Modele_standard_KEps_VEF.cpp

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#include <Modele_standard_KEps_VEF.h>
 
#include <Domaine_VEF.h>
#include <Domaine_Cl_VEF.h>
#include <Champ_Uniforme.h>
#include <Scatter.h>
#include <Champ_P1NC.h>
#include <Champ_P0_VEF.h>
#include <Discretisation_base.h>
#include <Check_espace_virtuel.h>
#include <LecFicDiffuse.h>
#include <EcritureLectureSpecial.h>
 
Implemente_instanciable(Modele_standard_KEps_VEF,"Modele_standard_KEps_VEF",Modele_Lam_Bremhorst_VEF);
 
// XD standard_KEps Lam_Bremhorst standard_KEps INHERITS_BRACE Model described in ' E. Baglietto , CFD and DNS
// XD_CONT methodologies development for fuel bundle simulaions, Nuclear Engineering and Design, 1503--1510 (236), 2006.
// XD_CONT '
 
// printOn et readOn
 
Sortie& Modele_standard_KEps_VEF::printOn(Sortie& s ) const
{
  return s;
}
 
Entree& Modele_standard_KEps_VEF::readOn(Entree& is )
{
  return Modele_Lam_Bremhorst_VEF::readOn(is);
}
 
void Modele_standard_KEps_VEF::lire_distance_paroi( )
{
 
// Pas besoin de la distance a la proi dans ce modele
 
}
 
DoubleTab& Modele_standard_KEps_VEF::Calcul_D(DoubleTab& D,const Domaine_dis_base& domaine_dis, const Domaine_Cl_dis_base& domaine_Cl_dis,
                                              const DoubleTab& vitesse,const DoubleTab& K_eps_Bas_Re, const Champ_Don_base& ch_visco ) const
{
  D = 0;
  return D;
}
 
DoubleTab& Modele_standard_KEps_VEF::Calcul_E(DoubleTab& E,const Domaine_dis_base& domaine_dis, const Domaine_Cl_dis_base& domaine_Cl_dis, const DoubleTab& transporte,const DoubleTab& K_eps_Bas_Re,const Champ_Don_base& ch_visco, const DoubleTab& visco_turb ) const
{
  E = 0;
  return E;
}
 
/* DoubleTab& Modele_standard_KEps_VEF::Calcul_F1( DoubleTab& F1, const Domaine_dis_base& domaine_dis) const
{
  const Domaine_VEF& le_dom = ref_cast(Domaine_VEF,domaine_dis);
  int nb_faces = le_dom.nb_faces();
  for (int num_face=0; num_face <nb_faces; num_face ++ )
    F1[num_face] = 1.;
  return F1;
}
*/
DoubleTab& Modele_standard_KEps_VEF::Calcul_F1( DoubleTab& F1, const Domaine_dis_base& domaine_dis, const Domaine_Cl_dis_base& domaine_Cl_dis, const DoubleTab& P, const DoubleTab& K_eps_Bas_Re,const Champ_base& ch_visco) const
{
  const Domaine_VEF& le_dom = ref_cast(Domaine_VEF,domaine_dis);
  int nb_faces = le_dom.nb_faces();
  int num_face;
  // Calcul de F1
  for (num_face=0; num_face <nb_faces; num_face ++ )
    {
      F1[num_face] = 1.;
    }
  return F1;
}
 
DoubleTab& Modele_standard_KEps_VEF::Calcul_F2( DoubleTab& F2, DoubleTab& Deb, const Domaine_dis_base& domaine_dis,const DoubleTab& K_eps_Bas_Re,const Champ_base& ch_visco ) const
{
  const Domaine_VEF& le_dom = ref_cast(Domaine_VEF,domaine_dis);
  int nb_faces = le_dom.nb_faces();
  int num_face;
 
  for (num_face=0; num_face<nb_faces  ; num_face++)
    {
      F2[num_face] = 1.;
    }
  //Cerr<<F2.mp_min_vect()<<" F2 "<<F2.mp_max_vect()<<finl;
  return F2;
}
 
DoubleTab&  Modele_standard_KEps_VEF::Calcul_Fmu( DoubleTab& Fmu,const Domaine_dis_base& domaine_dis,const Domaine_Cl_dis_base& domaine_Cl_dis,const DoubleTab& K_eps_Bas_Re,const Champ_Don_base& ch_visco ) const
{
  const Domaine_VEF& le_dom = ref_cast(Domaine_VEF,domaine_dis);
  int nb_faces = le_dom.nb_faces();
  int num_face;
 
  for (num_face=0; num_face <nb_faces; num_face ++ )
    {
      Fmu(num_face) = 1.;
    }
 
  return Fmu;
}
 
DoubleTab&  Modele_standard_KEps_VEF::Calcul_Fmu_BiK( DoubleTab& Fmu,const Domaine_dis_base& domaine_dis,const Domaine_Cl_dis_base& domaine_Cl_dis,const DoubleTab& K_Bas_Re,const DoubleTab& eps_Bas_Re,const Champ_Don_base& ch_visco ) const
{
  const Domaine_VEF& le_dom = ref_cast(Domaine_VEF,domaine_dis);
  int nb_faces = le_dom.nb_faces();
  int num_face;
 
  for (num_face=0; num_face <nb_faces; num_face ++ )
    {
      Fmu(num_face) = 1.;
    }
 
  return Fmu;
}
 
DoubleTab& Modele_standard_KEps_VEF::Calcul_F2_BiK( DoubleTab& F2, DoubleTab& Deb, const Domaine_dis_base& domaine_dis,const DoubleTab& K_Bas_Re,const DoubleTab& eps_Bas_Re,const Champ_base& ch_visco ) const
{
  const Domaine_VEF& le_dom = ref_cast(Domaine_VEF,domaine_dis);
  int nb_faces = le_dom.nb_faces();
  int num_face;
 
  for (num_face=0; num_face<nb_faces  ; num_face++)
    {
      F2[num_face] = 1.;
    }
  //Cerr<<F2.mp_min_vect()<<" F2 "<<F2.mp_max_vect()<<finl;
  return F2;
}
 
DoubleTab& Modele_standard_KEps_VEF::Calcul_F1_BiK( DoubleTab& F1, const Domaine_dis_base& domaine_dis, const Domaine_Cl_dis_base& domaine_Cl_dis, const DoubleTab& P, const DoubleTab& K_Bas_Re, const DoubleTab& eps_Bas_Re,const Champ_base& ch_visco) const
{
  const Domaine_VEF& le_dom = ref_cast(Domaine_VEF,domaine_dis);
  int nb_faces = le_dom.nb_faces();
  int num_face;
  // Calcul de F1
  for (num_face=0; num_face <nb_faces; num_face ++ )
    {
      F1[num_face] = 1.;
    }
  return F1;
}
 
DoubleTab& Modele_standard_KEps_VEF::Calcul_E_BiK(DoubleTab& E,const Domaine_dis_base& domaine_dis, const Domaine_Cl_dis_base& domaine_Cl_dis, const DoubleTab& transporte,const DoubleTab& K_Bas_Re,const DoubleTab& eps_Bas_Re,const Champ_Don_base& ch_visco, const DoubleTab& visco_turb ) const
{
  E = 0;
  return E;
}
 
DoubleTab& Modele_standard_KEps_VEF::Calcul_D_BiK(DoubleTab& D,const Domaine_dis_base& domaine_dis, const Domaine_Cl_dis_base& domaine_Cl_dis,
                                                  const DoubleTab& vitesse,const DoubleTab& K_Bas_Re,const DoubleTab& eps_Bas_Re, const Champ_Don_base& ch_visco ) const
{
  D = 0;
  return D;
}