command: 
 .\cs_solver.exe --param WOBCInit_ElecArc_WO_Electrodes.xml --mpi

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

                                  (R)
                      Code_Saturne

                      Version 4.2.1


  Copyright (C) 1998-2016 EDF S.A., France

  revision 4.2.1-m
  build 06/28/16 16:20:21
  MPI version 2.0 (MS-MPI)


  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:                05/03/17 23:00:29
  Processor:           
  Directory:           C:\Users\Rodion\Work\Code_Saturne\TransfArc\ElArcWOElectrodes\RESU\20170503-2300
  MPI ranks:           4 (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

  External libraries for partitioning:
    SCOTCH 6.0.0

 Reading metadata from file: "mesh_input"

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

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


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



                                                             
 Pas d erreur detectee lors de la verification des donnees   
                                                    (useli1).


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


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

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

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


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

 --- Physics
       NVAR   =              9 (Nb variables                )
       NSCAL  =              5 (Nb scalars                  )
       NSCAUS =              0 (Nb user scalars             )
       NSCAPP =              5 (Nb specific physics scalars )
       NPROCE =             17 (Nb cell properties          )


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


 ** PHYSICAL PROPERTIES
    -------------------

       GX     =    0.00000E+00 (Gravity x component         )
       GY     =    0.00000E+00 (Gravity y component         )
       GZ     =    0.98100E+01 (Gravity z component         )

       ICORIO =          0 (Coriolis source terms       )

  -- Continuous phase:

       RO0    =    0.12400E+01 (Reference density           )
       VISCL0 =    0.21600E-04 (Ref. molecular dyn. visc.   )
       CP0    =    0.75100E+03 (Ref. specific heat          )
       ICP    =             16 (> 0: variable CP (usphyv)   )
       P0     =    0.10132E+06 (Ref. total pressure         )
       PRED0  =    0.00000E+00 (Ref. reduced pressure       )
       T0     =    0.12732E+04 (Ref. temperature            )

       IROVAR =              1 (Density constant(0) or not(1)
       IVIVAR =              1 (Molec. visc cst.(0) or not(1)

       Initial reference point for pressure
       XYZP0  =    0.00000E+00   0.00000E+00   0.00000E+00
       DIFTL0 =    0.00000E+00 (Ref. dynamic diffusivity    )


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


 ** 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 =              2 (0: no thermal model         )
                               (1: temperature              )
                               (2: enthalpy                 )
                               (3: total energy             )
       ITPSCL =              1 (0: none                     )
                               (1: temperature in Kelvin    )
                               (2: temperature in Celsius   )
       ISCALT =              1 (Thermal scalar number       )


 ** TURBULENCE
    ----------

 --- Continuous phase:

   - Commons
       ITURB  =              0 (Turbulence model            )
       IWALLF =              0 (wall function               )
                               (0: disabled                 )
                               (1: one scale power law
                                   (forbidden for k-epsilon))
                               (2: one scale log law        )
                               (3: two scales log law       )
                               (4: scalable wall function   )
                               (5: two scales V. Driest     )
                               (6: two scales smooth/rough  )
       IWALLT =              0 (Exch. coeff. correlation    )
                               (0: not activated            )
                               (1: activated                )
       YPLULI =    0.23810E+01 (Limit Y+                    )
       IGRHOK =              0 (1: computed Grad(rho k)     )

 --- 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))


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


 ** 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  =    0.10000E-08 (Minimum time step           )
       DTMAX  =    0.10000E-04 (Maximum time step           )
       DTREF  =    0.10000E-07 (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
 Enthalpy              1  0.1000E+01
 elec_pot_r            0  0.1000E+01
 POT_VEC01             0  0.1000E+01
 POT_VEC02             0  0.1000E+01
 POT_VEC03             0  0.1000E+01
----------------------------

       ISTAT  =  0 ou  1       (1 for unsteady              )
       CDTVAR >  0             (time step multiplier        )

--- Relaxation coefficient
    RHO(n+1)=SRROM*RHO(n)+(1-SRROM)*RHO(n+1)
       SRROM  =    0.95000E+00

 --- 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
 Enthalpy              1      1      1      1      0 0.10E+01 0.10E+01
 elec_pot_r            0      1      0      1      0 0.10E+01 0.10E+01
 POT_VEC01             0      1      0      1      0 0.10E+01 0.10E+01
 POT_VEC02             0      1      0      1      0 0.10E+01 0.10E+01
 POT_VEC03             0      1      0      1      0 0.10E+01 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 =              1 (1: account for explicit
                                   balance between pressure
                                   gradient, gravity source
                                   terms, and head losses     )
       ICALHY =              1 (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-06  0.0000E+00
 Pressure            100      2  0.1000E-04  0.1000E-06  0.0000E+00
 Enthalpy            100      1  0.1000E-04  0.1000E-06  0.0000E+00
 elec_pot_r          100      1  0.1000E-04  0.1000E-06  0.0000E+00
 POT_VEC01           100      1  0.1000E-04  0.1000E-06  0.0000E+00
 POT_VEC02           100      1  0.1000E-04  0.1000E-06  0.0000E+00
 POT_VEC03           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
 Enthalpy              1     -1  0.1500E+01
 elec_pot_r            1     -1  0.1500E+01
 POT_VEC01             1     -1  0.1500E+01
 POT_VEC02             1     -1  0.1500E+01
 POT_VEC03             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
 Enthalpy          0.1000E-07      1
 elec_pot_r        0.1000E-07      1
 POT_VEC01         0.1000E-07      1
 POT_VEC02         0.1000E-07      1
 POT_VEC03         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    )


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


 ** SCALARS
    -------

       ITBRRB =              0 (T or H reconstruction at bdy)

-------------------------------------------------------------
 Variable         Number ISCACP  ITURT     VISLS0      SIGMAS
-------------------------------------------------------------
 Enthalpy              1      0      0  0.6391E-04  0.7000E+00
 elec_pot_r            2      0      0 -0.1000E+14  0.7000E+00
 POT_VEC01             3      0      0  0.1000E+01  0.7000E+00
 POT_VEC02             4      0      0  0.1000E+01  0.7000E+00
 POT_VEC03             5      0      0  0.1000E+01  0.7000E+00
---------------------------------------------------------------------

------------------------------------
 Variable         Number      RVARFL
------------------------------------
 Enthalpy              1  0.8000E+00
 elec_pot_r            2  0.8000E+00
 POT_VEC01             3  0.8000E+00
 POT_VEC02             4  0.8000E+00
 POT_VEC03             5  0.8000E+00
-------------------------------------------

-------------------------------------------------------
 Variable         Number ICLVFL      SCAMIN      SCAMAX
-------------------------------------------------------
 Enthalpy              1     -1 -0.1000E+13  0.1000E+13
 elec_pot_r            2     -1 -0.1000E+13  0.1000E+13
 POT_VEC01             3     -1 -0.1000E+13  0.1000E+13
 POT_VEC02             4     -1 -0.1000E+13  0.1000E+13
 POT_VEC03             5     -1 -0.1000E+13  0.1000E+13
-------------------------------------------------------

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

       For each scalar, the number indicates it's rank
         in the list of all scalars. User scalars are placed
         first, from 1 to NSCAUS. Specific physics scalars
         are placed at the end, from
         NSCAUS+1 to NSCAPP+NSCAUS=NSCAL.

       ISCACP = 0 or 1     2   (use Cp or not               )
       VISLS0 = >0             (Reference viscosity         )
       SIGMAS = >0             (Schmidt                     )
       RVARFL = >0             (Rf, cf variance dissipation )
       ICLVFL = 0, 1 or 2      (Variance clipping mode      )
       SCAMIN =                (Min authorized value        )
       SCAMAX =                (Max authorized value        )
        For variances, SCAMIN is ignored and SCAMAX is used
          only if ICLVFL = 2

------------------------------------------------------
   Scalar        THETSS    IVSEXT      THETVS
------------------------------------------------------
          1  0.0000E+00         0  0.0000E+00
          2  0.0000E+00         0  0.0000E+00
          3  0.0000E+00         0  0.0000E+00
          4  0.0000E+00         0  0.0000E+00
          5  0.0000E+00         0  0.0000E+00
------------------------------------------------------

       THETSS =                (theta for source terms      )
                               ((1+theta).new-theta.old     )
       IVSEXT =                (extrap. total viscosity     )
                               (0: explicit                 )
                               (1: n+thetvs with thetvs=1/2 )
                               (2: n+thetvs with thetvs=1   )
       THETVS =                (theta for scalar diffusivity
                               ((1+theta).new-theta.old     )


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


 ** 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 =             10 (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
Enthalpy
elec_pot_r
POT_VEC01
POT_VEC02
POT_VEC03
Temperature
Density
Boundary Density
LamVisc
CourantNb
FourierNb
total_pressure
temperature
joule_power
current_re_1
current_re_2
current_re_3
For_Lap1
For_Lap2
For_Lap3
TS_radia
SpecHeat
Th Diff
elec_pot_r Diff
Yplus
         --           --

 --- 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 Enthalpy                      -1
         7 elec_pot_r                    -1
         8 POT_VEC01                     -1
         9 POT_VEC02                     -1
        10 POT_VEC03                     -1
        11 Density                       -1
        12 LamVisc                       -1
        13 CourantNb                     -1
        14 FourierNb                     -1
        15 total_pressure                -1
        16 temperature                   -1
        17 joule_power                   -1
        18 current_re_1                  -1
        19 current_re_2                  -1
        20 current_re_3                  -1
        21 For_Lap1                      -1
        22 For_Lap2                      -1
        23 For_Lap3                      -1
        24 TS_radia                      -1
        25 SpecHeat                      -1
        26 Th Diff                       -1
        27 elec_pot_r Diff               -1
         --           --                --

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

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

         2 Velocity                       0
         5 Pressure                       0
         6 Enthalpy                       1
         7 elec_pot_r                     1
         8 POT_VEC01                      1
         9 POT_VEC02                      1
        10 POT_VEC03                      1
        11 Density                     -999
        12 LamVisc                     -999
        13 CourantNb                   -999
        14 FourierNb                   -999
        15 total_pressure              -999
        16 temperature                 -999
        17 joule_power                 -999
        18 current_re_1                -999
        19 current_re_2                -999
        20 current_re_3                -999
        21 For_Lap1                    -999
        22 For_Lap2                    -999
        23 For_Lap3                    -999
        24 TS_radia                    -999
        25 SpecHeat                    -999
        26 Th Diff                     -999
        27 elec_pot_r Diff             -999
         --           --                --

 --- Additional post-processing variables (ipstdv)
       ipstfo =              1 (Force exerted by the
                                     fluid on the boundary)
       ipstft =              1 (Thermal flux   at boundary)
       ipstnu =              0 (Dimensionless thermal
                                          flux at boundary)


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


 ** 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: binary
      time dependency: fixed mesh
      output: every 1 time steps and at calculation end


 Reading file:        mesh_input
 Finished reading:    mesh_input
 No "partition_input\domain_number_4" file available;

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

 Partitioning by space-filling curve: Morton (in bounding box).
  Number of cells per domain (histogramm):
    [      23343 ;      23344 ] =          4

 Partitioning finished (0.563 s)


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

 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 =              23343
    maximum value =              23344

      1 : [      23343 ;      23344 ] =          4

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

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

    minimum value =              28959
    maximum value =              29212

      1 : [      28959 ;      29009 [ =          3
      2 : [      29009 ;      29060 [ =          0
      3 : [      29060 ;      29110 [ =          0
      4 : [      29110 ;      29161 [ =          0
      5 : [      29161 ;      29212 ] =          1

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

 Histogram of the number of ghost cells per rank:

    minimum value =               5615
    maximum value =               5868

      1 : [       5615 ;       5665 [ =          3
      2 : [       5665 ;       5716 [ =          0
      3 : [       5716 ;       5766 [ =          0
      4 : [       5766 ;       5817 [ =          0
      5 : [       5817 ;       5868 ] =          1

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

 Histogram of the number of interior faces per rank:

    minimum value =              72420
    maximum value =              72617

      1 : [      72420 ;      72459 [ =          2
      2 : [      72459 ;      72498 [ =          0
      3 : [      72498 ;      72538 [ =          1
      4 : [      72538 ;      72577 [ =          0
      5 : [      72577 ;      72617 ] =          1

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

 Histogram of the number of boundary faces per rank:

    minimum value =               1455
    maximum value =               1699

      1 : [       1455 ;       1503 [ =          1
      2 : [       1503 ;       1552 [ =          0
      3 : [       1552 ;       1601 [ =          0
      4 : [       1601 ;       1650 [ =          2
      5 : [       1650 ;       1699 ] =          1

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

 Histogram of the number of interior faces per cell:

    minimum value =                  4
    maximum value =                  6

      1 : [          4 ;          5 [ =        108
      2 : [          5 ;          6 ] =      93267

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

 Histogram of the number of neighboring domains per rank:

    minimum value =                  2
    maximum value =                  3

      1 : [          2 ;          3 ] =          4

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

 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 =              26170
    maximum value =              26530

      1 : [      26170 ;      26242 [ =          2
      2 : [      26242 ;      26314 [ =          1
      3 : [      26314 ;      26386 [ =          0
      4 : [      26386 ;      26458 [ =          0
      5 : [      26458 ;      26530 ] =          1

 Histogram of volume mesh matrix profile/lines per rank:

    minimum value =               4169
    maximum value =               4340

      1 : [       4169 ;       4203 [ =          1
      2 : [       4203 ;       4237 [ =          1
      3 : [       4237 ;       4271 [ =          1
      4 : [       4271 ;       4305 [ =          0
      5 : [       4305 ;       4340 ] =          1

 Mesh coordinates:               minimum    and maximum
                       X : -3.0000000e-002 3.0000000e-002
                       Y : -3.0000000e-002 3.0000000e-002
                       Z : -1.9000000e-002 2.2000000e-002
 Mesh
     Number of cells:          93375
     Number of interior faces: 276930
     Number of boundary faces: 6390
     Number of vertices:       96684

 Groups:
    "anode"
       cells:                 22275
    "base_anode"
       boundary faces:         1485
    "bord_anode"
       boundary faces:          540
    "bord_lateral"
       boundary faces:          972
    "bord_lateral_nozzle"
       boundary faces:         1908
    "bord_superieur"
       boundary faces:          900
    "cathode"
       boundary faces:          153
    "chute_anodique"
       cells:                  2970
    "chute_cathodique"
       cells:                   459
    "domaine_cathode"
       cells:                  5355
    "domaine_fluide"
       cells:                 62316
    "entree"
       boundary faces:          432

 --- Information on the volumes
       Minimum control volume      = 1.2572854e-013
       Maximum control volume      = 2.5541748e-008
       Total volume for the domain = 5.3978221e-005

  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 (0.0937 s)
                                                             
       ALMAX  =    0.37793E-01 (Characteristic length       )
       ALMAX is the cubic root of the domain volume.


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


 ** 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
  Enthalpy          0.1400E+05  0.5966E+07
  elec_pot_r        0.0000E+00  0.0000E+00
  POT_VEC01         0.0000E+00  0.0000E+00
  POT_VEC02         0.0000E+00  0.0000E+00
  POT_VEC03         0.0000E+00  0.0000E+00
 ---------------------------------

                dt  0.1000E-07  0.1000E-07
 ---------------------------------



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

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



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



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


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




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


 INSTANT    0.100000000E-07   TIME STEP NUMBER               1
 ============================================================= 



 Module electrique: proprietes physiques lues sur fichier


 Module arc electrique: pas d'intervention utilisateur pour 
                          le calcul des proprietes physiques.

 -----------------------------------------
 Property           Min. value  Max. value
 -----------------------------------------
  density           0.4770E-01  0.1623E+01
  molecular_viscos  0.3422E-04  0.2697E-03
  specific_heat     0.5203E+03  0.1458E+04
 -----------------------------------------

 --- Diffusivity:
 -----------------------------------------------
 Scalar           Number  Min. value  Max. value
 -----------------------------------------------
 Enthalpy              1  0.5134E-04  0.4420E-03
 elec_pot_r            2  0.1321E-03  0.2990E+04
 POT_VEC01             3  0.1000E+01  0.1000E+01
 POT_VEC02             4  0.1000E+01  0.1000E+01
 POT_VEC03             5  0.1000E+01  0.1000E+01
 -----------------------------------------------


Inlet Velocity =    0.51873E+01

elcurr =    0.00000E+00

elcurr1=   -0.60708E+00


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

-------------------------------------------------------------------------
Boundary type          Code    Nb faces
-------------------------------------------------------------------------
Inlet                     2         432
Smooth wall               5        4086
Rough wall                6           0
Symmetry                  4           0
Free outlet               3        1872
Free inlet               13           0
Convective inlet         15           0
Free surface             14           0
Undefined                 1           0
-------------------------------------------------------------------------


Boundary faces with free inlet/outlet detected
Update of reference point for total pressure
 XYZP0 =   -0.54113E-03  -0.11605E-02   0.30000E-02



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

---------------------------------------------------------------
Boundary type          Code    Nb faces           Mass flow
---------------------------------------------------------------
Inlet                     2         432         0.000000000E+00
Smooth wall               5        4086         0.000000000E+00
Rough wall                6           0         0.000000000E+00
Symmetry                  4           0         0.000000000E+00
Free outlet               3        1872         0.000000000E+00
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 :  0.00000E+00 0.00000E+00
   Friction velocity        uet   :  0.00000E+00 0.00000E+00
   Friction velocity        uk    :  0.00000E+00 0.00000E+00
   Dimensionless distance   yplus :  0.00000E+00 0.00000E+00
   Friction thermal sca.    tstar :  0.00000E+00 0.00000E+00
   Rough dim-less th. sca.  tplus :  0.61009E-12 0.66666E-12
   ------------------------------------------------------
   Nb of reversal of the velocity at the wall   :          0
   Nb of faces within the viscous sub-layer     :       4086
   Total number of wall faces                   :       4086
------------------------------------------------------------


  Hydrostatic pressure computation: 
         updating the Dirichlets at the end (CALHYD)


   ** SOLVING VARIABLE enthalpy        
      ----------------

  Calcul des termes sources pour la variable : Enthalpy
@
@ @@ WARNING: enthalpy CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE elec_pot_r      
      ----------------

@
@ @@ WARNING: elec_pot CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Gr_PotRX    -0.23429E+06   0.23429E+06
v  Gr_PotRY    -0.23429E+06   0.23429E+06
v  Gr_PotRZ    -0.20473E+04   0.20254E+06
v  Cour_ReX    -0.34487E+08   0.34487E+08
v  Cour_ReY    -0.34487E+08   0.34487E+08
v  Cour_ReZ    -0.88142E+08   0.27054E+00

   ** SOLVING VARIABLE vec_potential_01
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_02
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_03
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Ch_MagX     -0.12789E+00   0.12789E+00
v  Ch_MagY     -0.12789E+00   0.12789E+00
v  Ch_MagZ     -0.27913E-03   0.27913E-03
-----------------------------------------                    

   ** INFORMATION ON CONVERGENCE
      --------------------------
-----------------------------------------------------------------------------
   Variable    Rhs norm      N_iter  Norm. residual      Drift  Time residual
-----------------------------------------------------------------------------
c  Velocity     0.16703E-05       3   0.10364E-05   0.11109E+10 0.10000E+09 
c  Velocity[X]                                      0.48510E+07 
c  Velocity[Y]                                      0.48510E+07 
c  Velocity[Z]                                      0.11012E+10 
c  Pressure     0.86990E-05     459   0.38730E+00   0.10000E+01 0.10000E+09 
c  Enthalpy     0.16294E+07       5   0.20413E-06   0.61471E+14 0.71697E+06 
c  elec_pot_r   0.10547E+05     181   0.10018E-02   0.66711E+12 0.10000E+09 
c  POT_VEC01    0.10509E-08     123   0.87695E-01   0.29915E-08 0.10000E+09 
c  POT_VEC02    0.10509E-08     149   0.87695E-01   0.29915E-08 0.10000E+09 
c  POT_VEC03    0.57287E-07     234   0.49723E+00   0.33476E+00 0.10000E+09 
-----------------------------------------------------------------------------
  
  

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

   field          initial min     initial max  clips to min  clips to max
-  ----------  --------------  --------------  ------------  ------------
a  Enthalpy  
a  elec_pot_r
a  POT_VEC01 
a  POT_VEC02 
a  POT_VEC03 


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

   field                   minimum         maximum        set mean    spatial mean
-  ---------------  --------------  --------------  --------------  --------------
v  Velocity[X]             -85.213          85.213    -7.5079e-009    -9.3121e-012
v  Velocity[Y]             -85.213          85.213     1.9366e-009     2.0331e-012
v  Velocity[Z]              -30.68          756.09            18.8        0.070187
v  ǁVelocityǁ         0.00019032          756.09          19.216        0.076865
v  Pressure                 1.3892     2.6295e+007     4.6312e+006     1.9889e+005
v  Enthalpy                  13834     5.9673e+006      3.964e+005           15973
v  elec_pot_r              -999.86          -0.179         -256.22         -26.435
v  POT_VEC01          -6.1944e-007     6.1944e-007    -5.6908e-012    -1.2857e-012
v  POT_VEC02          -6.1944e-007     6.1945e-007      5.562e-012     1.7988e-012
v  POT_VEC03           -0.00063355    -2.5948e-006     -0.00016524    -1.4939e-005
v  Density                0.047696          1.6225          1.5207           1.622
v  LamVisc             3.4224e-005      0.00026965      4.944e-005     3.4302e-005
v  CourantNb                     0               0               0               0
v  FourierNb           3.5727e-007         0.15918       0.0042322     1.6545e-005
v  total_pressure      1.0133e+005     2.6396e+007     4.7325e+006     3.0022e+005
v  temperature                 300           10000          926.93          303.22
v  joule_power              9.4559     3.0046e+012     9.3184e+010     3.5412e+008
v  current_re_1       -3.4487e+007     3.4487e+007        -0.27591      -0.0018067
v  current_re_2       -3.4487e+007     3.4487e+007         0.78593        0.002728
v  current_re_3       -8.8142e+007         0.27054     -3.962e+006          -14589
v  For_Lap1           -1.6197e+006     1.6197e+006       0.0027842     1.9538e-005
v  For_Lap2           -1.6197e+006     1.6197e+006      -0.0012694    -2.0752e-005
v  For_Lap3           -2.3992e+005     6.5611e+005          1044.3        0.049657
v  TS_radia                      0       3.17e+007     2.0488e+006           10537
v  SpecHeat                 520.33          1457.7          580.91          520.64
v  Th Diff             5.1337e-005      0.00044198     7.6585e-005     5.1467e-005
v  elec_pot_r Diff      0.00013214            2990          193.25         0.99404

  ** Computed fields on boundary_faces
     ---------------------------------

   field                    minimum         maximum        set mean    spatial mean
-  ----------------  --------------  --------------  --------------  --------------
v  Temperature                  300           10000          1456.7           310.4
v  Boundary Density        0.047696          1.6225          1.4347          1.6208
v  Yplus                          0               0               0               0


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

   criterion               minimum         maximum        set mean    spatial mean
   ---------------  --------------  --------------  --------------  --------------
   Courant/Fourier     3.5727e-007         0.15918       0.0042322     1.6545e-005


 INSTANT    0.200000000E-07   TIME STEP NUMBER               2
 ============================================================= 


 --- Diffusivity:
 -----------------------------------------------
 Scalar           Number  Min. value  Max. value
 -----------------------------------------------
 Enthalpy              1  0.5134E-04  0.4670E-03
 elec_pot_r            2  0.1321E-03  0.2991E+04
 POT_VEC01             3  0.1000E+01  0.1000E+01
 POT_VEC02             4  0.1000E+01  0.1000E+01
 POT_VEC03             5  0.1000E+01  0.1000E+01
 -----------------------------------------------


Inlet Velocity =    0.51873E+01

elcurr =    0.63537E+00

elcurr1=   -0.60708E+00


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

---------------------------------------------------------------
Boundary type          Code    Nb faces           Mass flow
---------------------------------------------------------------
Inlet                     2         432        -0.177570269E-03
Smooth wall               5        4086         0.000000000E+00
Rough wall                6           0         0.000000000E+00
Symmetry                  4           0         0.000000000E+00
Free outlet               3        1872         0.177570270E-03
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 :  0.00000E+00 0.00000E+00
   Friction velocity        uet   :  0.16896E-03 0.57294E+02
   Friction velocity        uk    :  0.16896E-03 0.57294E+02
   Dimensionless distance   yplus :  0.49365E-05 0.74612E+01
   Friction thermal sca.    tstar :  0.00000E+00 0.00000E+00
   Rough dim-less th. sca.  tplus :  0.30117E-05 0.49741E+01
   ------------------------------------------------------
   Nb of reversal of the velocity at the wall   :          0
   Nb of faces within the viscous sub-layer     :       4086
   Total number of wall faces                   :       4086
------------------------------------------------------------


  Hydrostatic pressure computation: 
         updating the Dirichlets at the end (CALHYD)


   ** SOLVING VARIABLE enthalpy        
      ----------------

  Calcul des termes sources pour la variable : Enthalpy
 enthalpy         : CV-DIF-TS    1 IT - RES=  0.13649E+00 NORM=  0.16294E+07

   ** SOLVING VARIABLE elec_pot_r      
      ----------------

@
@ @@ WARNING: elec_pot CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Gr_PotRX    -0.23584E+06   0.23584E+06
v  Gr_PotRY    -0.23584E+06   0.23584E+06
v  Gr_PotRZ     0.47730E+01   0.20374E+06
v  Cour_ReX    -0.18225E+08   0.18225E+08
v  Cour_ReY    -0.18225E+08   0.18225E+08
v  Cour_ReZ    -0.82135E+08  -0.63070E-03

 Courant impose/Courant=    0.10571E+01, Coeff. recalage=    0.10571E+01
  DTJ =    11.802924702720105     

 Cpmx   =    0.15364E+02
 COEPOA =    0.10571E+01
 COEPOT =    0.15364E+02

 Dpot recale     =    0.15364E+05

   ** SOLVING VARIABLE vec_potential_01
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_02
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_03
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Ch_MagX     -0.19449E+01   0.19449E+01
v  Ch_MagY     -0.19449E+01   0.19449E+01
v  Ch_MagZ     -0.32775E-02   0.32775E-02
-----------------------------------------                    

   ** INFORMATION ON CONVERGENCE
      --------------------------
-----------------------------------------------------------------------------
   Variable    Rhs norm      N_iter  Norm. residual      Drift  Time residual
-----------------------------------------------------------------------------
c  Velocity     0.35167E+02       8   0.37639E-05   0.14149E+08 0.10835E+08 
c  Velocity[X]                                      0.34925E+06 
c  Velocity[Y]                                      0.34925E+06 
c  Velocity[Z]                                      0.13450E+08 
c  Pressure     0.65916E-02     451   0.19513E+00   0.10319E+04 0.96934E+09 
c  Enthalpy     0.16294E+07       5   0.83765E-07   0.55810E+14 0.68516E+06 
c  elec_pot_r   0.10509E+05      92   0.16379E-03   0.13809E+15 0.93501E+08 
c  POT_VEC01    0.14799E-07     135   0.78731E-01   0.61114E-06 0.93591E+08 
c  POT_VEC02    0.14799E-07     130   0.78731E-01   0.61114E-06 0.93591E+08 
c  POT_VEC03    0.87523E-06     231   0.45858E+00   0.67619E+02 0.93426E+08 
-----------------------------------------------------------------------------
  
  

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

   field          initial min     initial max  clips to min  clips to max
-  ----------  --------------  --------------  ------------  ------------
a  Enthalpy  
a  elec_pot_r
a  POT_VEC01 
a  POT_VEC02 
a  POT_VEC03 


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

   field                   minimum         maximum        set mean    spatial mean
-  ---------------  --------------  --------------  --------------  --------------
v  Velocity[X]             -62.713          62.713     5.0574e-009      1.076e-011
v  Velocity[Y]             -62.713          62.713    -3.0535e-009    -7.6725e-012
v  Velocity[Z]             -26.907          754.28          20.213        0.073112
v  ǁVelocityǁ         0.00012307          754.28          20.683        0.080424
v  Pressure           -1.5521e+005     1.3568e+006           89749    -1.4156e+005
v  Enthalpy                  13743     5.9663e+006     3.9415e+005           15967
v  elec_pot_r               -15362         -2.7289         -3957.7         -406.62
v  POT_VEC01           -9.592e-006      9.592e-006     2.4622e-011    -3.5936e-013
v  POT_VEC02           -9.592e-006      9.592e-006     2.6259e-011     7.3281e-012
v  POT_VEC03            -0.0096404    -3.9532e-005      -0.0025131     -0.00022747
v  Density                0.047696          1.6225          1.5207           1.622
v  LamVisc             3.4224e-005      0.00026966     4.9418e-005     3.4302e-005
v  CourantNb           1.3575e-009         0.24038       0.0023563     3.0729e-006
v  FourierNb           3.5727e-007         0.15904        0.004226     1.6538e-005
v  total_pressure           -53888     1.4581e+006     1.9107e+005          -40235
v  temperature                 300           10001          925.34          303.22
v  joule_power              2242.8     5.6707e+014      2.136e+013     8.2739e+010
v  current_re_1       -2.8001e+008     2.8001e+008          3.0923      -0.0016666
v  current_re_2       -2.8001e+008     2.8001e+008          2.2386        0.011099
v  current_re_3       -1.2619e+009      -0.0096903    -5.9782e+007    -2.2227e+005
v  For_Lap1           -3.3313e+008     3.3313e+008        -0.90596       0.0030818
v  For_Lap2           -3.3313e+008     3.3313e+008         -0.8826      -0.0047946
v  For_Lap3           -5.8523e+007     6.7512e+007          15.085           11.87
v  TS_radia                      0     3.1747e+007     1.9663e+006           10320
v  SpecHeat                 520.33          1458.2          579.51          520.64
v  Th Diff             5.1337e-005      0.00046698     7.6692e-005     5.1467e-005
v  elec_pot_r Diff      0.00013214            2991          190.93         0.98828

  ** Computed fields on boundary_faces
     ---------------------------------

   field                    minimum         maximum        set mean    spatial mean
-  ----------------  --------------  --------------  --------------  --------------
v  Temperature                  300           10000          1456.5          310.39
v  Boundary Density        0.047696          1.6225          1.4347          1.6208
v  Yplus                          0          7.4612          1.3304         0.19272


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

   criterion               minimum         maximum        set mean    spatial mean
   ---------------  --------------  --------------  --------------  --------------
   Courant/Fourier     3.6014e-007         0.38518       0.0065823      1.961e-005


 INSTANT    0.300000000E-07   TIME STEP NUMBER               3
 ============================================================= 


 --- Diffusivity:
 -----------------------------------------------
 Scalar           Number  Min. value  Max. value
 -----------------------------------------------
 Enthalpy              1  0.5134E-04  0.4672E-03
 elec_pot_r            2  0.1321E-03  0.2990E+04
 POT_VEC01             3  0.1000E+01  0.1000E+01
 POT_VEC02             4  0.1000E+01  0.1000E+01
 POT_VEC03             5  0.1000E+01  0.1000E+01
 -----------------------------------------------


Inlet Velocity =    0.51873E+01

elcurr =    0.96944E+01

elcurr1=   -0.60708E+00


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

---------------------------------------------------------------
Boundary type          Code    Nb faces           Mass flow
---------------------------------------------------------------
Inlet                     2         432        -0.177570269E-03
Smooth wall               5        4086         0.000000000E+00
Rough wall                6           0         0.000000000E+00
Symmetry                  4           0         0.000000000E+00
Free outlet               3        1872         0.177570269E-03
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 :  0.00000E+00 0.00000E+00
   Friction velocity        uet   :  0.28699E-03 0.58068E+02
   Friction velocity        uk    :  0.28699E-03 0.58068E+02
   Dimensionless distance   yplus :  0.56209E-05 0.75571E+01
   Friction thermal sca.    tstar :  0.00000E+00 0.00000E+00
   Rough dim-less th. sca.  tplus :  0.34293E-05 0.50380E+01
   ------------------------------------------------------
   Nb of reversal of the velocity at the wall   :          0
   Nb of faces within the viscous sub-layer     :       4086
   Total number of wall faces                   :       4086
------------------------------------------------------------


  Hydrostatic pressure computation: 
         updating the Dirichlets at the end (CALHYD)


   ** SOLVING VARIABLE enthalpy        
      ----------------

  Calcul des termes sources pour la variable : Enthalpy
@
@ @@ WARNING: enthalpy CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE elec_pot_r      
      ----------------

@
@ @@ WARNING: elec_pot CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Gr_PotRX    -0.36271E+07   0.36271E+07
v  Gr_PotRY    -0.36271E+07   0.36271E+07
v  Gr_PotRZ     0.73353E+02   0.31307E+07
v  Cour_ReX    -0.28837E+09   0.28837E+09
v  Cour_ReY    -0.28837E+09   0.28837E+09
v  Cour_ReZ    -0.12713E+10  -0.96929E-02

 Courant impose/Courant=    0.69362E-01, Coeff. recalage=    0.75000E+00
  DTJ =   0.82299422470298444     

 Cpmx   =    0.40571E+01
 COEPOA =    0.69362E-01
 COEPOT =    0.69362E-01

 Dpot recale     =    0.10657E+04

   ** SOLVING VARIABLE vec_potential_01
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_02
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_03
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Ch_MagX     -0.48539E+00   0.48539E+00
v  Ch_MagY     -0.48539E+00   0.48539E+00
v  Ch_MagZ     -0.96052E-03   0.96052E-03
-----------------------------------------                    

   ** INFORMATION ON CONVERGENCE
      --------------------------
-----------------------------------------------------------------------------
   Variable    Rhs norm      N_iter  Norm. residual      Drift  Time residual
-----------------------------------------------------------------------------
c  Velocity     0.44274E+01       9   0.26625E-04   0.35431E+07 0.54163E+07 
c  Velocity[X]                                      0.16081E+07 
c  Velocity[Y]                                      0.16081E+07 
c  Velocity[Z]                                      0.32687E+06 
c  Pressure     0.33731E-03     427   0.29280E+00   0.51628E+02 0.76578E+08 
c  Enthalpy     0.16577E+07      10   0.37172E-04   0.15864E+21 0.93811E+08 
c  elec_pot_r   0.16086E+06      85   0.20390E-04   0.13678E+15 0.13397E+10 
c  POT_VEC01    0.15973E-08     165   0.73188E+00   0.60780E-06 0.13954E+10 
c  POT_VEC02    0.15973E-08     156   0.73188E+00   0.60780E-06 0.13954E+10 
c  POT_VEC03    0.43408E-06     238   0.10783E+01   0.67758E+02 0.14428E+10 
-----------------------------------------------------------------------------
  
  

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

   field          initial min     initial max  clips to min  clips to max
-  ----------  --------------  --------------  ------------  ------------
a  Enthalpy  
a  elec_pot_r
a  POT_VEC01 
a  POT_VEC02 
a  POT_VEC03 


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

   field                   minimum         maximum        set mean    spatial mean
-  ---------------  --------------  --------------  --------------  --------------
v  Velocity[X]             -63.076          63.076    -2.6819e-007    -3.2492e-010
v  Velocity[Y]             -63.076          63.076     2.9513e-007     4.4139e-010
v  Velocity[Z]             -21.453           754.6          20.298        0.073206
v  ǁVelocityǁ         0.00014457           754.6          20.868        0.081143
v  Pressure           -1.6391e+005           20041    -1.2539e+005     -1.616e+005
v  Enthalpy                  13705     1.2293e+008     4.8384e+006           33229
v  elec_pot_r              -1065.6        -0.18785         -274.72         -28.225
v  POT_VEC01          -7.1295e-007     7.1295e-007     -4.002e-012    -4.4814e-014
v  POT_VEC02          -7.1295e-007     7.1295e-007      2.538e-013     1.1605e-013
v  POT_VEC03           -0.00063238    -2.6782e-006     -0.00016377    -1.5316e-005
v  Density                0.047696          1.6225          1.5207           1.622
v  LamVisc             3.4224e-005      0.00026965     4.9391e-005     3.4302e-005
v  CourantNb           1.3578e-009          0.2323        0.002478     3.2728e-006
v  FourierNb           3.5727e-007         0.15875       0.0042177     1.6528e-005
v  total_pressure           -62588     1.2137e+005          -24061          -60270
v  temperature                 300           10000          923.61          303.22
v  joule_power              10.788     2.7438e+012     1.0349e+011     3.9486e+008
v  current_re_1       -2.0002e+007     2.0002e+007        -0.38414      0.00018531
v  current_re_2       -2.0002e+007     2.0002e+007         0.13265      0.00018486
v  current_re_3       -8.8177e+007     -0.00067232    -4.1337e+006          -15294
v  For_Lap1           -1.9586e+007     1.9586e+007       0.0068024     -0.00018547
v  For_Lap2           -1.9586e+007     1.9586e+007         0.10152      0.00029595
v  For_Lap3           -4.2555e+006     3.8867e+006         -617.02         0.68764
v  TS_radia                      0       3.17e+007     1.8948e+006           10107
v  SpecHeat                 520.33          1457.7          578.29          520.63
v  Th Diff             5.1337e-005      0.00046724     7.6749e-005     5.1467e-005
v  elec_pot_r Diff      0.00013214            2990          188.59         0.98248

  ** Computed fields on boundary_faces
     ---------------------------------

   field                    minimum         maximum        set mean    spatial mean
-  ----------------  --------------  --------------  --------------  --------------
v  Temperature                  300           10000          1456.3          310.39
v  Boundary Density        0.047696          1.6225          1.4347          1.6208
v  Yplus                          0          7.5571          1.4252         0.19607


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

   criterion               minimum         maximum        set mean    spatial mean
   ---------------  --------------  --------------  --------------  --------------
   Courant/Fourier     3.6084e-007         0.39105       0.0066957     1.9801e-005


 INSTANT    0.400000000E-07   TIME STEP NUMBER               4
 ============================================================= 


 --- Diffusivity:
 -----------------------------------------------
 Scalar           Number  Min. value  Max. value
 -----------------------------------------------
 Enthalpy              1  0.5134E-04  0.1095E-02
 elec_pot_r            2  0.1321E-03  0.8461E+05
 POT_VEC01             3  0.1000E+01  0.1000E+01
 POT_VEC02             4  0.1000E+01  0.1000E+01
 POT_VEC03             5  0.1000E+01  0.1000E+01
 -----------------------------------------------


Inlet Velocity =    0.51873E+01

elcurr =    0.66569E+00

elcurr1=   -0.60708E+00


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

---------------------------------------------------------------
Boundary type          Code    Nb faces           Mass flow
---------------------------------------------------------------
Inlet                     2         432        -0.177570269E-03
Smooth wall               5        4086         0.000000000E+00
Rough wall                6           0         0.000000000E+00
Symmetry                  4           0         0.000000000E+00
Free outlet               3        1872         0.177570269E-03
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 :  0.00000E+00 0.00000E+00
   Friction velocity        uet   :  0.71828E-03 0.58429E+02
   Friction velocity        uk    :  0.71828E-03 0.58429E+02
   Dimensionless distance   yplus :  0.58222E-04 0.74959E+01
   Friction thermal sca.    tstar :  0.00000E+00 0.00000E+00
   Rough dim-less th. sca.  tplus :  0.44708E-04 0.49972E+01
   ------------------------------------------------------
   Nb of reversal of the velocity at the wall   :          0
   Nb of faces within the viscous sub-layer     :       4086
   Total number of wall faces                   :       4086
------------------------------------------------------------


  Hydrostatic pressure computation: 
         updating the Dirichlets at the end (CALHYD)


   ** SOLVING VARIABLE enthalpy        
      ----------------

  Calcul des termes sources pour la variable : Enthalpy
@
@ @@ WARNING: enthalpy CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE elec_pot_r      
      ----------------

@
@ @@ WARNING: elec_pot CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Gr_PotRX    -0.35316E+06   0.35316E+06
v  Gr_PotRY    -0.35316E+06   0.35316E+06
v  Gr_PotRZ     0.58191E+01   0.23482E+06
v  Cour_ReX    -0.41932E+09   0.41932E+09
v  Cour_ReY    -0.41932E+09   0.41932E+09
v  Cour_ReZ    -0.22924E+10  -0.76894E-03

 Courant impose/Courant=    0.45998E-01, Coeff. recalage=    0.75000E+00
  DTJ =    1.8324797523133369     

 Cpmx   =    0.60539E+01
 COEPOA =    0.45998E-01
 COEPOT =    0.45998E-01

 Dpot recale     =    0.49020E+02

   ** SOLVING VARIABLE vec_potential_01
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_02
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_03
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Ch_MagX     -0.21474E+00   0.21474E+00
v  Ch_MagY     -0.21474E+00   0.21474E+00
v  Ch_MagZ     -0.35698E-03   0.35698E-03
-----------------------------------------                    

   ** INFORMATION ON CONVERGENCE
      --------------------------
-----------------------------------------------------------------------------
   Variable    Rhs norm      N_iter  Norm. residual      Drift  Time residual
-----------------------------------------------------------------------------
c  Velocity     0.44544E+01       7   0.22111E-04   0.13429E+07 0.33656E+07 
c  Velocity[X]                                      0.20606E+06 
c  Velocity[Y]                                      0.20606E+06 
c  Velocity[Z]                                      0.93082E+06 
c  Pressure     0.37463E-03     403   0.23122E+00   0.81712E+02 0.20714E+08 
c  Enthalpy     0.16555E+07       7   0.68807E-05   0.52151E+16 0.53721E+06 
c  elec_pot_r   0.13619E+05     245   0.62603E-02   0.69178E+12 0.20148E+10 
c  POT_VEC01    0.91406E-09     135   0.12856E+00   0.22439E-09 0.35372E+08 
c  POT_VEC02    0.91406E-09     131   0.12856E+00   0.22439E-09 0.35372E+08 
c  POT_VEC03    0.13378E-06     212   0.15698E+01   0.78678E-01 0.33184E+08 
-----------------------------------------------------------------------------
  
  

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

   field          initial min     initial max  clips to min  clips to max
-  ----------  --------------  --------------  ------------  ------------
a  Enthalpy  
a  elec_pot_r
a  POT_VEC01 
a  POT_VEC02 
a  POT_VEC03 


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

   field                   minimum         maximum        set mean    spatial mean
-  ---------------  --------------  --------------  --------------  --------------
v  Velocity[X]             -77.732          77.732    -2.9738e-007    -5.9487e-010
v  Velocity[Y]             -77.732          77.732      4.271e-007     8.2859e-010
v  Velocity[Z]             -18.519          756.72          20.027        0.072731
v  ǁVelocityǁ        9.6832e-006          756.72          20.562        0.080725
v  Pressure            -3.738e+005          -46580    -1.6536e+005     -1.559e+005
v  Enthalpy                  12557     1.2249e+008     4.8329e+006           33248
v  elec_pot_r              -48.912       -0.018237         -13.813         -1.4456
v  POT_VEC01          -5.5965e-007     5.5966e-007     8.3969e-013      1.387e-013
v  POT_VEC02          -5.5966e-007     5.5965e-007     3.9252e-013     2.0947e-013
v  POT_VEC03           -0.00091681    -2.7217e-006      -0.0002124    -1.8041e-005
v  Density                0.045631          1.6225          1.5203           1.622
v  LamVisc             3.4224e-005      0.00027524     3.6542e-005     3.4258e-005
v  CourantNb           1.3767e-009         0.25229        0.002565     3.3836e-006
v  FourierNb           3.5727e-007        0.057352       0.0009727     1.0361e-005
v  total_pressure     -2.7248e+005           54745          -64037          -54574
v  temperature                 300           26870          1716.3          306.11
v  joule_power                0.03     1.5428e+011     5.0247e+009     1.8163e+007
v  current_re_1       -1.9288e+007     1.9288e+007        0.085374      0.00018262
v  current_re_2       -1.9288e+007     1.9288e+007         0.23109      0.00034753
v  current_re_3       -1.0544e+008     -3.537e-005    -4.1362e+006          -15316
v  For_Lap1           -1.1705e+007     1.1705e+007      -0.0052094    -1.6366e-005
v  For_Lap2           -1.1705e+007     1.1705e+007        0.018411     2.4885e-005
v  For_Lap3           -1.3565e+006      2.113e+006          949.02         0.20397
v  TS_radia                      0     4.7813e+009      2.413e+008     8.6238e+005
v  SpecHeat                 520.33           15419          1137.4          522.85
v  Th Diff             5.1337e-005       0.0010952     7.2111e-005     5.1446e-005
v  elec_pot_r Diff      0.00013214           84609          3449.2          13.451

  ** Computed fields on boundary_faces
     ---------------------------------

   field                    minimum         maximum        set mean    spatial mean
-  ----------------  --------------  --------------  --------------  --------------
v  Temperature                  300           13584          1529.8          310.74
v  Boundary Density        0.046666          1.6225          1.4347          1.6208
v  Yplus                          0          7.4959          1.4449         0.19713


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

   criterion               minimum         maximum        set mean    spatial mean
   ---------------  --------------  --------------  --------------  --------------
   Courant/Fourier     3.6136e-007         0.27628       0.0035377     1.3744e-005


 INSTANT    0.500000000E-07   TIME STEP NUMBER               5
 ============================================================= 


 --- Diffusivity:
 -----------------------------------------------
 Scalar           Number  Min. value  Max. value
 -----------------------------------------------
 Enthalpy              1  0.5134E-04  0.1094E-02
 elec_pot_r            2  0.1321E-03  0.8073E+05
 POT_VEC01             3  0.1000E+01  0.1000E+01
 POT_VEC02             4  0.1000E+01  0.1000E+01
 POT_VEC03             5  0.1000E+01  0.1000E+01
 -----------------------------------------------


Inlet Velocity =    0.51873E+01

elcurr =    0.61023E+00

elcurr1=   -0.60708E+00


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

---------------------------------------------------------------
Boundary type          Code    Nb faces           Mass flow
---------------------------------------------------------------
Inlet                     2         432        -0.177570267E-03
Smooth wall               5        4086         0.000000000E+00
Rough wall                6           0         0.000000000E+00
Symmetry                  4           0         0.000000000E+00
Free outlet               3        1872         0.177570266E-03
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 :  0.00000E+00 0.00000E+00
   Friction velocity        uet   :  0.72862E-03 0.58566E+02
   Friction velocity        uk    :  0.72862E-03 0.58566E+02
   Dimensionless distance   yplus :  0.52166E-04 0.74343E+01
   Friction thermal sca.    tstar :  0.00000E+00 0.00000E+00
   Rough dim-less th. sca.  tplus :  0.40080E-04 0.49562E+01
   ------------------------------------------------------
   Nb of reversal of the velocity at the wall   :          0
   Nb of faces within the viscous sub-layer     :       4086
   Total number of wall faces                   :       4086
------------------------------------------------------------


  Hydrostatic pressure computation: 
         updating the Dirichlets at the end (CALHYD)


   ** SOLVING VARIABLE enthalpy        
      ----------------

  Calcul des termes sources pour la variable : Enthalpy
@
@ @@ WARNING: enthalpy CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE elec_pot_r      
      ----------------

@
@ @@ WARNING: elec_pot CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Gr_PotRX    -0.16427E+05   0.16427E+05
v  Gr_PotRY    -0.16427E+05   0.16427E+05
v  Gr_PotRZ     0.27276E+00   0.10793E+05
v  Cour_ReX    -0.18241E+08   0.18241E+08
v  Cour_ReY    -0.18241E+08   0.18241E+08
v  Cour_ReZ    -0.10178E+09  -0.36043E-04

 Courant impose/Courant=    0.10405E+01, Coeff. recalage=    0.10405E+01
  DTJ =    922.45205213986651     

 Cpmx   =    0.13583E+03
 COEPOA =    0.10405E+01
 COEPOT =    0.10405E+01

 Dpot recale     =    0.51008E+02

   ** SOLVING VARIABLE vec_potential_01
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_02
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_03
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Ch_MagX     -0.17628E+00   0.17628E+00
v  Ch_MagY     -0.17628E+00   0.17628E+00
v  Ch_MagZ     -0.21363E-03   0.21362E-03
-----------------------------------------                    

   ** INFORMATION ON CONVERGENCE
      --------------------------
-----------------------------------------------------------------------------
   Variable    Rhs norm      N_iter  Norm. residual      Drift  Time residual
-----------------------------------------------------------------------------
c  Velocity     0.48290E+01       6   0.11604E-04   0.62340E+06 0.23064E+07 
c  Velocity[X]                                      0.70196E+05 
c  Velocity[Y]                                      0.70196E+05 
c  Velocity[Z]                                      0.48301E+06 
c  Pressure     0.52102E-03     364   0.58982E-01   0.14647E+03 0.10674E+08 
c  Enthalpy     0.16532E+07       7   0.98115E-05   0.68203E+16 0.61638E+06 
c  elec_pot_r   0.62366E+03     135   0.79200E-03   0.28811E+07 0.39493E+07 
c  POT_VEC01    0.89945E-09      99   0.21774E-01   0.37228E-11 0.44701E+07 
c  POT_VEC02    0.89945E-09     116   0.21774E-01   0.37228E-11 0.44701E+07 
c  POT_VEC03    0.16280E-06     205   0.90272E+00   0.57097E-01 0.39146E+08 
-----------------------------------------------------------------------------
  
  

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

   field          initial min     initial max  clips to min  clips to max
-  ----------  --------------  --------------  ------------  ------------
a  Enthalpy  
a  elec_pot_r
a  POT_VEC01 
a  POT_VEC02 
a  POT_VEC03 


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

   field                   minimum         maximum        set mean    spatial mean
-  ---------------  --------------  --------------  --------------  --------------
v  Velocity[X]             -101.55          101.55     -3.253e-007     -7.494e-010
v  Velocity[Y]             -101.55          101.55     5.0604e-007       1.04e-009
v  Velocity[Z]             -16.249          758.63          19.823        0.072426
v  ǁVelocityǁ         0.00019134          758.63          20.344        0.080603
v  Pressure           -2.6926e+005          -37012    -1.4089e+005    -1.4285e+005
v  Enthalpy                  11364      1.215e+008     4.8054e+006           33182
v  elec_pot_r              -50.899        -0.01899         -14.374         -1.5056
v  POT_VEC01          -5.5941e-007     5.5941e-007     3.1997e-013     1.3556e-013
v  POT_VEC02          -5.5941e-007     5.5941e-007    -9.8632e-014    -4.8202e-014
v  POT_VEC03           -0.00067014     -2.722e-006     -0.00017288    -1.5716e-005
v  Density                0.043665          1.6225          1.5198           1.622
v  LamVisc             3.4224e-005      0.00027521     3.6575e-005     3.4258e-005
v  CourantNb            1.417e-009         0.24934       0.0025272     3.3418e-006
v  FourierNb           3.5727e-007        0.057747       0.0010048     1.0421e-005
v  total_pressure     -1.6794e+005           64313          -39565          -41521
v  temperature                 300           26841          1716.4          306.11
v  joule_power            0.032571     1.5594e+011      5.231e+009     1.8899e+007
v  current_re_1       -1.8981e+007     1.8981e+007        0.037897      0.00021718
v  current_re_2       -1.8981e+007     1.8981e+007        0.098397    -7.3266e-005
v  current_re_3       -1.0591e+008    -3.7504e-005    -4.1347e+006          -15318
v  For_Lap1           -4.4807e+006     4.4807e+006       0.0036242     1.5582e-006
v  For_Lap2           -4.4807e+006     4.4807e+006      -0.0064807     -2.248e-006
v  For_Lap3            -8.152e+005     5.7517e+005         -106.18        0.082655
v  TS_radia                      0       4.99e+009     2.5076e+008      8.983e+005
v  SpecHeat                 520.33           15492          1136.4          522.85
v  Th Diff             5.1337e-005        0.001094     7.2226e-005     5.1446e-005
v  elec_pot_r Diff      0.00013213           80726          3309.9          12.928

  ** Computed fields on boundary_faces
     ---------------------------------

   field                    minimum         maximum        set mean    spatial mean
-  ----------------  --------------  --------------  --------------  --------------
v  Temperature                  300           13594            1530          310.74
v  Boundary Density        0.045685          1.6225          1.4346          1.6208
v  Yplus                          0          7.4343          1.4288         0.19798


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

   criterion               minimum         maximum        set mean    spatial mean
   ---------------  --------------  --------------  --------------  --------------
   Courant/Fourier     3.6184e-007         0.27438        0.003532     1.3763e-005


 INSTANT    0.600000000E-07   TIME STEP NUMBER               6
 ============================================================= 


 --- Diffusivity:
 -----------------------------------------------
 Scalar           Number  Min. value  Max. value
 -----------------------------------------------
 Enthalpy              1  0.5134E-04  0.1094E-02
 elec_pot_r            2  0.1321E-03  0.7677E+05
 POT_VEC01             3  0.1000E+01  0.1000E+01
 POT_VEC02             4  0.1000E+01  0.1000E+01
 POT_VEC03             5  0.1000E+01  0.1000E+01
 -----------------------------------------------


Inlet Velocity =    0.51873E+01

elcurr =    0.61127E+00

elcurr1=   -0.60708E+00


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

---------------------------------------------------------------
Boundary type          Code    Nb faces           Mass flow
---------------------------------------------------------------
Inlet                     2         432        -0.177570264E-03
Smooth wall               5        4086         0.000000000E+00
Rough wall                6           0         0.000000000E+00
Symmetry                  4           0         0.000000000E+00
Free outlet               3        1872         0.177570265E-03
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 :  0.00000E+00 0.00000E+00
   Friction velocity        uet   :  0.74178E-03 0.58679E+02
   Friction velocity        uk    :  0.74178E-03 0.58679E+02
   Dimensionless distance   yplus :  0.58216E-04 0.73796E+01
   Friction thermal sca.    tstar :  0.00000E+00 0.00000E+00
   Rough dim-less th. sca.  tplus :  0.44747E-04 0.49196E+01
   ------------------------------------------------------
   Nb of reversal of the velocity at the wall   :          0
   Nb of faces within the viscous sub-layer     :       4086
   Total number of wall faces                   :       4086
------------------------------------------------------------


  Hydrostatic pressure computation: 
         updating the Dirichlets at the end (CALHYD)


   ** SOLVING VARIABLE enthalpy        
      ----------------

  Calcul des termes sources pour la variable : Enthalpy
@
@ @@ WARNING: enthalpy CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE elec_pot_r      
      ----------------

@
@ @@ WARNING: elec_pot CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Gr_PotRX    -0.17078E+05   0.17078E+05
v  Gr_PotRY    -0.17078E+05   0.17078E+05
v  Gr_PotRZ     0.28419E+00   0.11229E+05
v  Cour_ReX    -0.17538E+08   0.17538E+08
v  Cour_ReY    -0.17538E+08   0.17538E+08
v  Cour_ReZ    -0.10158E+09  -0.37553E-04

 Courant impose/Courant=    0.10447E+01, Coeff. recalage=    0.10447E+01
  DTJ =    915.09168675400474     

 Cpmx   =    0.13528E+03
 COEPOA =    0.10447E+01
 COEPOT =    0.10447E+01

 Dpot recale     =    0.53289E+02

   ** SOLVING VARIABLE vec_potential_01
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_02
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_03
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Ch_MagX     -0.13475E+00   0.13475E+00
v  Ch_MagY     -0.13475E+00   0.13475E+00
v  Ch_MagZ     -0.21904E-03   0.21904E-03
-----------------------------------------                    

   ** INFORMATION ON CONVERGENCE
      --------------------------
-----------------------------------------------------------------------------
   Variable    Rhs norm      N_iter  Norm. residual      Drift  Time residual
-----------------------------------------------------------------------------
c  Velocity     0.48999E+01       6   0.13120E-04   0.15360E+06 0.11445E+07 
c  Velocity[X]                                      0.24214E+05 
c  Velocity[Y]                                      0.24214E+05 
c  Velocity[Z]                                      0.10517E+06 
c  Pressure     0.54525E-03     412   0.11148E+00   0.19006E+03 0.15939E+08 
c  Enthalpy     0.16511E+07       7   0.92980E-05   0.70409E+16 0.62842E+06 
c  elec_pot_r   0.64592E+03     143   0.87420E-03   0.38685E+07 0.43761E+07 
c  POT_VEC01    0.90023E-09      95   0.36707E-02   0.18461E-12 0.98918E+06 
c  POT_VEC02    0.90023E-09      97   0.36707E-02   0.18461E-12 0.98918E+06 
c  POT_VEC03    0.79366E-07     207   0.90863E+00   0.69471E-02 0.12047E+08 
-----------------------------------------------------------------------------
  
  

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

   field          initial min     initial max  clips to min  clips to max
-  ----------  --------------  --------------  ------------  ------------
a  Enthalpy  
a  elec_pot_r
a  POT_VEC01 
a  POT_VEC02 
a  POT_VEC03 


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

   field                   minimum         maximum        set mean    spatial mean
-  ---------------  --------------  --------------  --------------  --------------
v  Velocity[X]             -114.32          114.32    -3.3607e-007    -8.0775e-010
v  Velocity[Y]             -114.32          114.32     5.3793e-007     1.1238e-009
v  Velocity[Z]             -13.691          760.76          19.809        0.072439
v  ǁVelocityǁ         0.00023138          760.76          20.323        0.080862
v  Pressure           -1.2931e+005          -28003    -1.0535e+005    -1.2856e+005
v  Enthalpy                  10174     1.2051e+008     4.7773e+006           33114
v  elec_pot_r               -53.18       -0.019877         -15.031         -1.5754
v  POT_VEC01          -5.5903e-007     5.5904e-007     5.4752e-013     1.3395e-013
v  POT_VEC02          -5.5904e-007     5.5904e-007    -2.7147e-013    -1.0079e-013
v  POT_VEC03           -0.00075598    -2.7216e-006     -0.00018723    -1.6525e-005
v  Density                0.041798          1.6225          1.5192           1.622
v  LamVisc             3.4224e-005      0.00027522     3.6618e-005     3.4258e-005
v  CourantNb            1.469e-009         0.24244       0.0024939      3.319e-006
v  FourierNb           3.5727e-007        0.058138       0.0010388     1.0487e-005
v  total_pressure           -27988           73322           -4020          -27239
v  temperature                 300           26776          1714.5          306.11
v  joule_power            0.035687     1.6262e+011     5.4846e+009     1.9745e+007
v  current_re_1       -1.8322e+007     1.8322e+007        0.040161      0.00018931
v  current_re_2       -1.8322e+007     1.8322e+007        0.067462     -0.00015106
v  current_re_3       -1.0612e+008    -3.9233e-005    -4.1354e+006          -15315
v  For_Lap1           -3.9149e+006     3.9149e+006     -0.00054821    -2.5362e-008
v  For_Lap2           -3.9149e+006     3.9149e+006       0.0014468    -8.5418e-007
v  For_Lap3           -5.6059e+005     7.4229e+005          314.57         0.19872
v  TS_radia                      0     5.1968e+009     2.6056e+008     9.3448e+005
v  SpecHeat                 520.33           15475          1129.9          522.84
v  Th Diff             5.1337e-005       0.0010941     7.2444e-005     5.1446e-005
v  elec_pot_r Diff      0.00013213           76769          3159.1          12.375

  ** Computed fields on boundary_faces
     ---------------------------------

   field                    minimum         maximum        set mean    spatial mean
-  ----------------  --------------  --------------  --------------  --------------
v  Temperature                  300           13596          1530.1          310.73
v  Boundary Density        0.044752          1.6225          1.4346          1.6208
v  Yplus                          0          7.3796          1.4175           0.199


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

   criterion               minimum         maximum        set mean    spatial mean
   ---------------  --------------  --------------  --------------  --------------
   Courant/Fourier     3.6227e-007         0.26857       0.0035327     1.3806e-005


 INSTANT    0.700000000E-07   TIME STEP NUMBER               7
 ============================================================= 


 --- Diffusivity:
 -----------------------------------------------
 Scalar           Number  Min. value  Max. value
 -----------------------------------------------
 Enthalpy              1  0.5134E-04  0.1091E-02
 elec_pot_r            2  0.1321E-03  0.7304E+05
 POT_VEC01             3  0.1000E+01  0.1000E+01
 POT_VEC02             4  0.1000E+01  0.1000E+01
 POT_VEC03             5  0.1000E+01  0.1000E+01
 -----------------------------------------------


Inlet Velocity =    0.51873E+01

elcurr =    0.61213E+00

elcurr1=   -0.60708E+00


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

---------------------------------------------------------------
Boundary type          Code    Nb faces           Mass flow
---------------------------------------------------------------
Inlet                     2         432        -0.177570262E-03
Smooth wall               5        4086         0.000000000E+00
Rough wall                6           0         0.000000000E+00
Symmetry                  4           0         0.000000000E+00
Free outlet               3        1872         0.177570262E-03
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 :  0.00000E+00 0.00000E+00
   Friction velocity        uet   :  0.75604E-03 0.58750E+02
   Friction velocity        uk    :  0.75604E-03 0.58750E+02
   Dimensionless distance   yplus :  0.63906E-04 0.73315E+01
   Friction thermal sca.    tstar :  0.00000E+00 0.00000E+00
   Rough dim-less th. sca.  tplus :  0.49140E-04 0.48876E+01
   ------------------------------------------------------
   Nb of reversal of the velocity at the wall   :          0
   Nb of faces within the viscous sub-layer     :       4086
   Total number of wall faces                   :       4086
------------------------------------------------------------


  Hydrostatic pressure computation: 
         updating the Dirichlets at the end (CALHYD)


   ** SOLVING VARIABLE enthalpy        
      ----------------

  Calcul des termes sources pour la variable : Enthalpy
@
@ @@ WARNING: enthalpy CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE elec_pot_r      
      ----------------

@
@ @@ WARNING: elec_pot CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Gr_PotRX    -0.17858E+05   0.17857E+05
v  Gr_PotRY    -0.17858E+05   0.17857E+05
v  Gr_PotRZ     0.29755E+00   0.11733E+05
v  Cour_ReX    -0.16392E+08   0.16392E+08
v  Cour_ReY    -0.16392E+08   0.16392E+08
v  Cour_ReZ    -0.10156E+09  -0.39319E-04

 Courant impose/Courant=    0.10445E+01, Coeff. recalage=    0.10445E+01
  DTJ =    900.44880927580027     

 Cpmx   =    0.13420E+03
 COEPOA =    0.10445E+01
 COEPOT =    0.10445E+01

 Dpot recale     =    0.55662E+02

   ** SOLVING VARIABLE vec_potential_01
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_02
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_03
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Ch_MagX     -0.13473E+00   0.13473E+00
v  Ch_MagY     -0.13473E+00   0.13473E+00
v  Ch_MagZ     -0.21580E-03   0.21579E-03
-----------------------------------------                    

   ** INFORMATION ON CONVERGENCE
      --------------------------
-----------------------------------------------------------------------------
   Variable    Rhs norm      N_iter  Norm. residual      Drift  Time residual
-----------------------------------------------------------------------------
c  Velocity     0.48381E+01       6   0.10729E-04   0.93369E+05 0.88929E+06 
c  Velocity[X]                                      0.12211E+05 
c  Velocity[Y]                                      0.12211E+05 
c  Velocity[Z]                                      0.68947E+05 
c  Pressure     0.52315E-03     394   0.10084E+00   0.20849E+03 0.12649E+08 
c  Enthalpy     0.16493E+07       7   0.67853E-05   0.72622E+16 0.64048E+06 
c  elec_pot_r   0.67175E+03     135   0.71765E-03   0.41981E+07 0.43600E+07 
c  POT_VEC01    0.90063E-09      85   0.14740E-02   0.63820E-13 0.57899E+06 
c  POT_VEC02    0.90063E-09      89   0.14741E-02   0.63820E-13 0.57898E+06 
c  POT_VEC03    0.93532E-07     199   0.50803E+00   0.50760E-02 0.11453E+08 
-----------------------------------------------------------------------------
  
  

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

   field          initial min     initial max  clips to min  clips to max
-  ----------  --------------  --------------  ------------  ------------
a  Enthalpy  
a  elec_pot_r
a  POT_VEC01 
a  POT_VEC02 
a  POT_VEC03 


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

   field                   minimum         maximum        set mean    spatial mean
-  ---------------  --------------  --------------  --------------  --------------
v  Velocity[X]             -122.53          122.53     -3.415e-007    -8.2188e-010
v  Velocity[Y]             -122.53          122.53     5.5146e-007     1.1456e-009
v  Velocity[Z]             -12.391          763.21          19.901        0.072609
v  ǁVelocityǁ         0.00027546          763.21          20.413        0.081303
v  Pressure           -1.1691e+005           23144          -82538    -1.1557e+005
v  Enthalpy                 8957.1     1.1951e+008     4.7483e+006           33043
v  elec_pot_r              -55.552       -0.020802         -15.716         -1.6483
v  POT_VEC01          -5.5867e-007     5.5867e-007     3.1672e-013      1.082e-013
v  POT_VEC02          -5.5867e-007     5.5867e-007     2.6696e-014    -1.9939e-014
v  POT_VEC03           -0.00068242    -2.7213e-006     -0.00017547     -1.583e-005
v  Density                0.040027          1.6225          1.5185           1.622
v  LamVisc             3.4224e-005      0.00027523     3.6662e-005     3.4258e-005
v  CourantNb           1.5262e-009         0.23916       0.0024825     3.3224e-006
v  FourierNb           3.5727e-007        0.061618       0.0010747     1.0554e-005
v  total_pressure           -15582     1.2447e+005           18787          -14247
v  temperature                 300           26711          1712.6           306.1
v  joule_power            0.039092     1.7072e+011     5.7429e+009     2.0624e+007
v  current_re_1       -1.7122e+007     1.7121e+007        0.024637      0.00016494
v  current_re_2       -1.7122e+007     1.7122e+007         0.10559    -3.3334e-005
v  current_re_3       -1.0609e+008    -4.1069e-005    -4.1349e+006          -15314
v  For_Lap1           -1.3956e+006     1.3956e+006       0.0018192     1.3982e-006
v  For_Lap2           -1.3956e+006     1.3956e+006      -0.0031986    -2.3357e-006
v  For_Lap3            -1.417e+005     1.2957e+005          62.435         0.11198
v  TS_radia                      0     5.4094e+009     2.7052e+008     9.7139e+005
v  SpecHeat                 520.33           15461          1123.2          522.83
v  Th Diff             5.1337e-005        0.001091     7.2683e-005     5.1447e-005
v  elec_pot_r Diff      0.00013214           73039          3017.1           11.85

  ** Computed fields on boundary_faces
     ---------------------------------

   field                    minimum         maximum        set mean    spatial mean
-  ----------------  --------------  --------------  --------------  --------------
v  Temperature                  300           13598          1530.2          310.73
v  Boundary Density        0.043866          1.6225          1.4346          1.6208
v  Yplus                          0          7.3315           1.416         0.20019


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

   criterion               minimum         maximum        set mean    spatial mean
   ---------------  --------------  --------------  --------------  --------------
   Courant/Fourier     3.6267e-007         0.26662       0.0035573     1.3877e-005


 INSTANT    0.800000000E-07   TIME STEP NUMBER               8
 ============================================================= 


 --- Diffusivity:
 -----------------------------------------------
 Scalar           Number  Min. value  Max. value
 -----------------------------------------------
 Enthalpy              1  0.5134E-04  0.1090E-02
 elec_pot_r            2  0.1321E-03  0.6952E+05
 POT_VEC01             3  0.1000E+01  0.1000E+01
 POT_VEC02             4  0.1000E+01  0.1000E+01
 POT_VEC03             5  0.1000E+01  0.1000E+01
 -----------------------------------------------


Inlet Velocity =    0.51873E+01

elcurr =    0.61304E+00

elcurr1=   -0.60708E+00


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

---------------------------------------------------------------
Boundary type          Code    Nb faces           Mass flow
---------------------------------------------------------------
Inlet                     2         432        -0.177570260E-03
Smooth wall               5        4086         0.000000000E+00
Rough wall                6           0         0.000000000E+00
Symmetry                  4           0         0.000000000E+00
Free outlet               3        1872         0.177570260E-03
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 :  0.00000E+00 0.00000E+00
   Friction velocity        uet   :  0.77062E-03 0.58780E+02
   Friction velocity        uk    :  0.77062E-03 0.58780E+02
   Dimensionless distance   yplus :  0.69049E-04 0.72892E+01
   Friction thermal sca.    tstar :  0.00000E+00 0.00000E+00
   Rough dim-less th. sca.  tplus :  0.53116E-04 0.48594E+01
   ------------------------------------------------------
   Nb of reversal of the velocity at the wall   :          0
   Nb of faces within the viscous sub-layer     :       4086
   Total number of wall faces                   :       4086
------------------------------------------------------------


  Hydrostatic pressure computation: 
         updating the Dirichlets at the end (CALHYD)


   ** SOLVING VARIABLE enthalpy        
      ----------------

  Calcul des termes sources pour la variable : Enthalpy
@
@ @@ WARNING: enthalpy CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE elec_pot_r      
      ----------------

@
@ @@ WARNING: elec_pot CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Gr_PotRX    -0.18663E+05   0.18663E+05
v  Gr_PotRY    -0.18663E+05   0.18663E+05
v  Gr_PotRZ     0.31138E+00   0.12255E+05
v  Cour_ReX    -0.15384E+08   0.15384E+08
v  Cour_ReY    -0.15384E+08   0.15384E+08
v  Cour_ReZ    -0.10156E+09  -0.41146E-04

 Courant impose/Courant=    0.10439E+01, Coeff. recalage=    0.10439E+01
  DTJ =    885.95430131218700     

 Cpmx   =    0.13311E+03
 COEPOA =    0.10439E+01
 COEPOT =    0.10439E+01

 Dpot recale     =    0.58107E+02

   ** SOLVING VARIABLE vec_potential_01
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_02
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_03
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Ch_MagX     -0.13471E+00   0.13471E+00
v  Ch_MagY     -0.13471E+00   0.13471E+00
v  Ch_MagZ     -0.20843E-03   0.20843E-03
-----------------------------------------                    

   ** INFORMATION ON CONVERGENCE
      --------------------------
-----------------------------------------------------------------------------
   Variable    Rhs norm      N_iter  Norm. residual      Drift  Time residual
-----------------------------------------------------------------------------
c  Velocity     0.47266E+01       5   0.12018E-04   0.83647E+05 0.83864E+06 
c  Velocity[X]                                      0.74391E+04 
c  Velocity[Y]                                      0.74391E+04 
c  Velocity[Z]                                      0.68769E+05 
c  Pressure     0.48204E-03     360   0.36373E-01   0.21023E+03 0.10816E+08 
c  Enthalpy     0.16476E+07       7   0.40639E-05   0.74847E+16 0.65260E+06 
c  elec_pot_r   0.69860E+03     137   0.57490E-03   0.44365E+07 0.42898E+07 
c  POT_VEC01    0.90095E-09      85   0.10029E-02   0.55913E-13 0.53962E+06 
c  POT_VEC02    0.90095E-09      89   0.10029E-02   0.55913E-13 0.53962E+06 
c  POT_VEC03    0.70906E-07     193   0.34730E+00   0.68277E-03 0.40348E+07 
-----------------------------------------------------------------------------
  
  

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

   field          initial min     initial max  clips to min  clips to max
-  ----------  --------------  --------------  ------------  ------------
a  Enthalpy  
a  elec_pot_r
a  POT_VEC01 
a  POT_VEC02 
a  POT_VEC03 


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

   field                   minimum         maximum        set mean    spatial mean
-  ---------------  --------------  --------------  --------------  --------------
v  Velocity[X]             -128.54          128.54    -3.4402e-007     -8.184e-010
v  Velocity[Y]             -128.54          128.54     5.5575e-007      1.142e-009
v  Velocity[Z]             -11.282          765.73          20.002        0.072783
v  ǁVelocityǁ          0.0003209          765.74          20.513        0.081752
v  Pressure           -1.0556e+005           30997          -71611    -1.0423e+005
v  Enthalpy                 7757.7     1.1851e+008     4.7184e+006           32970
v  elec_pot_r              -57.996       -0.021747         -16.418         -1.7228
v  POT_VEC01          -5.5824e-007     5.5824e-007     4.2885e-013     1.0774e-013
v  POT_VEC02          -5.5824e-007     5.5824e-007       1.24e-014    -2.2477e-014
v  POT_VEC03           -0.00070932    -2.7211e-006     -0.00017992    -1.6083e-005
v  Density                0.038347          1.6225          1.5177           1.622
v  LamVisc             3.4224e-005      0.00027523     3.6708e-005     3.4258e-005
v  CourantNb           1.5857e-009          0.2383       0.0024838     3.3378e-006
v  FourierNb           3.5727e-007        0.065525       0.0011122     1.0625e-005
v  total_pressure          -4231.6     1.3232e+005           29714         -2904.3
v  temperature                 300           26645          1710.4           306.1
v  joule_power            0.042728     1.7956e+011     6.0095e+009      2.153e+007
v  current_re_1        -1.606e+007      1.606e+007        0.030299      0.00015467
v  current_re_2        -1.606e+007      1.606e+007        0.086575    -3.7146e-005
v  current_re_3       -1.0602e+008    -4.2953e-005    -4.1346e+006          -15313
v  For_Lap1           -1.7101e+006     1.7101e+006      0.00037083     6.9302e-007
v  For_Lap2           -1.7101e+006     1.7101e+006     -0.00077909    -1.6468e-006
v  For_Lap3           -2.6956e+005     3.0225e+005          184.46         0.13536
v  TS_radia                      0     5.6275e+009     2.8045e+008     1.0089e+006
v  SpecHeat                 520.33           15449          1116.2          522.81
v  Th Diff             5.1337e-005       0.0010903     7.2947e-005     5.1447e-005
v  elec_pot_r Diff      0.00013214           69519          2883.7          11.355

  ** Computed fields on boundary_faces
     ---------------------------------

   field                    minimum         maximum        set mean    spatial mean
-  ----------------  --------------  --------------  --------------  --------------
v  Temperature                  300           13600          1530.2          310.73
v  Boundary Density        0.043023          1.6225          1.4346          1.6208
v  Yplus                          0          7.2892          1.4194         0.20146


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

   criterion               minimum         maximum        set mean    spatial mean
   ---------------  --------------  --------------  --------------  --------------
   Courant/Fourier     3.6304e-007         0.26728        0.003596     1.3962e-005


 INSTANT    0.900000000E-07   TIME STEP NUMBER               9
 ============================================================= 


 --- Diffusivity:
 -----------------------------------------------
 Scalar           Number  Min. value  Max. value
 -----------------------------------------------
 Enthalpy              1  0.5134E-04  0.1094E-02
 elec_pot_r            2  0.1321E-03  0.6620E+05
 POT_VEC01             3  0.1000E+01  0.1000E+01
 POT_VEC02             4  0.1000E+01  0.1000E+01
 POT_VEC03             5  0.1000E+01  0.1000E+01
 -----------------------------------------------


Inlet Velocity =    0.51873E+01

elcurr =    0.61394E+00

elcurr1=   -0.60708E+00


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

---------------------------------------------------------------
Boundary type          Code    Nb faces           Mass flow
---------------------------------------------------------------
Inlet                     2         432        -0.177570258E-03
Smooth wall               5        4086         0.000000000E+00
Rough wall                6           0         0.000000000E+00
Symmetry                  4           0         0.000000000E+00
Free outlet               3        1872         0.177570258E-03
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 :  0.00000E+00 0.00000E+00
   Friction velocity        uet   :  0.78518E-03 0.58774E+02
   Friction velocity        uk    :  0.78518E-03 0.58774E+02
   Dimensionless distance   yplus :  0.73618E-04 0.72519E+01
   Friction thermal sca.    tstar :  0.00000E+00 0.00000E+00
   Rough dim-less th. sca.  tplus :  0.56654E-04 0.48346E+01
   ------------------------------------------------------
   Nb of reversal of the velocity at the wall   :          0
   Nb of faces within the viscous sub-layer     :       4086
   Total number of wall faces                   :       4086
------------------------------------------------------------


  Hydrostatic pressure computation: 
         updating the Dirichlets at the end (CALHYD)


   ** SOLVING VARIABLE enthalpy        
      ----------------

  Calcul des termes sources pour la variable : Enthalpy
@
@ @@ WARNING: enthalpy CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE elec_pot_r      
      ----------------

@
@ @@ WARNING: elec_pot CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Gr_PotRX    -0.19462E+05   0.19462E+05
v  Gr_PotRY    -0.19462E+05   0.19462E+05
v  Gr_PotRZ     0.32547E+00   0.12791E+05
v  Cour_ReX    -0.14507E+08   0.14507E+08
v  Cour_ReY    -0.14507E+08   0.14507E+08
v  Cour_ReZ    -0.10150E+09  -0.43007E-04

 Courant impose/Courant=    0.10434E+01, Coeff. recalage=    0.10434E+01
  DTJ =    872.35060468031634     

 Cpmx   =    0.13209E+03
 COEPOA =    0.10434E+01
 COEPOT =    0.10434E+01

 Dpot recale     =    0.60628E+02

   ** SOLVING VARIABLE vec_potential_01
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_02
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_03
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Ch_MagX     -0.13469E+00   0.13469E+00
v  Ch_MagY     -0.13469E+00   0.13469E+00
v  Ch_MagZ     -0.20114E-03   0.20113E-03
-----------------------------------------                    

   ** INFORMATION ON CONVERGENCE
      --------------------------
-----------------------------------------------------------------------------
   Variable    Rhs norm      N_iter  Norm. residual      Drift  Time residual
-----------------------------------------------------------------------------
c  Velocity     0.46043E+01       5   0.11084E-04   0.75970E+05 0.79694E+06 
c  Velocity[X]                                      0.48492E+04 
c  Velocity[Y]                                      0.48492E+04 
c  Velocity[Z]                                      0.66272E+05 
c  Pressure     0.43396E-03     352   0.19608E-01   0.20279E+03 0.10821E+08 
c  Enthalpy     0.16460E+07       7   0.79475E-05   0.78506E+16 0.67091E+06 
c  elec_pot_r   0.72625E+03     149   0.48453E-03   0.46983E+07 0.42279E+07 
c  POT_VEC01    0.90123E-09      81   0.69386E-03   0.48705E-13 0.50155E+06 
c  POT_VEC02    0.90123E-09      86   0.69387E-03   0.48705E-13 0.50155E+06 
c  POT_VEC03    0.76905E-07     183   0.20250E+00   0.48706E-03 0.35254E+07 
-----------------------------------------------------------------------------
  
  

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

   field          initial min     initial max  clips to min  clips to max
-  ----------  --------------  --------------  ------------  ------------
a  Enthalpy  
a  elec_pot_r
a  POT_VEC01 
a  POT_VEC02 
a  POT_VEC03 


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

   field                   minimum         maximum        set mean    spatial mean
-  ---------------  --------------  --------------  --------------  --------------
v  Velocity[X]             -134.79          134.79    -3.4801e-007     -8.077e-010
v  Velocity[Y]             -134.79          134.79      5.599e-007      1.128e-009
v  Velocity[Z]             -10.459           768.3          20.073        0.072911
v  ǁVelocityǁ         0.00036604           768.3          20.583        0.082151
v  Pressure                 -95338           15785          -65301          -94230
v  Enthalpy                 6595.8      1.175e+008     4.6875e+006           32893
v  elec_pot_r              -60.515       -0.022713         -17.139         -1.7992
v  POT_VEC01          -5.5776e-007     5.5776e-007     4.2814e-013     1.3262e-013
v  POT_VEC02          -5.5776e-007     5.5776e-007     4.0986e-014    -1.8459e-014
v  POT_VEC03           -0.00068651    -2.7208e-006     -0.00017629    -1.5867e-005
v  Density                0.036752          1.6225          1.5169           1.622
v  LamVisc             3.4224e-005      0.00027524      3.676e-005     3.4258e-005
v  CourantNb           1.6462e-009         0.23948       0.0024865     3.3532e-006
v  FourierNb           3.5727e-007        0.069834       0.0011521     1.0699e-005
v  total_pressure           5986.8     1.1711e+005           36024          7094.7
v  temperature                 300           26580          1708.1           306.1
v  joule_power            0.046618     1.8798e+011     6.2843e+009     2.2464e+007
v  current_re_1       -1.5136e+007     1.5136e+007        0.032927      0.00019713
v  current_re_2       -1.5136e+007     1.5136e+007        0.090448    -3.2944e-005
v  current_re_3        -1.059e+008    -4.4872e-005    -4.1343e+006          -15311
v  For_Lap1           -1.3705e+006     1.3705e+006       0.0011868     1.0509e-006
v  For_Lap2           -1.3705e+006     1.3705e+006      -0.0020149    -2.0152e-006
v  For_Lap3                 -90493           73798          111.76         0.11134
v  TS_radia                      0     5.8511e+009     2.9038e+008      1.047e+006
v  SpecHeat                 520.33           15441          1108.9           522.8
v  Th Diff             5.1337e-005       0.0010938     7.3257e-005     5.1448e-005
v  elec_pot_r Diff      0.00013214           66196          2758.1          10.887

  ** Computed fields on boundary_faces
     ---------------------------------

   field                    minimum         maximum        set mean    spatial mean
-  ----------------  --------------  --------------  --------------  --------------
v  Temperature                  300           13602          1530.2          310.72
v  Boundary Density        0.042222          1.6225          1.4345          1.6208
v  Yplus                          0          7.2519          1.4229         0.20272


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

   criterion               minimum         maximum        set mean    spatial mean
   ---------------  --------------  --------------  --------------  --------------
   Courant/Fourier     3.6339e-007         0.26845       0.0036386     1.4053e-005


 INSTANT    0.100000000E-06   TIME STEP NUMBER              10
 ============================================================= 


 --- Diffusivity:
 -----------------------------------------------
 Scalar           Number  Min. value  Max. value
 -----------------------------------------------
 Enthalpy              1  0.5134E-04  0.1089E-02
 elec_pot_r            2  0.1321E-03  0.6306E+05
 POT_VEC01             3  0.1000E+01  0.1000E+01
 POT_VEC02             4  0.1000E+01  0.1000E+01
 POT_VEC03             5  0.1000E+01  0.1000E+01
 -----------------------------------------------


Inlet Velocity =    0.51873E+01

elcurr =    0.61482E+00

elcurr1=   -0.60708E+00


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

---------------------------------------------------------------
Boundary type          Code    Nb faces           Mass flow
---------------------------------------------------------------
Inlet                     2         432        -0.177570256E-03
Smooth wall               5        4086         0.000000000E+00
Rough wall                6           0         0.000000000E+00
Symmetry                  4           0         0.000000000E+00
Free outlet               3        1872         0.177570256E-03
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 :  0.00000E+00 0.00000E+00
   Friction velocity        uet   :  0.79955E-03 0.58732E+02
   Friction velocity        uk    :  0.79955E-03 0.58732E+02
   Dimensionless distance   yplus :  0.77580E-04 0.72191E+01
   Friction thermal sca.    tstar :  0.00000E+00 0.00000E+00
   Rough dim-less th. sca.  tplus :  0.59728E-04 0.48126E+01
   ------------------------------------------------------
   Nb of reversal of the velocity at the wall   :          0
   Nb of faces within the viscous sub-layer     :       4086
   Total number of wall faces                   :       4086
------------------------------------------------------------


Incoming flow detained for         36 outlet faces on       1872
  Hydrostatic pressure computation: 
         updating the Dirichlets at the end (CALHYD)


   ** SOLVING VARIABLE enthalpy        
      ----------------

  Calcul des termes sources pour la variable : Enthalpy
@
@ @@ WARNING: enthalpy CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE elec_pot_r      
      ----------------

@
@ @@ WARNING: elec_pot CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Gr_PotRX    -0.20275E+05   0.20275E+05
v  Gr_PotRY    -0.20275E+05   0.20275E+05
v  Gr_PotRZ     0.33950E+00   0.13344E+05
v  Cour_ReX    -0.14077E+08   0.14077E+08
v  Cour_ReY    -0.14077E+08   0.14077E+08
v  Cour_ReZ    -0.10139E+09  -0.44861E-04

 Courant impose/Courant=    0.10431E+01, Coeff. recalage=    0.10431E+01
  DTJ =    859.95477050783961     

 Cpmx   =    0.13115E+03
 COEPOA =    0.10431E+01
 COEPOT =    0.10431E+01

 Dpot recale     =    0.63243E+02

   ** SOLVING VARIABLE vec_potential_01
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_02
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

   ** SOLVING VARIABLE vec_potential_03
      ----------------

  Calcul des termes sources pour la variable : POT_VEC0
@
@ @@ WARNING: vec_pote CONVECTION-DIFFUSION-SOURCE TERMS
@    ========
@  Maximum number of iterations          1 reached
@

-----------------------------------------                    
   Variable         Minimum       Maximum                    
-----------------------------------------                    
v  Ch_MagX     -0.13467E+00   0.13467E+00
v  Ch_MagY     -0.13467E+00   0.13467E+00
v  Ch_MagZ     -0.19534E-03   0.19533E-03
-----------------------------------------                    


 Write final restart files
   checkpoint at iteration         10, Physical time    0.10000E-06


   ** 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 the external forces                      
   End writing the electric information                 
 End writing

   ** INFORMATION ON CONVERGENCE
      --------------------------
-----------------------------------------------------------------------------
   Variable    Rhs norm      N_iter  Norm. residual      Drift  Time residual
-----------------------------------------------------------------------------
c  Velocity     0.44893E+01       5   0.83946E-05   0.78245E+05 0.80691E+06 
c  Velocity[X]                                      0.35525E+04 
c  Velocity[Y]                                      0.35525E+04 
c  Velocity[Z]                                      0.71140E+05 
c  Pressure     0.38451E-03     356   0.24763E-01   0.19184E+03 0.10537E+08 
c  Enthalpy     0.16446E+07       7   0.30433E-05   0.83028E+16 0.69269E+06 
c  elec_pot_r   0.75466E+03     149   0.39986E-03   0.50667E+07 0.42059E+07 
c  POT_VEC01    0.90147E-09      80   0.60312E-03   0.44632E-13 0.47825E+06 
c  POT_VEC02    0.90147E-09      84   0.60311E-03   0.44632E-13 0.47825E+06 
c  POT_VEC03    0.70550E-07     180   0.11901E+00   0.68931E-04 0.13093E+07 
-----------------------------------------------------------------------------
  
  

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

   field          initial min     initial max  clips to min  clips to max
-  ----------  --------------  --------------  ------------  ------------
a  Enthalpy  
a  elec_pot_r
a  POT_VEC01 
a  POT_VEC02 
a  POT_VEC03 


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

   field                   minimum         maximum        set mean    spatial mean
-  ---------------  --------------  --------------  --------------  --------------
v  Velocity[X]             -140.64          140.64    -3.5037e-007    -7.9342e-010
v  Velocity[Y]             -140.64          140.64     5.5957e-007     1.1075e-009
v  Velocity[Z]             -10.019          770.89          20.123        0.073011
v  ǁVelocityǁ         0.00041024          770.89          20.632        0.082529
v  Pressure                 -86284          8855.5          -58441          -85307
v  Enthalpy                 5458.7     1.1682e+008     4.6556e+006           32814
v  elec_pot_r               -63.13       -0.023717         -17.889         -1.8785
v  POT_VEC01          -5.5721e-007     5.5721e-007     3.9998e-013     9.2014e-014
v  POT_VEC02          -5.5721e-007     5.5721e-007     1.7685e-013     3.5048e-014
v  POT_VEC03           -0.00069504    -2.7206e-006     -0.00017768    -1.5947e-005
v  Density                0.035239          1.6225          1.5161           1.622
v  LamVisc             3.4224e-005      0.00027525     3.6818e-005     3.4258e-005
v  CourantNb            1.707e-009          0.2409       0.0024859     3.3653e-006
v  FourierNb           3.5727e-007        0.074145       0.0011939     1.0778e-005
v  total_pressure            15041     1.1018e+005           42884           16018
v  temperature                 300           26514          1705.4          306.09
v  joule_power            0.050832     1.9684e+011     6.5702e+009     2.3433e+007
v  current_re_1       -1.4684e+007     1.4684e+007        0.042607      0.00013206
v  current_re_2       -1.4684e+007     1.4684e+007         0.10924     5.0047e-005
v  current_re_3       -1.0576e+008    -4.6796e-005    -4.1339e+006          -15310
v  For_Lap1           -1.3551e+006     1.3551e+006      0.00067876     8.1859e-007
v  For_Lap2           -1.3551e+006     1.3551e+006      -0.0012434    -1.7004e-006
v  For_Lap3           -1.6825e+005     1.7718e+005          148.96         0.12056
v  TS_radia                      0       6.08e+009     3.0037e+008      1.086e+006
v  SpecHeat                 520.33           15434            1101          522.78
v  Th Diff             5.1337e-005       0.0010887     7.3609e-005     5.1449e-005
v  elec_pot_r Diff      0.00013214           63060          2638.6          10.442

  ** Computed fields on boundary_faces
     ---------------------------------

   field                    minimum         maximum        set mean    spatial mean
-  ----------------  --------------  --------------  --------------  --------------
v  Temperature                  300           13605          1530.2          310.72
v  Boundary Density         0.04146          1.6225          1.4345          1.6208
v  Yplus                          0          7.2191          1.4249         0.20393


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

   criterion               minimum         maximum        set mean    spatial mean
   ---------------  --------------  --------------  --------------  --------------
   Courant/Fourier     3.6373e-007         0.27072       0.0036798     1.4143e-005



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



                 FINAL STAGE OF THE CALCULATION              
                 ==============================              


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





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




                      END OF CALCULATION                     
                      ==================                     


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

 Destroying structures and ending computation

