Adiabatic perfect fluid equation of state. More...

Public Member Functions
	adiabaticPerfectFluid (const Specie &sp, const scalar p0, const scalar rho0, const scalar gamma, const scalar B)
	Construct from components. More...

	adiabaticPerfectFluid (const dictionary &dict)
	Construct from dictionary. More...

	adiabaticPerfectFluid (const word &name, const adiabaticPerfectFluid &)
	Construct as named copy. More...

autoPtr< adiabaticPerfectFluid >	clone () const
	Construct and return a clone. More...

scalar	rho (scalar p, scalar T) const
	Return density [kg/m^3]. More...

scalar	H (const scalar p, const scalar T) const
	Return enthalpy departure [J/kg]. More...

scalar	Cp (scalar p, scalar T) const
	Return Cp departure [J/(kg K]. More...

scalar	E (const scalar p, const scalar T) const
	Return internal energy departure [J/kg]. More...

scalar	Cv (scalar p, scalar T) const
	Return Cv departure [J/(kg K]. More...

scalar	S (const scalar p, const scalar T) const
	Return entropy [J/(kg K)]. More...

scalar	psi (scalar p, scalar T) const
	Return compressibility rho/p [s^2/m^2]. More...

scalar	Z (scalar p, scalar T) const
	Return compression factor []. More...

scalar	CpMCv (scalar p, scalar T) const
	Return (Cp - Cv) [J/(kg K]. More...

void	write (Ostream &os) const
	Write to Ostream. More...

void	operator+= (const adiabaticPerfectFluid &)

void	operator*= (const scalar)

Static Public Member Functions
static autoPtr< adiabaticPerfectFluid >	New (const dictionary &dict)

static word	typeName ()
	Return the instantiated type name. More...

Static Public Attributes
static const bool	incompressible = false
	Is the equation of state is incompressible i.e. rho != f(p) More...

static const bool	isochoric = false
	Is the equation of state is isochoric i.e. rho = const. More...

Friends
adiabaticPerfectFluid	operator+ (const adiabaticPerfectFluid &, const adiabaticPerfectFluid &)

adiabaticPerfectFluid	operator* (const scalar s, const adiabaticPerfectFluid &)

adiabaticPerfectFluid	operator== (const adiabaticPerfectFluid &, const adiabaticPerfectFluid &)

Ostream &	operator (Ostream &, const adiabaticPerfectFluid &)

Detailed Description

template<class Specie>
class Foam::adiabaticPerfectFluid< Specie >

Adiabatic perfect fluid equation of state.

Source files

Definition at line 52 of file adiabaticPerfectFluid.H.

Constructor & Destructor Documentation

◆ adiabaticPerfectFluid() [1/3]

adiabaticPerfectFluid	(	const Specie &	sp,
		const scalar	p0,
		const scalar	rho0,
		const scalar	gamma,
		const scalar	B
	)

inline

Construct from components.

Definition at line 34 of file adiabaticPerfectFluidI.H.

◆ adiabaticPerfectFluid() [2/3]

adiabaticPerfectFluid ( const dictionary & dict )

Construct from dictionary.

Definition at line 35 of file adiabaticPerfectFluid.C.

◆ adiabaticPerfectFluid() [3/3]

adiabaticPerfectFluid	(	const word &	name,
		const adiabaticPerfectFluid< Specie > &
	)

inline

Construct as named copy.

Member Function Documentation

◆ clone()

Foam::autoPtr< Foam::adiabaticPerfectFluid< Specie > > clone ( ) const

inline

Construct and return a clone.

Definition at line 69 of file adiabaticPerfectFluidI.H.

References Foam::New().

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◆ New()

Foam::autoPtr< Foam::adiabaticPerfectFluid< Specie > > New ( const dictionary & dict )

inlinestatic

Definition at line 78 of file adiabaticPerfectFluidI.H.

References dict, and Foam::New().

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◆ typeName()

static word typeName ( )

inlinestatic

Return the instantiated type name.

Definition at line 144 of file adiabaticPerfectFluid.H.

◆ rho()

Foam::scalar rho	(	scalar	p,
		scalar	T
	)		const

inline

Return density [kg/m^3].

Definition at line 90 of file adiabaticPerfectFluidI.H.

References p, and Foam::pow().

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◆ H()

Foam::scalar H	(	const scalar	p,
		const scalar	T
	)		const

inline

Return enthalpy departure [J/kg].

Definition at line 101 of file adiabaticPerfectFluidI.H.

◆ Cp()

Foam::scalar Cp	(	scalar	p,
		scalar	T
	)		const

inline

Return Cp departure [J/(kg K].

Definition at line 112 of file adiabaticPerfectFluidI.H.

◆ E()

Foam::scalar E	(	const scalar	p,
		const scalar	T
	)		const

inline

Return internal energy departure [J/kg].

Definition at line 123 of file adiabaticPerfectFluidI.H.

◆ Cv()

Foam::scalar Cv	(	scalar	p,
		scalar	T
	)		const

inline

Return Cv departure [J/(kg K].

Definition at line 134 of file adiabaticPerfectFluidI.H.

◆ S()

Foam::scalar S	(	const scalar	p,
		const scalar	T
	)		const

inline

Return entropy [J/(kg K)].

Definition at line 145 of file adiabaticPerfectFluidI.H.

References n, p, Foam::pow(), Foam::constant::standard::Pstd, and Foam::T().

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◆ psi()

Foam::scalar psi	(	scalar	p,
		scalar	T
	)		const

inline

Return compressibility rho/p [s^2/m^2].

Definition at line 159 of file adiabaticPerfectFluidI.H.

References p, and Foam::pow().

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◆ Z()

Foam::scalar Z	(	scalar	p,
		scalar	T
	)		const

inline

Return compression factor [].

Definition at line 171 of file adiabaticPerfectFluidI.H.

◆ CpMCv()

Foam::scalar CpMCv	(	scalar	p,
		scalar	T
	)		const

inline

Return (Cp - Cv) [J/(kg K].

Definition at line 179 of file adiabaticPerfectFluidI.H.

◆ write()

void write ( Ostream & os ) const

Write to Ostream.

Definition at line 50 of file adiabaticPerfectFluid.C.

References os(), and Foam::vtk::write().

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◆ operator+=()

void operator+= ( const adiabaticPerfectFluid< Specie > & )

inline

Definition at line 192 of file adiabaticPerfectFluidI.H.

References Foam::mag(), and Y.

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◆ operator*=()

void operator*= ( const scalar s )

inline

Definition at line 213 of file adiabaticPerfectFluidI.H.

References s.

Friends And Related Function Documentation

◆ operator+

adiabaticPerfectFluid operator+	(	const adiabaticPerfectFluid< Specie > &	,
		const adiabaticPerfectFluid< Specie > &
	)

friend

◆ operator*

adiabaticPerfectFluid operator*	(	const scalar	s,
		const adiabaticPerfectFluid< Specie > &
	)

friend

◆ operator==

adiabaticPerfectFluid operator==	(	const adiabaticPerfectFluid< Specie > &	,
		const adiabaticPerfectFluid< Specie > &
	)

friend

◆ operator

Ostream& operator	(	Ostream &	,
		const adiabaticPerfectFluid< Specie > &
	)

friend

Member Data Documentation

◆ incompressible

const bool incompressible = false

static

Is the equation of state is incompressible i.e. rho != f(p)

Definition at line 153 of file adiabaticPerfectFluid.H.

◆ isochoric

const bool isochoric = false

static

Is the equation of state is isochoric i.e. rho = const.

Definition at line 156 of file adiabaticPerfectFluid.H.

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

src/thermophysicalModels/specie/equationOfState/adiabaticPerfectFluid/adiabaticPerfectFluid.H
src/thermophysicalModels/specie/equationOfState/adiabaticPerfectFluid/adiabaticPerfectFluid.C
src/thermophysicalModels/specie/equationOfState/adiabaticPerfectFluid/adiabaticPerfectFluidI.H

Public Member Functions

Static Public Member Functions

Static Public Attributes

Friends

Detailed Description

template<class Specie> class Foam::adiabaticPerfectFluid< Specie >

Constructor & Destructor Documentation

◆ adiabaticPerfectFluid() [1/3]

◆ adiabaticPerfectFluid() [2/3]

◆ adiabaticPerfectFluid() [3/3]

Member Function Documentation

◆ clone()

◆ New()

◆ typeName()

◆ rho()

◆ H()

◆ Cp()

◆ E()

◆ Cv()

◆ S()

◆ psi()

◆ Z()

◆ CpMCv()

◆ write()

◆ operator+=()

◆ operator*=()

Friends And Related Function Documentation

◆ operator+

◆ operator*

◆ operator==

◆ operator

Member Data Documentation

◆ incompressible

◆ isochoric

template<class Specie>
class Foam::adiabaticPerfectFluid< Specie >