en/master/Fluide__Ostwald_8cpp_source.html

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// Nouveau fluide. c'est un fluide incompressible non newtonien. Il derive donc

//   de fluide_Incompressible et possede quelques proprietes de plus (K, N)

//   mu depend de K, N, et de grad(U)


#include <Fluide_Ostwald.h>

#include <Probleme_base.h>

#include <Discret_Thyd.h>


#include <Navier_Stokes_std.h>

#include <Param.h>


Implemente_instanciable_sans_constructeur(Fluide_Ostwald,"Fluide_Ostwald",Fluide_Incompressible);

// XD fluide_ostwald fluide_incompressible fluide_ostwald INHERITS_BRACE Non-Newtonian fluids governed by Ostwald\'s

// XD_CONT law. The law applicable to stress tensor is: NL2 tau=K(T)*(D:D/2)**((n-1)/2)*D Where: NL2 D refers to the

// XD_CONT deformation tensor NL2 K refers to fluid consistency (may be a function of the temperature T) NL2 n refers to

// XD_CONT the fluid structure index n=1 for a Newtonian fluid, n<1 for a rheofluidifier fluid, n>1 for a rheothickening

// XD_CONT fluid.

// XD attr k field_base k OPT Fluid consistency.

// XD attr n field_base n OPT Fluid structure index.


Fluide_Ostwald::Fluide_Ostwald() { }


Sortie& Fluide_Ostwald::printOn(Sortie& s ) const

{

  s<<"{"<<finl;

  s<<"K"<<K_<<finl;

  //  s<<"beta_co"<<beta_co<<finl;

  s<<"N"<<N_<<finl;

  Milieu_base::ecrire(s);

  s<<"}"<<finl;

  return s;

}


Entree& Fluide_Ostwald::readOn(Entree& is)

{

  Fluide_Incompressible::readOn(is);

  return is;

}


void Fluide_Ostwald::set_param(Param& param) const

{

  Fluide_Incompressible::set_param(param);

  param.ajouter_condition("is_read_rho","Density rho has not been read for a Fluide_Ostwald type medium.");

  param.ajouter("K",&K_,Param::REQUIRED);

  param.ajouter("n",&N_,Param::REQUIRED);

}


void Fluide_Ostwald::discretiser(const Probleme_base& pb, const  Discretisation_base& dis)

{

  const Domaine_dis_base& domaine_dis=pb.equation(0).domaine_dis();

  const Discret_Thyd& dis2=ref_cast(Discret_Thyd, dis);


  // avec la signature de Ostwald....

  const Navier_Stokes_std& eqn_hydr=ref_cast(Navier_Stokes_std,pb.equation(0));

  // Typing mu field

  Nom dis_nam = dis.que_suis_je();

  if (dis_nam.debute_par("VEF")) dis_nam = "VEF";

  ch_mu_.typer(Nom("Champ_Ostwald_") + dis_nam);


  dis2.proprietes_physiques_fluide_Ostwald(eqn_hydr.domaine_dis(),(*this),eqn_hydr,eqn_hydr.inconnue());

  if (K_)

    {

      dis.nommer_completer_champ_physique(domaine_dis,"consistance","kg/m/s",K_.valeur(),pb);

      champs_compris_.ajoute_champ(K_.valeur());

    }


  Fluide_Incompressible::discretiser(pb,dis);

}


void Fluide_Ostwald::creer_champs_non_lus()

{

  Milieu_base::creer_champs_non_lus();

}


void Fluide_Ostwald::mettre_a_jour(double tps)

{

  K_->mettre_a_jour(tps);

  if (N_ )

    N_->mettre_a_jour(tps);

  Fluide_Incompressible::mettre_a_jour(tps);

}


int Fluide_Ostwald::initialiser(const double temps)

{

  return Fluide_Incompressible::initialiser(temps);

}


Discret_Thyd
classe Discret_Thyd Cette classe est la classe de base representant une discretisation
Definition Discret_Thyd.h:38

Discret_Thyd::proprietes_physiques_fluide_Ostwald
virtual void proprietes_physiques_fluide_Ostwald(const Domaine_dis_base &, Fluide_Ostwald &, const Navier_Stokes_std &, const Champ_Inc_base &) const
Definition Discret_Thyd.cpp:164

Discretisation_base
classe Discretisation_base Cette classe represente un schema de discretisation en espace,...
Definition Discretisation_base.h:45

Discretisation_base::nommer_completer_champ_physique
void nommer_completer_champ_physique(const Domaine_dis_base &domaine_vdf, const Nom &nom_champ, const Nom &unite, Champ_base &champ, const Probleme_base &pbi) const
Definition Discretisation_base.cpp:314

Domaine_dis_base
classe Domaine_dis_base Cette classe est la base de la hierarchie des domaines discretisees.
Definition Domaine_dis_base.h:39

Entree
Class defining operators and methods for all reading operation in an input flow (file,...
Definition Entree.h:42

Equation_base::domaine_dis
Domaine_dis_base & domaine_dis()
Renvoie le domaine discretise associe a l'equation.
Definition Equation_base.cpp:92

Fluide_Incompressible
classe Fluide_Incompressible Cette classe represente un d'un fluide incompressible ainsi que
Definition Fluide_Incompressible.h:36

Fluide_Incompressible::set_param
void set_param(Param &param) const override
Definition Fluide_Incompressible.cpp:51

Fluide_Ostwald
class Fluide_Ostwald
Definition Fluide_Ostwald.h:34

Fluide_Ostwald::set_param
void set_param(Param &param) const override
Definition Fluide_Ostwald.cpp:54

Fluide_Ostwald::Fluide_Ostwald
Fluide_Ostwald()
Definition Fluide_Ostwald.cpp:35

Fluide_Ostwald::creer_champs_non_lus
void creer_champs_non_lus() override
Definition Fluide_Ostwald.cpp:84

Fluide_Ostwald::initialiser
int initialiser(const double temps) override
Initialise les parametres du fluide.
Definition Fluide_Ostwald.cpp:97

Fluide_Ostwald::mettre_a_jour
void mettre_a_jour(double) override
Effectue une mise a jour en temps du milieu, et donc de ses parametres caracteristiques.
Definition Fluide_Ostwald.cpp:89

Fluide_Ostwald::discretiser
void discretiser(const Probleme_base &pb, const Discretisation_base &dis) override
Definition Fluide_Ostwald.cpp:62

Milieu_base::ecrire
void ecrire(Sortie &) const
Ecrit un objet milieu sur un flot de sortie.
Definition Milieu_base.cpp:53

Milieu_base::initialiser
virtual int initialiser(const double temps)
Definition Milieu_base.cpp:742

Milieu_base::creer_champs_non_lus
virtual void creer_champs_non_lus()
Definition Milieu_base.cpp:462

Milieu_base::mettre_a_jour
virtual void mettre_a_jour(double temps)
Definition Milieu_base.cpp:592

Milieu_base::discretiser
virtual void discretiser(const Probleme_base &pb, const Discretisation_base &dis)
Definition Milieu_base.cpp:126

Milieu_base::champs_compris_
Champs_compris champs_compris_
Definition Milieu_base.h:140

Navier_Stokes_std
classe Navier_Stokes_std Cette classe porte les termes de l'equation de la dynamique
Definition Navier_Stokes_std.h:56

Navier_Stokes_std::inconnue
const Champ_Inc_base & inconnue() const override
Renvoie la vitesse (champ inconnue de l'equation) (version const).
Definition Navier_Stokes_std.cpp:599

Nom
class Nom Une chaine de caractere pour nommer les objets de TRUST
Definition Nom.h:31

Nom::debute_par
virtual int debute_par(const char *const n) const
Definition Nom.cpp:319

Objet_U::que_suis_je
const Nom & que_suis_je() const
renvoie la chaine identifiant la classe.
Definition Objet_U.cpp:104

Objet_U::readOn
virtual Entree & readOn(Entree &)
Lecture d'un Objet_U sur un flot d'entree Methode a surcharger.
Definition Objet_U.cpp:293

Objet_U::printOn
virtual Sortie & printOn(Sortie &) const
Ecriture de l'objet sur un flot de sortie Methode a surcharger.
Definition Objet_U.cpp:282

Param
Helper class to factorize the readOn method of Objet_U classes.
Definition Param.h:112

Param::ajouter_condition
void ajouter_condition(const char *condition, const char *message, const char *name=0)
Declare a post-read logical condition that must hold on the parameter values.
Definition Param.cpp:496

Param::ajouter
void ajouter(const char *keyword, const int *value, Param::Nature nat=Param::OPTIONAL)
Register an integer parameter.
Definition Param.cpp:364

Param::REQUIRED
@ REQUIRED
Definition Param.h:115

Probleme_base
classe Probleme_base C'est un Probleme_U qui n'est pas un couplage.
Definition Probleme_base.h:55

Probleme_base::equation
virtual const Equation_base & equation(int) const =0

Sortie
Classe de base des flux de sortie.
Definition Sortie.h:52