Base-class for solid thermodynamic properties. More...

Inheritance diagram for solidThermo:

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Collaboration diagram for solidThermo:

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Classes
class	composite

class	implementation

Public Types
template<class MixtureType >
using	DerivedThermoType = SolidThermo< BasicThermo< MixtureType, composite > >
	The derived type. More...

Public Member Functions
	TypeName ("solidThermo")
	Runtime type information. More...

	declareRunTimeSelectionTable (autoPtr, solidThermo, fvMesh,(const fvMesh &mesh, const word &phaseName),(mesh, phaseName))

virtual	~solidThermo ()
	Destructor. More...

virtual Switch	dpdt () const =0
	Should the dpdt term be included in the enthalpy equation. More...

virtual bool	isotropic () const =0
	Return true if thermal conductivity is isotropic. More...

virtual const volVectorField &	Kappa () const =0
	Anisotropic thermal conductivity [W/m/K]. More...

Public Member Functions inherited from basicThermo
	TypeName ("basicThermo")
	Runtime type information. More...

	declareRunTimeSelectionTable (autoPtr, basicThermo, fvMesh,(const fvMesh &mesh, const word &phaseName),(mesh, phaseName))
	Declare run-time constructor selection table. More...

virtual	~basicThermo ()
	Destructor. More...

virtual const IOdictionary &	properties () const =0
	Properties dictionary. More...

virtual IOdictionary &	properties ()=0
	Non-const access the properties dictionary. More...

virtual const fvMesh &	mesh () const =0
	Return const access to the mesh. More...

virtual const word &	phaseName () const =0
	Phase name. More...

word	phasePropertyName (const word &name) const
	Name of a property for a given phase. More...

void	validate (const string &app, const word &) const
	Check that the thermodynamics package is consistent. More...

void	validate (const string &app, const word &, const word &) const
	Check that the thermodynamics package is consistent. More...

virtual void	correct ()=0
	Update properties. More...

virtual word	thermoName () const =0
	Name of the thermo physics. More...

virtual bool	incompressible () const =0
	Return true if the equation of state is incompressible. More...

virtual bool	isochoric () const =0
	Return true if the equation of state is isochoric. More...

virtual tmp< volScalarField >	W () const =0
	Molecular weight [kg/kmol]. More...

virtual tmp< scalarField >	W (const label patchi) const =0
	Molecular weight for patch [kg/kmol]. More...

virtual const volScalarField &	T () const =0
	Temperature [K]. More...

virtual volScalarField &	T ()=0
	Temperature [K]. More...

virtual const volScalarField &	he () const =0
	Enthalpy/Internal energy [J/kg]. More...

virtual volScalarField &	he ()=0
	Enthalpy/Internal energy [J/kg]. More...

virtual const volScalarField &	Cp () const =0
	Heat capacity at constant pressure [J/kg/K]. More...

virtual const volScalarField &	Cv () const =0
	Heat capacity at constant volume [J/kg/K]. More...

virtual const volScalarField &	Cpv () const =0
	Heat capacity at constant pressure/volume [J/kg/K]. More...

virtual tmp< volScalarField >	he (const volScalarField &p, const volScalarField &T) const =0
	Enthalpy/Internal energy. More...

virtual tmp< volScalarField::Internal >	he (const volScalarField::Internal &p, const volScalarField::Internal &T) const =0
	Enthalpy/Internal energy. More...

virtual tmp< scalarField >	he (const scalarField &T, const labelList &cells) const =0
	Enthalpy/Internal energy for cell-set [J/kg]. More...

virtual tmp< scalarField >	he (const scalarField &T, const label patchi) const =0
	Enthalpy/Internal energy for patch [J/kg]. More...

virtual tmp< volScalarField::Internal >	he (const volScalarField::Internal &T, const fvSource &model, const volScalarField::Internal &source) const =0
	Enthalpy/Internal energy for source [J/kg]. More...

virtual tmp< scalarField >	he (const scalarField &T, const fvSource &model, const scalarField &source, const labelUList &cells) const =0
	Enthalpy/Internal energy for source [J/kg]. More...

virtual tmp< volScalarField >	hs () const =0
	Sensible enthalpy [J/kg]. More...

virtual tmp< volScalarField >	hs (const volScalarField &p, const volScalarField &T) const =0
	Sensible enthalpy. More...

virtual tmp< volScalarField::Internal >	hs (const volScalarField::Internal &p, const volScalarField::Internal &T) const =0
	Sensible enthalpy. More...

virtual tmp< scalarField >	hs (const scalarField &T, const labelList &cells) const =0
	Sensible enthalpy for cell-set [J/kg]. More...

virtual tmp< scalarField >	hs (const scalarField &T, const label patchi) const =0
	Sensible enthalpy for patch [J/kg]. More...

virtual tmp< volScalarField >	ha () const =0
	Absolute enthalpy [J/kg]. More...

virtual tmp< volScalarField >	ha (const volScalarField &p, const volScalarField &T) const =0
	Absolute enthalpy. More...

virtual tmp< volScalarField::Internal >	ha (const volScalarField::Internal &p, const volScalarField::Internal &T) const =0
	Absolute enthalpy. More...

virtual tmp< scalarField >	ha (const scalarField &T, const labelList &cells) const =0
	Absolute enthalpy for cell-set [J/kg]. More...

virtual tmp< scalarField >	ha (const scalarField &T, const label patchi) const =0
	Absolute enthalpy for patch [J/kg]. More...

virtual tmp< scalarField >	Cp (const scalarField &T, const label patchi) const =0
	Heat capacity at constant pressure for patch [J/kg/K]. More...

virtual tmp< scalarField >	Cv (const scalarField &T, const label patchi) const =0
	Heat capacity at constant volume for patch [J/kg/K]. More...

virtual tmp< scalarField >	Cpv (const scalarField &T, const label patchi) const =0
	Heat capacity at constant pressure/volume for patch [J/kg/K]. More...

tmp< volScalarField >	gamma () const
	Gamma = Cp/Cv []. More...

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

virtual tmp< volScalarField >	The (const volScalarField &h, const volScalarField &p, const volScalarField &T0) const =0
	Temperature from enthalpy/internal energy. More...

virtual tmp< scalarField >	The (const scalarField &h, const scalarField &T0, const labelList &cells) const =0
	Temperature from enthalpy/internal energy for cell-set. More...

virtual tmp< scalarField >	The (const scalarField &h, const scalarField &T0, const label patchi) const =0
	Temperature from enthalpy/internal energy for patch. More...

virtual const volScalarField &	kappa () const =0
	Thermal conductivity of mixture [W/m/K]. More...

template<class FieldType >
const Foam::basicThermo &	lookupThermo (const FieldType &f)

template<class Thermo >
Foam::autoPtr< Thermo >	New (const fvMesh &mesh, const word &phaseName)

Public Member Functions inherited from rhoThermo
virtual	~rhoThermo ()
	Destructor. More...

virtual tmp< volScalarField >	rho () const =0
	Density [kg/m^3]. More...

virtual tmp< scalarField >	rho (const label patchi) const =0
	Density for patch [kg/m^3]. More...

virtual volScalarField &	rho ()=0
	Return non-const access to the local density field [kg/m^3]. More...

Static Public Member Functions
static autoPtr< solidThermo >	New (const fvMesh &, const word &phaseName=word::null)
	Standard selection based on fvMesh. More...

Static Public Member Functions inherited from basicThermo
static word	phasePropertyName (const word &name, const word &phaseName)
	Name of a property for a given phase. More...

template<class FieldType >
static const basicThermo &	lookupThermo (const FieldType &f)
	Lookup the thermo associated with the given field. More...

static wordList	splitThermoName (const word &thermoName, const int nCmpt)
	Split name of thermo package into a list of the components names. More...

static List< Pair< word > >	thermoNameComponents (const word &thermoName)
	Split name of thermo package into a list of named components names. More...

template<class Thermo >
static autoPtr< Thermo >	New (const fvMesh &, const word &phaseName=word::null)
	Generic New for each of the related thermodynamics packages. More...

static autoPtr< basicThermo >	New (const fvMesh &, const word &phaseName=word::null)
	Specialisation of the Generic New for basicThermo. More...

Static Public Attributes
static const word	derivedThermoName
	The derived name. More...

Additional Inherited Members
Protected Member Functions inherited from basicThermo
wordList	heBoundaryTypes ()
	Enthalpy/internal energy field boundary types. More...

wordList	heBoundaryBaseTypes ()
	Enthalpy/internal energy field boundary base types. More...

HashTable< word >	heSourcesTypes ()
	Enthalpy/internal energy field sources types. More...

Static Protected Member Functions inherited from basicThermo
static volScalarField &	lookupOrConstruct (const fvMesh &mesh, const char *name)
	Lookup and the named field, or construct it as MUST-READ if it is. More...

template<class Thermo , class Table >
static Table::iterator	lookupCstrIter (const dictionary &thermoTypeDict, Table tablePtr, const int nCmpt, const char cmptNames[], const word &thermoTypeName)
	Get the constructor iterator for the given thermo dictionary and. More...

template<class Thermo , class Table >
static Table::iterator	lookupCstrIter (const dictionary &thermoDict, Table *tablePtr)
	Get the constructor iterator for the given thermo dictionary and. More...

Detailed Description

Base-class for solid thermodynamic properties.

See also: Foam::basicThermo

Source files

Definition at line 55 of file solidThermo.H.

Member Typedef Documentation

◆ DerivedThermoType

using DerivedThermoType = SolidThermo<BasicThermo<MixtureType, composite> >

The derived type.

Definition at line 75 of file solidThermo.H.

Constructor & Destructor Documentation

◆ ~solidThermo()

~solidThermo ( )

virtual

Destructor.

Definition at line 78 of file solidThermo.C.

Member Function Documentation

◆ TypeName()

TypeName ( "solidThermo" )

Runtime type information.

◆ declareRunTimeSelectionTable()

declareRunTimeSelectionTable	(	autoPtr	,
		solidThermo	,
		fvMesh	,
		(const fvMesh &mesh, const word &phaseName)	,
		(mesh, phaseName)
	)

◆ New()

Foam::autoPtr< Foam::solidThermo > New	(	const fvMesh &	mesh,
		const word &	phaseName = `word::null`
	)

static

Standard selection based on fvMesh.

Definition at line 66 of file solidThermo.C.

References basicThermo::mesh(), and basicThermo::phaseName().

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◆ dpdt()

virtual Switch dpdt ( ) const

pure virtual

Should the dpdt term be included in the enthalpy equation.

Implements basicThermo.

Implemented in solidThermo::composite, and solidThermo::implementation.

◆ isotropic()

virtual bool isotropic ( ) const

pure virtual

Return true if thermal conductivity is isotropic.

Implemented in constSolidThermo, and constAnisoSolidThermo.

◆ Kappa()

virtual const volVectorField& Kappa ( ) const

pure virtual

Anisotropic thermal conductivity [W/m/K].

Implemented in constSolidThermo, and constAnisoSolidThermo.

Member Data Documentation

◆ derivedThermoName

const Foam::word derivedThermoName

static

The derived name.

Definition at line 79 of file solidThermo.H.

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

src/thermophysicalModels/solidThermo/solidThermo/solidThermo.H
src/thermophysicalModels/solidThermo/solidThermo/solidThermo.C

Classes

Public Types

Public Member Functions

Static Public Member Functions

Static Public Attributes

Additional Inherited Members

Detailed Description

Member Typedef Documentation

◆ DerivedThermoType

Constructor & Destructor Documentation

◆ ~solidThermo()

Member Function Documentation

◆ TypeName()

◆ declareRunTimeSelectionTable()

◆ New()

◆ dpdt()

◆ isotropic()

◆ Kappa()

Member Data Documentation

◆ derivedThermoName