heheuPsiThermo< BasicPsiThermo, MixtureType > Class Template Reference

Inheritance diagram for heheuPsiThermo< BasicPsiThermo, MixtureType >:

Collaboration diagram for heheuPsiThermo< BasicPsiThermo, MixtureType >:

Public Member Functions
	TypeName ("heheuPsiThermo")
	Runtime type information. More...
	heheuPsiThermo (const fvMesh &, const word &phaseName)
	Construct from mesh and phase name. More...
	heheuPsiThermo (const heheuPsiThermo< BasicPsiThermo, MixtureType > &)=delete
	Disallow default bitwise copy construction. More...
virtual	~heheuPsiThermo ()
	Destructor. More...
virtual void	correct ()
	Update properties. More...
virtual volScalarField &	heu ()
	Unburnt gas enthalpy [J/kg]. More...
virtual const volScalarField &	heu () const
	Unburnt gas enthalpy [J/kg]. More...
virtual const volScalarField &	Tu () const
	Unburnt gas temperature [K]. More...
virtual tmp< scalarField >	heu (const scalarField &T, const labelList &cells) const
	Unburnt gas enthalpy for cell-set [J/kg]. More...
virtual tmp< scalarField >	heu (const scalarField &T, const label patchi) const
	Unburnt gas enthalpy for patch [J/kg]. More...
virtual tmp< volScalarField >	Tb () const
	Burnt gas temperature [K]. More...
virtual tmp< volScalarField >	psiu () const
	Unburnt gas compressibility [s^2/m^2]. More...
virtual tmp< volScalarField >	psib () const
	Burnt gas compressibility [s^2/m^2]. More...
virtual tmp< volScalarField >	muu () const
	Dynamic viscosity of unburnt gas [kg/m/s]. More...
virtual tmp< volScalarField >	mub () const
	Dynamic viscosity of burnt gas [kg/m/s]. More...
Public Member Functions inherited from heThermo< BasicPsiThermo, MixtureType >
Foam::tmp< Foam::volScalarField >	volScalarFieldProperty (const word &psiName, const dimensionSet &psiDim, CellMixture cellMixture, PatchFaceMixture patchFaceMixture, Method psiMethod, const Args &... args) const
Foam::tmp< Foam::scalarField >	cellSetProperty (CellMixture cellMixture, Method psiMethod, const labelList &cells, const Args &... args) const
Foam::tmp< Foam::scalarField >	patchFieldProperty (PatchFaceMixture patchFaceMixture, Method psiMethod, const label patchi, const Args &... args) const
	heThermo (const fvMesh &, const word &phaseName)
	Construct from mesh. More...
	heThermo (const fvMesh &, const dictionary &, const word &phaseName)
	Construct from mesh and dictionary. More...
	heThermo (const heThermo< BasicPsiThermo, MixtureType > &)=delete
	Disallow default bitwise copy construction. More...
virtual	~heThermo ()
	Destructor. More...
virtual MixtureType::basicMixtureType &	composition ()
	Return the composition of the mixture. More...
virtual const MixtureType::basicMixtureType &	composition () const
	Return the composition of the mixture. More...
virtual word	thermoName () const
	Return the name of the thermo physics. More...
virtual bool	incompressible () const
	Return true if the equation of state is incompressible. More...
virtual bool	isochoric () const
	Return true if the equation of state is isochoric. More...
virtual volScalarField &	he ()
	Enthalpy/Internal energy [J/kg]. More...
virtual const volScalarField &	he () const
	Enthalpy/Internal energy [J/kg]. More...
virtual tmp< volScalarField >	he (const volScalarField &p, const volScalarField &T) const
	Enthalpy/Internal energy. More...
virtual tmp< scalarField >	he (const scalarField &T, const labelList &cells) const
	Enthalpy/Internal energy for cell-set [J/kg]. More...
virtual tmp< scalarField >	he (const scalarField &T, const label patchi) const
	Enthalpy/Internal energy for patch [J/kg]. More...
virtual tmp< volScalarField >	hs () const
	Sensible enthalpy [J/kg/K]. More...
virtual tmp< volScalarField >	hs (const volScalarField &p, const volScalarField &T) const
	Sensible enthalpy. More...
virtual tmp< scalarField >	hs (const scalarField &T, const label patchi) const
	Sensible enthalpy for patch [J/kg/K]. More...
virtual tmp< scalarField >	hs (const scalarField &T, const labelList &cells) const
	Sensible enthalpy for cell-set [J/kg]. More...
virtual tmp< volScalarField >	ha () const
	Absolute enthalpy [J/kg/K]. More...
virtual tmp< volScalarField >	ha (const volScalarField &p, const volScalarField &T) const
	Absolute enthalpy. More...
virtual tmp< scalarField >	ha (const scalarField &T, const label patchi) const
	Absolute enthalpy for patch [J/kg/K]. More...
virtual tmp< scalarField >	ha (const scalarField &T, const labelList &cells) const
	Absolute enthalpy for cell-set [J/kg]. More...
virtual tmp< volScalarField >	hc () const
	Enthalpy of formation [J/kg]. More...
virtual tmp< scalarField >	THE (const scalarField &he, const scalarField &T0, const labelList &cells) const
	Temperature from enthalpy/internal energy for cell-set. More...
virtual tmp< scalarField >	THE (const scalarField &he, const scalarField &T0, const label patchi) const
	Temperature from enthalpy/internal energy for patch. More...
virtual tmp< scalarField >	Cp (const scalarField &T, const label patchi) const
	Heat capacity at constant pressure for patch [J/kg/K]. More...
virtual tmp< volScalarField >	Cp () const
	Heat capacity at constant pressure [J/kg/K]. More...
virtual tmp< scalarField >	Cv (const scalarField &T, const label patchi) const
	Heat capacity at constant volume for patch [J/kg/K]. More...
virtual tmp< volScalarField >	Cv () const
	Heat capacity at constant volume [J/kg/K]. More...
virtual tmp< volScalarField >	gamma () const
	Gamma = Cp/Cv []. More...
virtual tmp< scalarField >	gamma (const scalarField &T, const label patchi) const
	Gamma = Cp/Cv for patch []. More...
virtual tmp< scalarField >	Cpv (const scalarField &T, const label patchi) const
	Heat capacity at constant pressure/volume for patch [J/kg/K]. More...
virtual tmp< volScalarField >	Cpv () const
	Heat capacity at constant pressure/volume [J/kg/K]. More...
virtual tmp< volScalarField >	CpByCpv () const
	Heat capacity ratio []. More...
virtual tmp< scalarField >	CpByCpv (const scalarField &T, const label patchi) const
	Heat capacity ratio for patch []. More...
virtual tmp< volScalarField >	W () const
	Molecular weight [kg/kmol]. More...
virtual tmp< scalarField >	W (const label patchi) const
	Molecular weight for patch [kg/kmol]. More...
virtual tmp< volScalarField >	kappa () const
	Thermal diffusivity for temperature of mixture [W/m/K]. More...
virtual tmp< scalarField >	kappa (const label patchi) const
	Thermal diffusivity for temperature of mixture for patch [W/m/K]. More...
virtual tmp< volScalarField >	alphahe () const
	Thermal diffusivity for energy of mixture [kg/m/s]. More...
virtual tmp< scalarField >	alphahe (const label patchi) const
	Thermal diffusivity for energy of mixture for patch [kg/m/s]. More...
virtual tmp< volScalarField >	kappaEff (const volScalarField &) const
	Effective thermal turbulent diffusivity for temperature. More...
virtual tmp< scalarField >	kappaEff (const scalarField &alphat, const label patchi) const
	Effective thermal turbulent diffusivity for temperature. More...
virtual tmp< volScalarField >	alphaEff (const volScalarField &alphat) const
	Effective thermal turbulent diffusivity of mixture [kg/m/s]. More...
virtual tmp< scalarField >	alphaEff (const scalarField &alphat, const label patchi) const
	Effective thermal turbulent diffusivity of mixture. More...
virtual bool	read ()
	Read thermophysical properties dictionary. More...

Additional Inherited Members
Protected Member Functions inherited from heThermo< BasicPsiThermo, MixtureType >
tmp< volScalarField >	volScalarFieldProperty (const word &psiName, const dimensionSet &psiDim, CellMixture cellMixture, PatchFaceMixture patchFaceMixture, Method psiMethod, const Args &... args) const
	Return a volScalarField of the given property. More...
tmp< scalarField >	cellSetProperty (CellMixture cellMixture, Method psiMethod, const labelList &cells, const Args &... args) const
	Return a scalarField of the given property on a cell set. More...
tmp< scalarField >	patchFieldProperty (PatchFaceMixture patchFaceMixture, Method psiMethod, const label patchi, const Args &... args) const
	Return a scalarField of the given property on a patch. More...
void	heBoundaryCorrection (volScalarField &he)
	Correct the enthalpy/internal energy field boundaries. More...
Protected Attributes inherited from heThermo< BasicPsiThermo, MixtureType >
volScalarField	he_
	Energy field. More...

Detailed Description

template<class BasicPsiThermo, class MixtureType>
class Foam::heheuPsiThermo< BasicPsiThermo, MixtureType >

Definition at line 49 of file heheuPsiThermo.H.

Constructor & Destructor Documentation

heheuPsiThermo() [1/2]

heheuPsiThermo	(	const fvMesh &	mesh,
		const word &	phaseName
	)

Construct from mesh and phase name.

Definition at line 145 of file heheuPsiThermo.C.

heheuPsiThermo() [2/2]

heheuPsiThermo ( const heheuPsiThermo< BasicPsiThermo, MixtureType > &  )

delete

Disallow default bitwise copy construction.

~heheuPsiThermo()

~heheuPsiThermo ( )

virtual

Destructor.

Definition at line 197 of file heheuPsiThermo.C.

Member Function Documentation

TypeName()

TypeName

(

"heheuPsiThermo< BasicPsiThermo, MixtureType >"

)

Runtime type information.

correct()

void correct ( )

virtual

Update properties.

Definition at line 204 of file heheuPsiThermo.C.

References Foam::endl(), heheuPsiThermo< BasicPsiThermo, MixtureType >::heu(), Foam::Info, and InfoInFunction.

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heu() [1/4]

virtual volScalarField& heu ( )

inlinevirtual

Unburnt gas enthalpy [J/kg].

Non-const access allowed for transport equations

Definition at line 104 of file heheuPsiThermo.H.

Referenced by heheuPsiThermo< BasicPsiThermo, MixtureType >::correct(), heheuPsiThermo< BasicPsiThermo, MixtureType >::heu(), and heheuPsiThermo< BasicPsiThermo, MixtureType >::Tu().

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heu() [2/4]

virtual const volScalarField& heu ( ) const

inlinevirtual

Unburnt gas enthalpy [J/kg].

Definition at line 110 of file heheuPsiThermo.H.

Tu()

virtual const volScalarField& Tu ( ) const

inlinevirtual

Unburnt gas temperature [K].

Definition at line 116 of file heheuPsiThermo.H.

References cells, heheuPsiThermo< BasicPsiThermo, MixtureType >::heu(), heheuPsiThermo< BasicPsiThermo, MixtureType >::mub(), heheuPsiThermo< BasicPsiThermo, MixtureType >::muu(), patchi, heheuPsiThermo< BasicPsiThermo, MixtureType >::psib(), heheuPsiThermo< BasicPsiThermo, MixtureType >::psiu(), Foam::T(), and heheuPsiThermo< BasicPsiThermo, MixtureType >::Tb().

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heu() [3/4]

Foam::tmp< Foam::scalarField > heu ( const scalarField &  T, const labelList &  cells  ) const

virtual

Unburnt gas enthalpy for cell-set [J/kg].

Definition at line 226 of file heheuPsiThermo.C.

References heheuPsiThermo< BasicPsiThermo, MixtureType >::heu(), and p.

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heu() [4/4]

Foam::tmp< Foam::scalarField > heu ( const scalarField &  T, const label  patchi  ) const

virtual

Unburnt gas enthalpy for patch [J/kg].

Definition at line 245 of file heheuPsiThermo.C.

References p.

Tb()

Foam::tmp< Foam::volScalarField > Tb ( ) const

virtual

Burnt gas temperature [K].

Definition at line 263 of file heheuPsiThermo.C.

References Foam::dimTemperature.

Referenced by heheuPsiThermo< BasicPsiThermo, MixtureType >::Tu().

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psiu()

Foam::tmp< Foam::volScalarField > psiu ( ) const

virtual

Unburnt gas compressibility [s^2/m^2].

Definition at line 281 of file heheuPsiThermo.C.

References psi.

Referenced by heheuPsiThermo< BasicPsiThermo, MixtureType >::Tu().

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psib()

Foam::tmp< Foam::volScalarField > psib ( ) const

virtual

Burnt gas compressibility [s^2/m^2].

Definition at line 298 of file heheuPsiThermo.C.

References psi.

Referenced by heheuPsiThermo< BasicPsiThermo, MixtureType >::Tu().

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muu()

Foam::tmp< Foam::volScalarField > muu ( ) const

virtual

Dynamic viscosity of unburnt gas [kg/m/s].

Definition at line 315 of file heheuPsiThermo.C.

References Foam::dimDynamicViscosity, and Foam::constant::physicoChemical::mu.

Referenced by heheuPsiThermo< BasicPsiThermo, MixtureType >::Tu().

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mub()

Foam::tmp< Foam::volScalarField > mub ( ) const

virtual

Dynamic viscosity of burnt gas [kg/m/s].

Definition at line 332 of file heheuPsiThermo.C.

References Foam::dimDynamicViscosity, and Foam::constant::physicoChemical::mu.

Referenced by heheuPsiThermo< BasicPsiThermo, MixtureType >::Tu().

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---

The documentation for this class was generated from the following files:

• src/thermophysicalModels/reactionThermo/psiuReactionThermo/heheuPsiThermo.H
• src/thermophysicalModels/reactionThermo/psiuReactionThermo/heheuPsiThermo.C