Enthalpy/Internal energy for a mixture. More...

Inheritance diagram for heThermo< BasicThermo, MixtureType >:

[legend]

Collaboration diagram for heThermo< BasicThermo, MixtureType >:

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Public Member Functions
	heThermo (const fvMesh &, const word &phaseName)
	Construct from mesh. More...

	heThermo (const fvMesh &, const dictionary &, const word &phaseName)
	Construct from mesh and dictionary. More...

virtual	~heThermo ()
	Destructor. More...

virtual MixtureType::basicMixtureType &	composition ()
	Return the compostion of the mixture. More...

virtual const MixtureType::basicMixtureType &	composition () const
	Return the compostion of the mixture. 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 &p, const scalarField &T, const labelList &cells) const
	Enthalpy/Internal energy for cell-set [J/kg]. More...

virtual tmp< scalarField >	he (const scalarField &p, const scalarField &T, const label patchi) const
	Enthalpy/Internal energy for patch [J/kg]. More...

virtual tmp< volScalarField >	hc () const
	Chemical enthalpy [J/kg]. More...

virtual tmp< scalarField >	THE (const scalarField &he, const scalarField &p, 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 &p, const scalarField &T0, const label patchi) const
	Temperature from enthalpy/internal energy for patch. More...

virtual tmp< scalarField >	Cp (const scalarField &p, 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 &p, 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 &p, const scalarField &T, const label patchi) const
	Gamma = Cp/Cv for patch []. More...

virtual tmp< scalarField >	Cpv (const scalarField &p, 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 &p, const scalarField &T, const label patchi) const
	Heat capacity ratio for patch []. More...

virtual tmp< volScalarField >	kappa () const
	Thermal diffusivity for temperature of mixture [J/m/s/K]. More...

virtual tmp< scalarField >	kappa (const label patchi) const
	Thermal diffusivity for temperature. More...

virtual tmp< volScalarField >	kappaEff (const volScalarField &) const
	Effective thermal diffusivity for temperature. More...

virtual tmp< scalarField >	kappaEff (const scalarField &alphat, const label patchi) const
	Effective thermal diffusivity for temperature. More...

virtual tmp< volScalarField >	alphaEff (const volScalarField &alphat) const
	Effective thermal diffusivity of mixture [kg/m/s]. More...

virtual tmp< scalarField >	alphaEff (const scalarField &alphat, const label patchi) const
	Effective thermal diffusivity of mixture for patch [kg/m/s]. More...

virtual bool	read ()
	Read thermophysical properties dictionary. More...

Protected Member Functions
void	heBoundaryCorrection (volScalarField &he)
	Correct the enthalpy/internal energy field boundaries. More...

Protected Attributes
volScalarField	he_
	Energy field. More...

Private Member Functions
	heThermo (const heThermo< BasicThermo, MixtureType > &)
	Construct as copy (not implemented) More...

void	init ()
	Initialize heThermo. More...

Detailed Description

template<class BasicThermo, class MixtureType>
class Foam::heThermo< BasicThermo, MixtureType >

Enthalpy/Internal energy for a mixture.

Source files

Definition at line 49 of file heThermo.H.

Constructor & Destructor Documentation

◆ heThermo() [1/3]

heThermo ( const heThermo< BasicThermo, MixtureType > & )

private

Construct as copy (not implemented)

◆ heThermo() [2/3]

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

Construct from mesh.

Definition at line 86 of file heThermo.C.

◆ heThermo() [3/3]

heThermo	(	const fvMesh &	mesh,
		const dictionary &	dict,
		const word &	phaseName
	)

Construct from mesh and dictionary.

Definition at line 119 of file heThermo.C.

◆ ~heThermo()

~heThermo

virtual

Destructor.

Definition at line 154 of file heThermo.C.

Member Function Documentation

◆ heBoundaryCorrection()

void heBoundaryCorrection ( volScalarField & he )

protected

Correct the enthalpy/internal energy field boundaries.

Definition at line 34 of file heThermo.C.

◆ init()

void init

private

Initialize heThermo.

Definition at line 55 of file heThermo.C.

◆ composition() [1/2]

virtual MixtureType::basicMixtureType& composition ( )

inlinevirtual

Return the compostion of the mixture.

Definition at line 110 of file heThermo.H.

◆ composition() [2/2]

virtual const MixtureType::basicMixtureType& composition ( ) const

inlinevirtual

Return the compostion of the mixture.

Definition at line 117 of file heThermo.H.

◆ incompressible()

virtual bool incompressible ( ) const

inlinevirtual

Return true if the equation of state is incompressible.

i.e. rho != f(p)

Definition at line 124 of file heThermo.H.

◆ isochoric()

virtual bool isochoric ( ) const

inlinevirtual

Return true if the equation of state is isochoric.

i.e. rho = const

Definition at line 131 of file heThermo.H.

◆ he() [1/5]

virtual volScalarField& he ( )

inlinevirtual

Enthalpy/Internal energy [J/kg].

Non-const access allowed for transport equations

Definition at line 141 of file heThermo.H.

◆ he() [2/5]

virtual const volScalarField& he ( ) const

inlinevirtual

Enthalpy/Internal energy [J/kg].

Definition at line 147 of file heThermo.H.

◆ he() [3/5]

Foam::tmp< Foam::volScalarField > he	(	const volScalarField &	p,
		const volScalarField &	T
	)		const

virtual

Enthalpy/Internal energy.

for given pressure and temperature [J/kg]

Definition at line 162 of file heThermo.C.

◆ he() [4/5]

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

virtual

Enthalpy/Internal energy for cell-set [J/kg].

Definition at line 217 of file heThermo.C.

◆ he() [5/5]

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

virtual

Enthalpy/Internal energy for patch [J/kg].

Definition at line 237 of file heThermo.C.

◆ hc()

Foam::tmp< Foam::volScalarField > hc

virtual

Chemical enthalpy [J/kg].

Definition at line 258 of file heThermo.C.

◆ THE() [1/2]

Foam::tmp< Foam::scalarField > THE	(	const scalarField &	he,
		const scalarField &	p,
		const scalarField &	T0,
		const labelList &	cells
	)		const

virtual

Temperature from enthalpy/internal energy for cell-set.

Definition at line 661 of file heThermo.C.

◆ THE() [2/2]

Foam::tmp< Foam::scalarField > THE	(	const scalarField &	he,
		const scalarField &	p,
		const scalarField &	T0,
		const label	patchi
	)		const

virtual

Temperature from enthalpy/internal energy for patch.

Definition at line 683 of file heThermo.C.

◆ Cp() [1/2]

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

virtual

Heat capacity at constant pressure for patch [J/kg/K].

Definition at line 304 of file heThermo.C.

◆ Cp() [2/2]

Foam::tmp< Foam::volScalarField > Cp

virtual

Heat capacity at constant pressure [J/kg/K].

Definition at line 325 of file heThermo.C.

◆ Cv() [1/2]

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

virtual

Heat capacity at constant volume for patch [J/kg/K].

Definition at line 375 of file heThermo.C.

◆ Cv() [2/2]

Foam::tmp< Foam::volScalarField > Cv

virtual

Heat capacity at constant volume [J/kg/K].

Definition at line 396 of file heThermo.C.

◆ gamma() [1/2]

Foam::tmp< Foam::volScalarField > gamma

virtual

Gamma = Cp/Cv [].

Definition at line 463 of file heThermo.C.

◆ gamma() [2/2]

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

virtual

Gamma = Cp/Cv for patch [].

Definition at line 442 of file heThermo.C.

◆ Cpv() [1/2]

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

virtual

Heat capacity at constant pressure/volume for patch [J/kg/K].

Definition at line 515 of file heThermo.C.

◆ Cpv() [2/2]

Foam::tmp< Foam::volScalarField > Cpv

virtual

Heat capacity at constant pressure/volume [J/kg/K].

Definition at line 536 of file heThermo.C.

◆ CpByCpv() [1/2]

Foam::tmp< Foam::volScalarField > CpByCpv

virtual

Heat capacity ratio [].

Definition at line 606 of file heThermo.C.

◆ CpByCpv() [2/2]

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

virtual

Heat capacity ratio for patch [].

Definition at line 585 of file heThermo.C.

◆ kappa() [1/2]

Foam::tmp< Foam::volScalarField > kappa

virtual

Thermal diffusivity for temperature of mixture [J/m/s/K].

Definition at line 708 of file heThermo.C.

◆ kappa() [2/2]

Foam::tmp< Foam::scalarField > kappa ( const label patchi ) const

virtual

Thermal diffusivity for temperature.

of mixture for patch [J/m/s/K]

Definition at line 718 of file heThermo.C.

◆ kappaEff() [1/2]

Foam::tmp< Foam::volScalarField > kappaEff ( const volScalarField & alphat ) const

virtual

Effective thermal diffusivity for temperature.

of mixture [J/m/s/K]

Definition at line 735 of file heThermo.C.

◆ kappaEff() [2/2]

Foam::tmp< Foam::scalarField > kappaEff	(	const scalarField &	alphat,
		const label	patchi
	)		const

virtual

Effective thermal diffusivity for temperature.

of mixture for patch [J/m/s/K]

Definition at line 748 of file heThermo.C.

◆ alphaEff() [1/2]

Foam::tmp< Foam::volScalarField > alphaEff ( const volScalarField & alphat ) const

virtual

Effective thermal diffusivity of mixture [kg/m/s].

Definition at line 770 of file heThermo.C.

◆ alphaEff() [2/2]

Foam::tmp< Foam::scalarField > alphaEff	(	const scalarField &	alphat,
		const label	patchi
	)		const

virtual

Effective thermal diffusivity of mixture for patch [kg/m/s].

Definition at line 783 of file heThermo.C.

◆ read()

bool read

virtual

Read thermophysical properties dictionary.

Definition at line 803 of file heThermo.C.

Field Documentation

◆ he_

volScalarField he_

protected

Energy field.

Definition at line 59 of file heThermo.H.

Referenced by heThermo< BasicSolidThermo, MixtureType >::he().

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

src/thermophysicalModels/basic/heThermo/heThermo.H
src/thermophysicalModels/basic/heThermo/heThermo.C

Public Member Functions

Protected Member Functions

Protected Attributes

Private Member Functions

Detailed Description

template<class BasicThermo, class MixtureType> class Foam::heThermo< BasicThermo, MixtureType >

Constructor & Destructor Documentation

◆ heThermo() [1/3]

◆ heThermo() [2/3]

◆ heThermo() [3/3]

◆ ~heThermo()

Member Function Documentation

◆ heBoundaryCorrection()

◆ init()

◆ composition() [1/2]

◆ composition() [2/2]

◆ incompressible()

◆ isochoric()

◆ he() [1/5]

◆ he() [2/5]

◆ he() [3/5]

◆ he() [4/5]

◆ he() [5/5]

◆ hc()

◆ THE() [1/2]

◆ THE() [2/2]

◆ Cp() [1/2]

◆ Cp() [2/2]

◆ Cv() [1/2]

◆ Cv() [2/2]

◆ gamma() [1/2]

◆ gamma() [2/2]

◆ Cpv() [1/2]

◆ Cpv() [2/2]

◆ CpByCpv() [1/2]

◆ CpByCpv() [2/2]

◆ kappa() [1/2]

◆ kappa() [2/2]

◆ kappaEff() [1/2]

◆ kappaEff() [2/2]

◆ alphaEff() [1/2]

◆ alphaEff() [2/2]

◆ read()

Field Documentation

◆ he_

template<class BasicThermo, class MixtureType>
class Foam::heThermo< BasicThermo, MixtureType >