hPolynomialThermo< EquationOfState, PolySize > Class Template Reference | OpenFOAM Source Code Guide

The OpenFOAM Foundation

Thermodynamics package templated on the equation of state, using polynomial functions for cp, h and s. More...

Inheritance diagram for hPolynomialThermo< EquationOfState, PolySize >:

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Collaboration diagram for hPolynomialThermo< EquationOfState, PolySize >:

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Public Member Functions
	hPolynomialThermo (const dictionary &dict)
	Construct from dictionary. More...

	hPolynomialThermo (const word &, const hPolynomialThermo &)
	Construct as a named copy. More...

scalar	limit (const scalar) const
	Limit the temperature to be in the range Tlow_ to Thigh_. More...

scalar	Cp (const scalar p, const scalar T) const
	Heat capacity at constant pressure [J/(kg K)]. More...

scalar	Ha (const scalar p, const scalar T) const
	Absolute Enthalpy [J/kg]. More...

scalar	Hs (const scalar p, const scalar T) const
	Sensible enthalpy [J/kg]. More...

scalar	Hc () const
	Chemical enthalpy [J/kg]. More...

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

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

void	operator= (const hPolynomialThermo &)

void	operator+= (const hPolynomialThermo &)

void	operator*= (const scalar)

Static Public Member Functions
static word	typeName ()
	Return the instantiated type name. More...

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

hPolynomialThermo	operator* (const scalar, const hPolynomialThermo &)

hPolynomialThermo	operator== (const hPolynomialThermo &, const hPolynomialThermo &)

Ostream &	operator (Ostream &, const hPolynomialThermo &)

Detailed Description

template<class EquationOfState, int PolySize = 8>
class Foam::hPolynomialThermo< EquationOfState, PolySize >

Thermodynamics package templated on the equation of state, using polynomial functions for cp, h and s.

Polynomials for h and s derived from cp.

Usage

Property	Description
`Hf`	Heat of formation
`Sf`	Standard entropy
`CpCoeffs<8>`	Specific heat at constant pressure polynomial coeffs

Example of the specification of the thermodynamic properties:

    thermodynamics
    {
        Hf              0;
        Sf              0;
        CpCoeffs<8>     ( 1000 -0.05 0.003 0 0 0 0 0 );
    }

The polynomial expression is evaluated as so:

$Cp = 1000 - 0.05 T + 0.003 T^2$

Note

Heat of formation is inputted in [J/kg], but internally uses [J/kmol]
Standard entropy is inputted in [J/kg/K], but internally uses [J/kmol/K]
Specific heat at constant pressure polynomial coefficients evaluate to an expression in [J/(kg.K)].

Source files

See also: Foam::Polynomial

Definition at line 98 of file hPolynomialThermo.H.

Constructor & Destructor Documentation

◆ hPolynomialThermo() [1/2]

hPolynomialThermo ( const dictionary & dict )

Construct from dictionary.

Definition at line 33 of file hPolynomialThermo.C.

References Foam::constant::standard::Tstd, and hPolynomialThermo< EquationOfState, PolySize >::write().

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◆ hPolynomialThermo() [2/2]

hPolynomialThermo	(	const word &	name,
		const hPolynomialThermo< EquationOfState, PolySize > &	pt
	)

inline

Construct as a named copy.

Definition at line 54 of file hPolynomialThermoI.H.

References hPolynomialThermo< EquationOfState, PolySize >::limit().

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Member Function Documentation

◆ typeName()

static word typeName ( )

inlinestatic

Return the instantiated type name.

Definition at line 185 of file hPolynomialThermo.H.

References hPolynomialThermo< EquationOfState, PolySize >::Cp(), hPolynomialThermo< EquationOfState, PolySize >::Ha(), hPolynomialThermo< EquationOfState, PolySize >::Hc(), hPolynomialThermo< EquationOfState, PolySize >::Hs(), hPolynomialThermo< EquationOfState, PolySize >::limit(), hPolynomialThermo< EquationOfState, PolySize >::operator*=(), hPolynomialThermo< EquationOfState, PolySize >::operator+=(), hPolynomialThermo< EquationOfState, PolySize >::operator=(), p, hPolynomialThermo< EquationOfState, PolySize >::S(), Foam::T(), and hPolynomialThermo< EquationOfState, PolySize >::write().

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◆ limit()

Foam::scalar limit ( const scalar T ) const

inline

Limit the temperature to be in the range Tlow_ to Thigh_.

Definition at line 72 of file hPolynomialThermoI.H.

References hPolynomialThermo< EquationOfState, PolySize >::Cp(), and Foam::T().

Referenced by hPolynomialThermo< EquationOfState, PolySize >::hPolynomialThermo(), and hPolynomialThermo< EquationOfState, PolySize >::typeName().

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◆ Cp()

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

inline

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

Definition at line 82 of file hPolynomialThermoI.H.

References hPolynomialThermo< EquationOfState, PolySize >::Ha().

Referenced by hPolynomialThermo< EquationOfState, PolySize >::limit(), and hPolynomialThermo< EquationOfState, PolySize >::typeName().

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◆ Ha()

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

inline

Absolute Enthalpy [J/kg].

Definition at line 92 of file hPolynomialThermoI.H.

References hPolynomialThermo< EquationOfState, PolySize >::Hs().

Referenced by hPolynomialThermo< EquationOfState, PolySize >::Cp(), hPolynomialThermo< EquationOfState, PolySize >::Hs(), and hPolynomialThermo< EquationOfState, PolySize >::typeName().

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◆ Hs()

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

inline

Sensible enthalpy [J/kg].

Definition at line 102 of file hPolynomialThermoI.H.

References hPolynomialThermo< EquationOfState, PolySize >::Ha(), and hPolynomialThermo< EquationOfState, PolySize >::Hc().

Referenced by hPolynomialThermo< EquationOfState, PolySize >::Ha(), and hPolynomialThermo< EquationOfState, PolySize >::typeName().

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◆ Hc()

Foam::scalar Hc ( ) const

inline

Chemical enthalpy [J/kg].

Definition at line 111 of file hPolynomialThermoI.H.

References hPolynomialThermo< EquationOfState, PolySize >::S().

Referenced by hPolynomialThermo< EquationOfState, PolySize >::Hs(), and hPolynomialThermo< EquationOfState, PolySize >::typeName().

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◆ S()

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

inline

Entropy [J/(kg K)].

Definition at line 120 of file hPolynomialThermoI.H.

Referenced by hPolynomialThermo< EquationOfState, PolySize >::Hc(), and hPolynomialThermo< EquationOfState, PolySize >::typeName().

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◆ write()

void write ( Ostream & os ) const

Write to Ostream.

Definition at line 65 of file hPolynomialThermo.C.

References dictionary::add(), dict, dictionaryName::dictName(), Foam::indent(), Foam::name(), Foam::blockMeshTools::write(), and Ostream::write().

Referenced by hPolynomialThermo< EquationOfState, PolySize >::hPolynomialThermo(), and hPolynomialThermo< EquationOfState, PolySize >::typeName().

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◆ operator=()

void operator= ( const hPolynomialThermo< EquationOfState, PolySize > & )

inline

Definition at line 133 of file hPolynomialThermoI.H.

Referenced by hPolynomialThermo< EquationOfState, PolySize >::typeName().

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◆ operator+=()

void operator+= ( const hPolynomialThermo< EquationOfState, PolySize > & )

inline

Definition at line 149 of file hPolynomialThermoI.H.

References Foam::mag(), Y, Y1, and Y2.

Referenced by hPolynomialThermo< EquationOfState, PolySize >::typeName().

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◆ operator*=()

void operator*= ( const scalar s )

inline

Definition at line 173 of file hPolynomialThermoI.H.

References Foam::mag(), s(), Y1, and Y2.

Referenced by hPolynomialThermo< EquationOfState, PolySize >::typeName().

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Friends And Related Function Documentation

◆ operator+

hPolynomialThermo operator+	(	const hPolynomialThermo< EquationOfState, PolySize > &	,
		const hPolynomialThermo< EquationOfState, PolySize > &
	)

friend

◆ operator*

hPolynomialThermo operator*	(	const scalar	,
		const hPolynomialThermo< EquationOfState, PolySize > &
	)

friend

◆ operator==

hPolynomialThermo operator==	(	const hPolynomialThermo< EquationOfState, PolySize > &	,
		const hPolynomialThermo< EquationOfState, PolySize > &
	)

friend

◆ operator

Ostream& operator	(	Ostream &	,
		const hPolynomialThermo< EquationOfState, PolySize > &
	)

friend

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

src/thermophysicalModels/specie/thermo/hPolynomial/hPolynomialThermo.H
src/thermophysicalModels/specie/thermo/hPolynomial/hPolynomialThermo.C
src/thermophysicalModels/specie/thermo/hPolynomial/hPolynomialThermoI.H