Pb_Thermohydraulique_QC#
#include <Pb_Thermohydraulique_QC.h>
classe Pb_Thermohydraulique_QC Cette classe represente un probleme de thermohydraulique en fluide quasi compressible:
How to cite this class in this doc#
:ref:`Pb\_Thermohydraulique\_QC <class-pb-thermohydraulique-qc>`
[Pb\_Thermohydraulique\_QC](#class-pb-thermohydraulique-qc)
Detailed description#
Equations de Navier_Stokes en regime laminaire pour un fluide quasi compressible-Equation d’energie exprimee en temperature (gaz parfait) ou enthalpie (gaz reel) en regime laminaire pour un fluide quasi compressible
Inherits from#
public : Pb_QC_base
public : Pb_Dilatable_Proto
Inherited by#
public : TRUSTProblem\_sup\_eqns
<Pb_Thermohydraulique_QC>public : Pb_Rayo_Thermohydraulique_QC
List of Public Methods#
List of Public Static Methods#
List of Protected Methods#
Complete Member Function Documentation#
duplique
int Pb_Thermohydraulique_QC::duplique() const override
Reimplements:
How to cite in this doc:
:ref:`int Pb_Thermohydraulique_QC::duplique() const override <public-int-pb-thermohydraulique-qc-duplique-const-override>`
[int Pb_Thermohydraulique_QC::duplique() const override](#public-int-pb-thermohydraulique-qc-duplique-const-override)
equation
const Equation_base & Pb_Thermohydraulique_QC::equation(int) const override
Renvoie l’equation d’hydraulique de type Navier_Stokes_QC si i = 0 Renvoie l’equation de la thermique de type Convection_Diffusion_Chaleur_QC si i = 1.
Reimplements:
How to cite in this doc:
:ref:`const Equation_base & Pb_Thermohydraulique_QC::equation(int) const override <public-const-equation-base-ref-pb-thermohydraulique-qc-equation-int-const-override>`
[const Equation_base & Pb_Thermohydraulique_QC::equation(int) const override](#public-const-equation-base-ref-pb-thermohydraulique-qc-equation-int-const-override)
equation
Equation_base & Pb_Thermohydraulique_QC::equation(int) override
Reimplements:
How to cite in this doc:
:ref:`Equation_base & Pb_Thermohydraulique_QC::equation(int) override <public-equation-base-ref-pb-thermohydraulique-qc-equation-int-override>`
[Equation_base & Pb_Thermohydraulique_QC::equation(int) override](#public-equation-base-ref-pb-thermohydraulique-qc-equation-int-override)
get_info
const Type_info * Pb_Thermohydraulique_QC::get_info() const override
Donne des informations sur le type de l’ Objet_U .
Reimplements:
How to cite in this doc:
:ref:`const Type_info * Pb_Thermohydraulique_QC::get_info() const override <public-const-type-info-ptr-pb-thermohydraulique-qc-get-info-const-override>`
[const Type_info * Pb_Thermohydraulique_QC::get_info() const override](#public-const-type-info-ptr-pb-thermohydraulique-qc-get-info-const-override)
nombre_d_equations
int Pb_Thermohydraulique_QC::nombre_d_equations() const override
Renvoie 2 car il y a 2 equations : Navier_Stokes_QC et Convection_Diffusion_Chaleur_QC .
Reimplements:
How to cite in this doc:
:ref:`int Pb_Thermohydraulique_QC::nombre_d_equations() const override <public-int-pb-thermohydraulique-qc-nombre-d-equations-const-override>`
[int Pb_Thermohydraulique_QC::nombre_d_equations() const override](#public-int-pb-thermohydraulique-qc-nombre-d-equations-const-override)
Pb_Thermohydraulique_QC
Pb_Thermohydraulique_QC::Pb_Thermohydraulique_QC()
How to cite in this doc:
:ref:`Pb_Thermohydraulique_QC::Pb_Thermohydraulique_QC() <public-pb-thermohydraulique-qc-pb-thermohydraulique-qc>`
[Pb_Thermohydraulique_QC::Pb_Thermohydraulique_QC()](#public-pb-thermohydraulique-qc-pb-thermohydraulique-qc)
taille_memoire
unsigned Pb_Thermohydraulique_QC::taille_memoire() const override
Reimplements:
How to cite in this doc:
:ref:`unsigned Pb_Thermohydraulique_QC::taille_memoire() const override <public-unsigned-pb-thermohydraulique-qc-taille-memoire-const-override>`
[unsigned Pb_Thermohydraulique_QC::taille_memoire() const override](#public-unsigned-pb-thermohydraulique-qc-taille-memoire-const-override)
verifier
int Pb_Thermohydraulique_QC::verifier() override
Teste la compatibilite des equations de la thermique et de l’hydraulique.
Reimplements:
How to cite in this doc:
:ref:`int Pb_Thermohydraulique_QC::verifier() override <public-int-pb-thermohydraulique-qc-verifier-override>`
[int Pb_Thermohydraulique_QC::verifier() override](#public-int-pb-thermohydraulique-qc-verifier-override)
~Pb_Thermohydraulique_QC
Pb_Thermohydraulique_QC::~Pb_Thermohydraulique_QC()
How to cite in this doc:
:ref:`Pb_Thermohydraulique_QC::~Pb_Thermohydraulique_QC() <public-pb-thermohydraulique-qc-dtor-pb-thermohydraulique-qc>`
[Pb_Thermohydraulique_QC::~Pb_Thermohydraulique_QC()](#public-pb-thermohydraulique-qc-dtor-pb-thermohydraulique-qc)
cree_instance
Objet_U * Pb_Thermohydraulique_QC::cree_instance()
How to cite in this doc:
:ref:`Objet_U * Pb_Thermohydraulique_QC::cree_instance() <public-static-objet-u-ptr-pb-thermohydraulique-qc-cree-instance>`
[Objet_U * Pb_Thermohydraulique_QC::cree_instance()](#public-static-objet-u-ptr-pb-thermohydraulique-qc-cree-instance)
info
const Type_info * Pb_Thermohydraulique_QC::info()
How to cite in this doc:
:ref:`const Type_info * Pb_Thermohydraulique_QC::info() <public-static-const-type-info-ptr-pb-thermohydraulique-qc-info>`
[const Type_info * Pb_Thermohydraulique_QC::info()](#public-static-const-type-info-ptr-pb-thermohydraulique-qc-info)
self_cast
const Pb_Thermohydraulique_QC & Pb_Thermohydraulique_QC::self_cast(const Objet_U &)
How to cite in this doc:
:ref:`const Pb_Thermohydraulique_QC & Pb_Thermohydraulique_QC::self_cast(const Objet_U &) <public-static-const-pb-thermohydraulique-qc-ref-pb-thermohydraulique-qc-self-cast-const-objet-u-ref>`
[const Pb_Thermohydraulique_QC & Pb_Thermohydraulique_QC::self_cast(const Objet_U &)](#public-static-const-pb-thermohydraulique-qc-ref-pb-thermohydraulique-qc-self-cast-const-objet-u-ref)
self_cast
Pb_Thermohydraulique_QC & Pb_Thermohydraulique_QC::self_cast(Objet_U &)
How to cite in this doc:
:ref:`Pb_Thermohydraulique_QC & Pb_Thermohydraulique_QC::self_cast(Objet_U &) <public-static-pb-thermohydraulique-qc-ref-pb-thermohydraulique-qc-self-cast-objet-u-ref>`
[Pb_Thermohydraulique_QC & Pb_Thermohydraulique_QC::self_cast(Objet_U &)](#public-static-pb-thermohydraulique-qc-ref-pb-thermohydraulique-qc-self-cast-objet-u-ref)
printOn
Sortie & Pb_Thermohydraulique_QC::printOn(Sortie &x) const override
Ecriture de l’objet sur un flot de sortie Methode a surcharger.
Reimplements:
References
Referenced By
How to cite in this doc:
:ref:`Sortie & Pb_Thermohydraulique_QC::printOn(Sortie &x) const override <protected-sortie-ref-pb-thermohydraulique-qc-printon-sortie-ref-x-const-override>`
[Sortie & Pb_Thermohydraulique_QC::printOn(Sortie &x) const override](#protected-sortie-ref-pb-thermohydraulique-qc-printon-sortie-ref-x-const-override)
readOn
Entree & Pb_Thermohydraulique_QC::readOn(Entree &) override
Lecture d’un probleme dans un flot d’entree, et ouverture du flot de sauvegarde.
Format: { nom_milieu bloc de lecture d’un milieu nom_equation bloc de lecture d’une equation Postraitement bloc de lecture postraitement reprise | sauvegarde | sauvegarde_simple formatte | binaire | pdi nom_de_fichier } L’option sauvegarde_simple permet de sauver le probleme dans le fichier choisi en ecrasant a chaque fois les sauvegardes precedentes : cela permet d’economiser de la place disque.
Reimplements:
References
Referenced By
How to cite in this doc:
:ref:`Entree & Pb_Thermohydraulique_QC::readOn(Entree &) override <protected-entree-ref-pb-thermohydraulique-qc-readon-entree-ref-override>`
[Entree & Pb_Thermohydraulique_QC::readOn(Entree &) override](#protected-entree-ref-pb-thermohydraulique-qc-readon-entree-ref-override)
Attributes Documentation#
info_obj (public)
const Type_info Pb_Thermohydraulique_QC::info_obj
eq_hydraulique (protected)
Navier_Stokes_QC Pb_Thermohydraulique_QC::eq_hydraulique
eq_thermique (protected)
Convection_Diffusion_Chaleur_QC Pb_Thermohydraulique_QC::eq_thermique