egrMixture< ThermoType > Class Template Reference

The egr mixture contains species ("ft", "b", "egr"). More...

#include <egrMixture.H>

Inheritance diagram for egrMixture< ThermoType >:

Collaboration diagram for egrMixture< ThermoType >:

Public Types
typedef ThermoType	thermoType
	The type of thermodynamics this mixture is instantiated for.
Public Types inherited from basicCombustionMixture
typedef basicCombustionMixture	basicMixtureType
	The base class of the mixture.
Public Types inherited from basicSpecieMixture
typedef basicSpecieMixture	basicMixtureType
	The base class of the mixture.
Public Types inherited from basicMultiComponentMixture
typedef basicMultiComponentMixture	basicMixtureType
	The base class of the mixture.
Public Types inherited from basicMixture
typedef basicMixture	basicMixtureType
	The base class of the mixture.

Public Member Functions
	egrMixture (const dictionary &thermoDict, const fvMesh &mesh, const word &phaseName)
	Construct from dictionary, mesh and phaseName.
virtual	~egrMixture ()=default
	Destructor.
const dimensionedScalar &	stoicRatio () const
const ThermoType &	mixture (const scalar, const scalar, const scalar) const
const ThermoType &	cellMixture (const label celli) const
const ThermoType &	patchFaceMixture (const label patchi, const label facei) const
const ThermoType &	cellReactants (const label celli) const
const ThermoType &	patchFaceReactants (const label patchi, const label facei) const
const ThermoType &	cellProducts (const label celli) const
const ThermoType &	patchFaceProducts (const label patchi, const label facei) const
void	read (const dictionary &)
	Read dictionary.
const ThermoType &	getLocalThermo (const label speciei) const
	Return thermo based on index.
Public Member Functions inherited from basicCombustionMixture
	TypeName ("basicCombustionMixture")
	Run time type information.
	basicCombustionMixture (const dictionary &thermoDict, const wordList &specieNames, const fvMesh &mesh, const word &phaseName)
	Construct from dictionary, specie names, mesh and phase name.
virtual	~basicCombustionMixture ()=default
	Destructor.
scalar	fres (const scalar ft, const scalar stoicRatio) const
tmp< volScalarField >	fres (const volScalarField &ft, const dimensionedScalar &stoicRatio) const
Public Member Functions inherited from basicSpecieMixture
	TypeName ("basicSpecieMixture")
	Run time type information.
	basicSpecieMixture (const dictionary &thermoDict, const wordList &specieNames, const fvMesh &mesh, const word &phaseName)
	Construct from dictionary, species names, mesh and phase name.
virtual	~basicSpecieMixture ()=default
	Destructor.
virtual scalar	W (const label speciei) const =0
	Molecular weight of the given specie [kg/kmol].
virtual scalar	Hc (const label speciei) const =0
	Chemical enthalpy [J/kg].
virtual scalar	Cp (const label speciei, const scalar p, const scalar T) const =0
	Heat capacity at constant pressure [J/(kg K)].
virtual scalar	Cv (const label speciei, const scalar p, const scalar T) const =0
	Heat capacity at constant volume [J/(kg K)].
virtual scalar	HE (const label speciei, const scalar p, const scalar T) const =0
	Enthalpy/Internal energy [J/kg].
virtual scalar	Ha (const label speciei, const scalar p, const scalar T) const =0
	Absolute enthalpy [J/kg].
virtual scalar	Hs (const label speciei, const scalar p, const scalar T) const =0
	Sensible enthalpy [J/kg].
virtual scalar	S (const label speciei, const scalar p, const scalar T) const =0
	Entropy [J/(kg K)].
virtual scalar	Es (const label speciei, const scalar p, const scalar T) const =0
	Sensible internal energy [J/kg].
virtual scalar	G (const label speciei, const scalar p, const scalar T) const =0
	Gibbs free energy [J/kg].
virtual scalar	A (const label speciei, const scalar p, const scalar T) const =0
	Helmholtz free energy [J/kg].
virtual scalar	mu (const label speciei, const scalar p, const scalar T) const =0
	Dynamic viscosity [kg/m/s].
virtual scalar	kappa (const label speciei, const scalar p, const scalar T) const =0
	Thermal conductivity [W/m/K].
virtual scalar	alphah (const label speciei, const scalar p, const scalar T) const =0
	Thermal diffusivity of enthalpy [kg/m/s].
virtual scalar	rho (const label speciei, const scalar p, const scalar T) const =0
	Density [kg/m3].
virtual autoPtr< speciesCompositionTable >	specieComposition () const
	Species composition.
Public Member Functions inherited from basicMultiComponentMixture
	TypeName ("basicMultiComponentMixture")
	Run time type information.
	basicMultiComponentMixture (const dictionary &thermoDict, const wordList &specieNames, const fvMesh &mesh, const word &phaseName)
	Construct from dictionary, species names, mesh and phase name.
virtual	~basicMultiComponentMixture ()=default
	Destructor.
const speciesTable &	species () const
	Return the table of species.
bool	contains (const word &specieName) const
	Does the mixture include this specie?
bool	active (label speciei) const
	Return true for active species.
const List< bool > &	active () const
	Return the bool list of active species.
void	setActive (label speciei)
	Set speciei active.
void	setInactive (label speciei)
	Set speciei inactive.
PtrList< volScalarField > &	Y ()
	Return the mass-fraction fields.
const PtrList< volScalarField > &	Y () const
	Return the const mass-fraction fields.
volScalarField &	Y (const label i)
	Return the mass-fraction field for a specie given by index.
const volScalarField &	Y (const label i) const
	Return the const mass-fraction field for a specie given by index.
volScalarField &	Y (const word &specieName)
	Return the mass-fraction field for a specie given by name.
const volScalarField &	Y (const word &specieName) const
	Return the const mass-fraction field for a specie given by name.
Public Member Functions inherited from basicMixture
	basicMixture (const dictionary &, const fvMesh &, const word &)
	Construct from dictionary, mesh and phase name.

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

Additional Inherited Members
Protected Attributes inherited from basicMultiComponentMixture
speciesTable	species_
	Table of specie names.
List< bool >	active_
	List of specie active flags.
PtrList< volScalarField >	Y_
	Species mass fractions.

Detailed Description

template<class ThermoType>
class Foam::egrMixture< ThermoType >

The egr mixture contains species ("ft", "b", "egr").

Source files

• egrMixture.H
• egrMixture.C

Definition at line 50 of file egrMixture.H.

Member Typedef Documentation

thermoType

template<class ThermoType>

typedef ThermoType thermoType

The type of thermodynamics this mixture is instantiated for.

Definition at line 90 of file egrMixture.H.

Constructor & Destructor Documentation

egrMixture()

template<class ThermoType>

egrMixture	(	const dictionary &	thermoDict,
		const fvMesh &	mesh,
		const word &	phaseName )

Construct from dictionary, mesh and phaseName.

Definition at line 27 of file egrMixture.C.

References basicCombustionMixture::basicCombustionMixture(), mesh, and thermoDict.

Here is the call graph for this function:

~egrMixture()

template<class ThermoType>

virtual ~egrMixture ( )

virtualdefault

Destructor.

Member Function Documentation

typeName()

template<class ThermoType>

word typeName ( )

inlinestatic

Return the instantiated type name.

Definition at line 117 of file egrMixture.H.

stoicRatio()

template<class ThermoType>

const dimensionedScalar & stoicRatio ( ) const

inline

Definition at line 122 of file egrMixture.H.

Referenced by mixture().

Here is the caller graph for this function:

mixture()

template<class ThermoType>

const ThermoType & mixture	(	const scalar	ft,
		const scalar	b,
		const scalar	egr ) const

Definition at line 59 of file egrMixture.C.

References b, basicCombustionMixture::fres(), and stoicRatio().

Here is the call graph for this function:

cellMixture()

template<class ThermoType>

const ThermoType & cellMixture ( const label celli ) const

inline

Definition at line 134 of file egrMixture.H.

References mixture.

patchFaceMixture()

template<class ThermoType>

const ThermoType & patchFaceMixture ( const label patchi, const label facei ) const

inline

Definition at line 139 of file egrMixture.H.

References mixture.

cellReactants()

template<class ThermoType>

const ThermoType & cellReactants ( const label celli ) const

inline

Definition at line 153 of file egrMixture.H.

References mixture.

patchFaceReactants()

template<class ThermoType>

const ThermoType & patchFaceReactants ( const label patchi, const label facei ) const

inline

Definition at line 158 of file egrMixture.H.

References mixture.

cellProducts()

template<class ThermoType>

const ThermoType & cellProducts ( const label celli ) const

inline

Definition at line 172 of file egrMixture.H.

References mixture.

patchFaceProducts()

template<class ThermoType>

const ThermoType & patchFaceProducts ( const label patchi, const label facei ) const

inline

Definition at line 177 of file egrMixture.H.

References mixture.

read()

template<class ThermoType>

void read

(

const dictionary &

thermoDict

)

Read dictionary.

Definition at line 91 of file egrMixture.C.

References thermoDict.

getLocalThermo()

template<class ThermoType>

const ThermoType & getLocalThermo

(

const label

speciei

)

const

Return thermo based on index.

Definition at line 102 of file egrMixture.C.

References Foam::abort(), Foam::FatalError, and FatalErrorInFunction.

Here is the call graph for this function:

---

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

• src/thermophysicalModels/reactionThermo/mixtures/egrMixture/egrMixture.H
• src/thermophysicalModels/reactionThermo/mixtures/egrMixture/egrMixture.C