Convection_Diffusion_Espece_Multi_WC.cpp

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#include <Convection_Diffusion_Espece_Multi_WC.h>
#include <Navier_Stokes_Fluide_Dilatable_base.h>
#include <Fluide_Weakly_Compressible.h>
#include <Loi_Etat_Multi_GP_WC.h>
#include <Op_Conv_negligeable.h>
#include <Probleme_base.h>
#include <TRUSTTrav.h>
#include <Param.h>
#include <Discretisation_base.h>
#include <Perf_counters.h>
 
Implemente_instanciable(Convection_Diffusion_Espece_Multi_WC,"Convection_Diffusion_Espece_Multi_WC",Convection_Diffusion_Espece_Multi_base);
// XD convection_diffusion_espece_multi_WC eqn_base convection_diffusion_espece_multi_WC INHERITS_BRACE Species
// XD_CONT conservation equation for a multi-species weakly-compressible fluid.
 
Sortie& Convection_Diffusion_Espece_Multi_WC::printOn(Sortie& is) const
{
  return Convection_Diffusion_Espece_Multi_base::printOn(is);
}
 
Entree& Convection_Diffusion_Espece_Multi_WC::readOn(Entree& is)
{
  return Convection_Diffusion_Espece_Multi_base::readOn(is);
}
 
const Champ_base& Convection_Diffusion_Espece_Multi_WC::diffusivite_pour_pas_de_temps() const
{
  return le_fluide->nu_sur_Schmidt();
}
 
const Champ_base& Convection_Diffusion_Espece_Multi_WC::vitesse_pour_transport() const
{
  const Navier_Stokes_std& eqn_hydr = ref_cast(Navier_Stokes_std,probleme().equation(0));
  return eqn_hydr.rho_la_vitesse() /* rho * u and not u */;
}
 
/*! @brief Associe l inconnue de l equation a la loi d etat,
 *
 */
void Convection_Diffusion_Espece_Multi_WC::completer()
{
  Convection_Diffusion_Espece_Multi_base::completer();
  Fluide_Weakly_Compressible& le_fluideQC=ref_cast(Fluide_Weakly_Compressible,fluide());
  Loi_Etat_Multi_GP_WC& loi_etat = ref_cast_non_const(Loi_Etat_Multi_GP_WC,le_fluideQC.loi_etat().valeur());
  loi_etat.associer_inconnue(l_inco_ch.valeur());
}
 
DoubleTab& Convection_Diffusion_Espece_Multi_WC::derivee_en_temps_inco(DoubleTab& derivee)
{
  derivee=0.;
  return derivee_en_temps_inco_sans_solveur_masse_impl(*this,derivee,true /* explicit */);
}
 
void Convection_Diffusion_Espece_Multi_WC::assembler( Matrice_Morse& matrice, const DoubleTab& inco, DoubleTab& resu)
{
  Convection_Diffusion_Fluide_Dilatable_Proto::assembler_impl(*this,matrice,inco,resu);
}
 
void Convection_Diffusion_Espece_Multi_WC::assembler_blocs_avec_inertie(matrices_t matrices, DoubleTab& secmem, const tabs_t& semi_impl)
{
  statistics().begin_count(STD_COUNTERS::ajouter_blocs,statistics().get_last_opened_counter_level()+1);
  Convection_Diffusion_Fluide_Dilatable_Proto::assembler_blocs(*this,matrices, secmem, semi_impl);
  schema_temps().ajouter_blocs(matrices, secmem, *this);
 
  if (!discretisation().is_poly_family())
    {
      const std::string& nom_inco = inconnue().le_nom().getString();
      Matrice_Morse *mat = matrices.count(nom_inco) ? matrices.at(nom_inco) : nullptr;
      modifier_pour_Cl(*mat,secmem);
    }
  statistics().end_count(STD_COUNTERS::ajouter_blocs);
 
}