCULATION
                       ================


===============================================================




===============================================================


 INSTANT    0.614088502E+02   TIME STEP NUMBER            7328
 =============================================================


 -----------------------------------------
 Property           Min. value  Max. value
 -----------------------------------------
  density           0.5774E+00  0.5774E+00
  molecular_viscos  0.2958E-04  0.2958E-04
  turbulent_viscos  0.3672E-04  0.2733E-01
 -----------------------------------------



   ** INFORMATION ON BOUNDARY FACES TYPE
      ----------------------------------

-------------------------------------------------------------------------
Boundary type          Code    Nb faces
-------------------------------------------------------------------------
Inlet                     2         678
Smooth wall               5      130169
Rough wall                6           0
Symmetry                  4           0
Free outlet               3        1357
Free inlet               13           0
Convective inlet         15           0
Free surface             14           0
Undefined                 1           0
-------------------------------------------------------------------------



   ** BOUNDARY MASS FLOW INFORMATION
      ------------------------------

---------------------------------------------------------------
Boundary type          Code    Nb faces           Mass flow
---------------------------------------------------------------
Inlet                     2         678        -0.434000000E+01
Smooth wall               5      130169        -0.230205722E-15
Rough wall                6           0         0.000000000E+00
Symmetry                  4           0         0.000000000E+00
Free outlet               3        1357         0.434000188E+01
Free inlet               13           0         0.000000000E+00
Convective inlet         15           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 :  0.27968E+00 0.30728E+02
   Friction velocity        uet   :  0.40100E-01 0.36605E+01
   Friction velocity        uk    :  0.81876E-01 0.31628E+01
   Dimensionless distance   yplus :  0.81332E+01 0.33897E+03
   ------------------------------------------------------
   Nb of reversal of the velocity at the wall   :          0
   Nb of faces within the viscous sub-layer     :          0
   Total number of wall faces                   :     130169
------------------------------------------------------------


Incoming flow detained for        140 outlet faces on       1357

   ** INFORMATIONS SUR LE CALCUL LAGRANGIEN
      -------------------------------------
    Lecture d'un fichier suite
      sur les variables liees aux particules
      Debut de la lecture
      Fin   de la lecture
    Fin de la lecture du fichier suite
      sur les variables liees aux particules


   ** INFORMATION ON CONVERGENCE
      --------------------------
-----------------------------------------------------------------------------
   Variable    Rhs norm      N_iter  Norm. residual      derive Time residual
-----------------------------------------------------------------------------
c  Velocity     0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  Velocity[X]                                      0.00000E+00
c  Velocity[Y]                                      0.00000E+00
c  Velocity[Z]                                      0.00000E+00
c  Pressure     0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  r11          0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  r22          0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  r33          0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  r12          0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  r13          0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  r23          0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  epsilon      0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
-----------------------------------------------------------------------------



  ** Clippings for computed fields
     -----------------------------

   field               initial min     initial max  clips to min  clips to max
-  ---------------  --------------  --------------  ------------  ------------
a  r11
a  r22
a  r33
a  r12
a  r13
a  r23
a  epsilon
a  Local Time Step      4.8237e-05                        389859


  ** Computed fields on cells
     ------------------------

   field                  minimum         maximum        set mean    spatial mean
-  --------------  --------------  --------------  --------------  --------------
v  Velocity[X]            -50.614          63.085         0.78426         0.88369
v  Velocity[Y]            -66.744          49.592       -0.064841         0.56249
v  Velocity[Z]            -60.074          49.895        -0.44093        -0.41691
v  ǁVelocityǁ             0.25127            84.4          25.764          25.158
v  Pressure                -347.4          836.68          433.48          440.61
v  r11                  0.0040865          19.535         0.89885         0.88051
v  r22                  0.0021591          25.694         0.91913         0.90192
v  r33                  0.0014064          28.739         0.86493         0.84111
v  r12                    -4.6801          5.1105       0.0021941      0.00090714
v  r13                    -5.2434          4.8207       -0.060068       -0.069573
v  r23                    -4.3473          4.9427        0.011041       0.0066535
v  epsilon               0.019658      1.1588e+05          152.44          79.953
v  TurbVisc            3.6717e-05        0.027329       0.0023969       0.0026926
v  CourantNb             0.019239          103.65          4.2912          2.8119
v  FourierNb             0.003573          6.7548         0.20366         0.16301
v  total_pressure      1.0098e+05      1.0216e+05      1.0176e+05      1.0177e+05


  ** Computed values on cells
     ------------------------

   criterion               minimum         maximum        set mean    spatial mean
   ---------------  --------------  --------------  --------------  --------------
   Courant/Fourier        0.032948          104.33          4.4948           2.975

   ** INFORMATION ON THE LAGRANGIAN CALCULATION
      ------------------------------------------

Lagrangian iteration n° (absolute/relative) :       1008 /         1

   For the current iteration, number of particles
   (with and without statistical weight) :

ln  newly injected                                100      0.14974E+12
ln  out, or deposited and eliminated                2      0.00000E+00
ln  deposited                                       0      0.00000E+00
ln  lost in the location stage                      0      0.00000E+00
ln  total number at the end of the time step    89575      0.13703E+14
% of lost particles (restart(s) included) :   0.0000E+00
---------------------------------------------------------------
   Zone     Mass flow rate(kg/s)      Boundary type
    1           0.10000E+02         INLET
    2           0.00000E+00         OUTLET
    3           0.00000E+00         REBOUND
---------------------------------------------------------------
   Volume statistics :

Start of calculation from absolute Lagrangian iteration n°:          310
Total number of iterations in the statistics:       699
Number of iterations in steady-state statistics :        1

                            Min value    Max value
lc  Part_vol_frac          0.00000E+00   0.52048E+00
lc  Part_statis_weight     0.00000E+00   0.13115E+11
---------------------------------------------------------------
   Boundary statistics :

Number of iterations in steady-state statistics:         65
Total number of iterations in the statistics:        70

                           Min value    Max value
lp  Part_impact_number     0.26131E+04   0.20916E+11
lp  Part_bndy_mass_flux    0.00000E+00   0.00000E+00
---------------------------------------------------------------

 TIME FOR THE TIME STEP             7328:        0.11641E+02

===============================================================


 INSTANT    0.614108020E+02   TIME STEP NUMBER            7329
 =============================================================




   ** BOUNDARY MASS FLOW INFORMATION
      ------------------------------

---------------------------------------------------------------
Boundary type          Code    Nb faces           Mass flow
---------------------------------------------------------------
Inlet                     2         678        -0.434000000E+01
Smooth wall               5      130169        -0.230205722E-15
Rough wall                6           0         0.000000000E+00
Symmetry                  4           0         0.000000000E+00
Free outlet               3        1357         0.434000188E+01
Free inlet               13           0         0.000000000E+00
Convective inlet         15           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 :  0.27968E+00 0.30728E+02
   Friction velocity        uet   :  0.40100E-01 0.36605E+01
   Friction velocity        uk    :  0.81876E-01 0.31628E+01
   Dimensionless distance   yplus :  0.81332E+01 0.33897E+03
   ------------------------------------------------------
   Nb of reversal of the velocity at the wall   :          0
   Nb of faces within the viscous sub-layer     :          0
   Total number of wall faces                   :     130169
------------------------------------------------------------


Incoming flow detained for        140 outlet faces on       1357

   ** INFORMATION ON CONVERGENCE
      --------------------------
-----------------------------------------------------------------------------
   Variable    Rhs norm      N_iter  Norm. residual      derive Time residual
-----------------------------------------------------------------------------
c  Velocity     0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  Velocity[X]                                      0.00000E+00
c  Velocity[Y]                                      0.00000E+00
c  Velocity[Z]                                      0.00000E+00
c  Pressure     0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  r11          0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  r22          0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  r33          0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  r12          0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  r13          0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  r23          0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  epsilon      0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
-----------------------------------------------------------------------------



  ** Clippings for computed fields
     -----------------------------

   field               initial min     initial max  clips to min  clips to max
-  ---------------  --------------  --------------  ------------  ------------
a  r11
a  r22
a  r33
a  r12
a  r13
a  r23
a  epsilon
a  Local Time Step      4.8237e-05                        389859


  ** Computed fields on cells
     ------------------------

   field                  minimum         maximum        set mean    spatial mean
-  --------------  --------------  --------------  --------------  --------------
v  Velocity[X]            -50.614          63.085         0.78426         0.88369
v  Velocity[Y]            -66.744          49.592       -0.064841         0.56249
v  Velocity[Z]            -60.074          49.895        -0.44093        -0.41691
v  ǁVelocityǁ             0.25127            84.4          25.764          25.158
v  Pressure                -347.4          836.68          433.48          440.61
v  r11                  0.0040865          19.535         0.89885         0.88051
v  r22                  0.0021591          25.694         0.91913         0.90192
v  r33                  0.0014064          28.739         0.86493         0.84111
v  r12                    -4.6801          5.1105       0.0021941      0.00090714
v  r13                    -5.2434          4.8207       -0.060068       -0.069573
v  r23                    -4.3473          4.9427        0.011041       0.0066535
v  epsilon               0.019658      1.1588e+05          152.44          79.953
v  TurbVisc            3.6717e-05        0.027329       0.0023969       0.0026926
v  CourantNb             0.019239          103.65          4.2912          2.8119
v  FourierNb             0.003573          6.7548         0.20366         0.16301
v  total_pressure      1.0098e+05      1.0216e+05      1.0176e+05      1.0177e+05


  ** Computed values on cells
     ------------------------

   criterion               minimum         maximum        set mean    spatial mean
   ---------------  --------------  --------------  --------------  --------------
   Courant/Fourier        0.032948          104.33          4.4948           2.975

   ** INFORMATION ON THE LAGRANGIAN CALCULATION
      ------------------------------------------

Lagrangian iteration n° (absolute/relative) :       1009 /         2

   For the current iteration, number of particles
   (with and without statistical weight) :

ln  newly injected                                100      0.14974E+11
ln  out, or deposited and eliminated               11      0.00000E+00
ln  deposited                                       0      0.00000E+00
ln  lost in the location stage                      0      0.00000E+00
ln  total number at the end of the time step    89664      0.13712E+14
% of lost particles (restart(s) included) :   0.0000E+00
---------------------------------------------------------------
   Zone     Mass flow rate(kg/s)      Boundary type
    1           0.10000E+01         INLET
    2           0.00000E+00         OUTLET
    3           0.00000E+00         REBOUND
---------------------------------------------------------------
   Volume statistics :

Start of calculation from absolute Lagrangian iteration n°:          310
Total number of iterations in the statistics:       700
Number of iterations in steady-state statistics :        2

                            Min value    Max value
lc  Part_vol_frac          0.00000E+00   0.26024E+00
lc  Part_statis_weight     0.00000E+00   0.24866E+11
---------------------------------------------------------------
   Boundary statistics :

Number of iterations in steady-state statistics:         66
Total number of iterations in the statistics:        71

                           Min value    Max value
lp  Part_impact_number     0.26131E+04   0.20919E+11
lp  Part_bndy_mass_flux    0.00000E+00   0.00000E+00
---------------------------------------------------------------

 TIME FOR THE TIME STEP             7329:        0.85446E+01

===============================================================


 INSTANT    0.614127538E+02   TIME STEP NUMBER            7330
 =============================================================




   ** BOUNDARY MASS FLOW INFORMATION
      ------------------------------

---------------------------------------------------------------
Boundary type          Code    Nb faces           Mass flow
---------------------------------------------------------------
Inlet                     2         678        -0.434000000E+01
Smooth wall               5      130169        -0.230205722E-15
Rough wall                6           0         0.000000000E+00
Symmetry                  4           0         0.000000000E+00
Free outlet               3        1357         0.434000188E+01
Free inlet               13           0         0.000000000E+00
Convective inlet         15           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 :  0.27968E+00 0.30728E+02
   Friction velocity        uet   :  0.40100E-01 0.36605E+01
   Friction velocity        uk    :  0.81876E-01 0.31628E+01
   Dimensionless distance   yplus :  0.81332E+01 0.33897E+03
   ------------------------------------------------------
   Nb of reversal of the velocity at the wall   :          0
   Nb of faces within the viscous sub-layer     :          0
   Total number of wall faces                   :     130169
------------------------------------------------------------


Incoming flow detained for        140 outlet faces on       1357

   ** INFORMATION ON CONVERGENCE
      --------------------------
-----------------------------------------------------------------------------
   Variable    Rhs norm      N_iter  Norm. residual      derive Time residual
-----------------------------------------------------------------------------
c  Velocity     0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  Velocity[X]                                      0.00000E+00
c  Velocity[Y]                                      0.00000E+00
c  Velocity[Z]                                      0.00000E+00
c  Pressure     0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  r11          0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  r22          0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  r33          0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  r12          0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  r13          0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  r23          0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
c  epsilon      0.00000E+00       0   0.00000E+00   0.00000E+00 0.00000E+00
-----------------------------------------------------------------------------



  ** Clippings for computed fields
     -----------------------------

   field               initial min     initial max  clips to min  clips to max
-  ---------------  --------------  --------------  ------------  ------------
a  r11
a  r22
a  r33
a  r12
a  r13
a  r23
a  epsilon
a  Local Time Step      4.8237e-05                        389859


  ** Computed fields on cells
     ------------------------

   field                  minimum         maximum        set mean    spatial mean
-  --------------  --------------  --------------  --------------  --------------
v  Velocity[X]            -50.614          63.085         0.78426         0.88369
v  Velocity[Y]            -66.744          49.592       -0.064841         0.56249
v  Velocity[Z]            -60.074          49.895        -0.44093        -0.41691
v  ǁVelocityǁ             0.25127            84.4          25.764          25.158
v  Pressure                -347.4          836.68          433.48          440.61
v  r11                  0.0040865          19.535         0.89885         0.88051
v  r22                  0.0021591          25.694         0.91913         0.90192
v  r33                  0.0014064          28.739         0.86493         0.84111
v  r12                    -4.6801          5.1105       0.0021941      0.00090714
v  r13                    -5.2434          4.8207       -0.060068       -0.069573
v  r23                    -4.3473          4.9427        0.011041       0.0066535
v  epsilon               0.019658      1.1588e+05          152.44          79.953
v  TurbVisc            3.6717e-05        0.027329       0.0023969       0.0026926
v  CourantNb             0.019239          103.65          4.2912          2.8119
v  FourierNb             0.003573          6.7548         0.20366         0.16301
v  total_pressure      1.0098e+05      1.0216e+05      1.0176e+05      1.0177e+05


  ** Computed values on cells
     ------------------------

   criterion               minimum         maximum        set mean    spatial mean
   ---------------  --------------  --------------  --------------  --------------
   Courant/Fourier        0.032948          104.33          4.4948           2.975

   ** INFORMATION ON THE LAGRANGIAN CALCULATION
      ------------------------------------------

Lagrangian iteration n° (absolute/relative) :       1010 /         3

   For the current iteration, number of particles
   (with and without statistical weight) :

ln  newly injected                                100      0.14974E+11
ln  out, or deposited and eliminated                8      0.00000E+00
ln  deposited                                       0      0.00000E+00
ln  lost in the location stage                      0      0.00000E+00
ln  total number at the end of the time step    89756      0.13723E+14
% of lost particles (restart(s) included) :   0.0000E+00
---------------------------------------------------------------
   Zone     Mass flow rate(kg/s)      Boundary type
    1           0.10000E+01         INLET
    2           0.00000E+00         OUTLET
    3           0.00000E+00         REBOUND
---------------------------------------------------------------
   Volume statistics :

Start of calculation from absolute Lagrangian iteration n°:          310
Total number of iterations in the statistics:       701
Number of iterations in steady-state statistics :        3

                            Min value    Max value
lc  Part_vol_frac          0.00000E+00   0.19988E+00
lc  Part_statis_weight     0.00000E+00   0.29186E+11
---------------------------------------------------------------
   Boundary statistics :

Number of iterations in steady-state statistics:         67
Total number of iterations in the statistics:        72

                           Min value    Max value
lp  Part_impact_number     0.26131E+04   0.22184E+11
lp  Part_bndy_mass_flux    0.00000E+00   0.00000E+00
---------------------------------------------------------------

 TIME FOR THE TIME STEP             7330:        0.92740E+01

===============================================================