Source_Action_Particules.h

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#ifndef Source_Action_Particules_included
#define Source_Action_Particules_included
 
#include <Source_base.h>
#include <Transport_Marqueur_FT.h>
 
/*! @brief Classe Source_Action_Particules Classe mere des classes designant une force exercee par le fluide sur une particule
 *
 *     (ou inversement)
 *     Ces forces interviennent dans le bilan de qdm des particules (one_way_coupling)
 *     et eventuellement dans l equation de Navier_Stokes (two_way_coupling) sous forme
 *     d une source interpolee (voir Source_Reaction_Particules)
 *  .SECTION
 *     Classe non instanciable.
 *
 *
 */
class Source_Action_Particules : public Source_base
{
  Declare_base(Source_Action_Particules);
public :
 
  void mettre_a_jour(double temps) override;
  inline const DoubleTab& vitesse_fluide() const;
  inline const DoubleTab& rho_fluide() const;
  inline const DoubleTab& visco_dyn_fluide() const;
  inline const DoubleTab& grad_pression() const;
 
  inline const DoubleTab& vitesse_particules() const;
  inline const DoubleTab& delta_v() const;
  inline const DoubleTab& rho_particules() const;
  inline const DoubleTab& diametre_particules() const;
  inline const DoubleTab& volumes_particules() const;
 
protected:
 
  void associer_domaines(const Domaine_dis_base& ,const Domaine_Cl_dis_base& ) override;
  void associer_pb(const Probleme_base& ) override;
 
 
};
 
const DoubleTab& Source_Action_Particules::vitesse_fluide() const
{
  const Transport_Marqueur_FT& eq = ref_cast(Transport_Marqueur_FT,equation());
  const DoubleTab& vitesse = eq.vitesse_fluide();
  return vitesse;
}
 
const DoubleTab& Source_Action_Particules::rho_fluide() const
{
  const Transport_Marqueur_FT& eq = ref_cast(Transport_Marqueur_FT,equation());
  const DoubleTab& rho = eq.rho_fluide();
  return rho;
}
 
const DoubleTab& Source_Action_Particules::visco_dyn_fluide() const
{
  const Transport_Marqueur_FT& eq = ref_cast(Transport_Marqueur_FT,equation());
  const DoubleTab& visco_dyn = eq.visco_dyn_fluide();
  return visco_dyn;
}
 
const DoubleTab& Source_Action_Particules::grad_pression() const
{
  const Transport_Marqueur_FT& eq = ref_cast(Transport_Marqueur_FT,equation());
  const DoubleTab& gradient_P = eq.grad_pression();
  return gradient_P;
}
 
 
const DoubleTab& Source_Action_Particules::vitesse_particules() const
{
  const Transport_Marqueur_FT& eq = ref_cast(Transport_Marqueur_FT,equation());
  const DoubleTab& vitesse = eq.proprietes_particules().vitesse_particules();
  return vitesse;
}
 
const DoubleTab& Source_Action_Particules::delta_v() const
{
  const Transport_Marqueur_FT& eq = ref_cast(Transport_Marqueur_FT,equation());
  const DoubleTab& deltav = eq.proprietes_particules().delta_v();
  return deltav;
}
 
const DoubleTab& Source_Action_Particules::rho_particules() const
{
  const Transport_Marqueur_FT& eq = ref_cast(Transport_Marqueur_FT,equation());
  const DoubleTab& rho = eq.proprietes_particules().masse_vol_particules();
  return rho;
}
 
const DoubleTab& Source_Action_Particules::diametre_particules() const
{
  const Transport_Marqueur_FT& eq = ref_cast(Transport_Marqueur_FT,equation());
  const DoubleTab& diametre = eq.proprietes_particules().diametre_particules();
  return diametre;
}
 
const DoubleTab& Source_Action_Particules::volumes_particules() const
{
  const Transport_Marqueur_FT& eq = ref_cast(Transport_Marqueur_FT,equation());
  const DoubleTab& volume = eq.proprietes_particules().volume_particules();
  return volume;
}
 
#endif