Applies radiation sources (i.e. Sh) to the energy equation for compressible flows. More...

Inheritance diagram for radiation:

Collaboration diagram for radiation:

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

	radiation (const word &sourceName, const word &modelType, const dictionary &dict, const fvMesh &mesh)
	Construct from explicit source name and mesh. More...

virtual void	addSup (const volScalarField &rho, fvMatrix< scalar > &eqn, const label fieldi)
	Add explicit contribution to compressible momentum equation. More...

virtual bool	read (const dictionary &dict)
	Read source dictionary. More...

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

	declareRunTimeSelectionTable (autoPtr, option, dictionary,(const word &name, const word &modelType, const dictionary &dict, const fvMesh &mesh),(name, modelType, dict, mesh))

	option (const word &name, const word &modelType, const dictionary &dict, const fvMesh &mesh)
	Construct from components. More...

autoPtr< option >	clone () const
	Return clone. More...

virtual	~option ()=default
	Destructor. More...

const word &	name () const noexcept
	Return const access to the source name. More...

const fvMesh &	mesh () const noexcept
	Return const access to the mesh database. More...

const dictionary &	coeffs () const noexcept
	Return dictionary. More...

bool	active () const noexcept
	True if source is active. More...

void	setApplied (const label fieldi)
	Set the applied flag to true for field index fieldi. More...

bool	active (const bool on) noexcept
	Change source active flag, return previous value. More...

virtual bool	isActive ()
	Is the source active? More...

virtual label	applyToField (const word &fieldName) const
	Return index of field name if found in fieldNames list. More...

virtual void	checkApplied () const
	Check that the source has been applied. More...

virtual void	addSup (fvMatrix< scalar > &eqn, const label fieldi)

virtual void	addSup (fvMatrix< vector > &eqn, const label fieldi)

virtual void	addSup (fvMatrix< symmTensor > &eqn, const label fieldi)

virtual void	addSup (fvMatrix< sphericalTensor > &eqn, const label fieldi)

virtual void	addSup (fvMatrix< tensor > &eqn, const label fieldi)

virtual void	addSup (const volScalarField &rho, fvMatrix< scalar > &eqn, const label fieldi)

virtual void	addSup (const volScalarField &rho, fvMatrix< vector > &eqn, const label fieldi)

virtual void	addSup (const volScalarField &rho, fvMatrix< symmTensor > &eqn, const label fieldi)

virtual void	addSup (const volScalarField &rho, fvMatrix< sphericalTensor > &eqn, const label fieldi)

virtual void	addSup (const volScalarField &rho, fvMatrix< tensor > &eqn, const label fieldi)

virtual void	addSup (const volScalarField &alpha, const volScalarField &rho, fvMatrix< scalar > &eqn, const label fieldi)

virtual void	addSup (const volScalarField &alpha, const volScalarField &rho, fvMatrix< vector > &eqn, const label fieldi)

virtual void	addSup (const volScalarField &alpha, const volScalarField &rho, fvMatrix< symmTensor > &eqn, const label fieldi)

virtual void	addSup (const volScalarField &alpha, const volScalarField &rho, fvMatrix< sphericalTensor > &eqn, const label fieldi)

virtual void	addSup (const volScalarField &alpha, const volScalarField &rho, fvMatrix< tensor > &eqn, const label fieldi)

virtual void	constrain (fvMatrix< scalar > &eqn, const label fieldi)

virtual void	constrain (fvMatrix< vector > &eqn, const label fieldi)

virtual void	constrain (fvMatrix< sphericalTensor > &eqn, const label fieldi)

virtual void	constrain (fvMatrix< symmTensor > &eqn, const label fieldi)

virtual void	constrain (fvMatrix< tensor > &eqn, const label fieldi)

virtual void	correct (volScalarField &field)

virtual void	correct (volVectorField &field)

virtual void	correct (volSphericalTensorField &field)

virtual void	correct (volSymmTensorField &field)

virtual void	correct (volTensorField &field)

virtual void	postProcessSens (scalarField &sensField, const word &fieldName=word::null, const word &designVariablesName=word::null)

virtual void	postProcessSens (vectorField &sensField, const word &fieldName=word::null, const word &designVariablesName=word::null)

virtual void	postProcessSens (tensorField &sensField, const word &fieldName=word::null, const word &designVariablesName=word::null)

virtual void	writeHeader (Ostream &) const
	Write the source header information. More...

virtual void	writeFooter (Ostream &) const
	Write the source footer information. More...

virtual void	writeData (Ostream &) const
	Write the source properties. More...

virtual bool	read (const dictionary &dict)
	Read source dictionary. More...

Additional Inherited Members
Static Public Member Functions inherited from option
static autoPtr< option >	New (const word &name, const dictionary &dict, const fvMesh &mesh)
	Return a reference to the selected fvOption model. More...

Public Attributes inherited from option
bool	log
	Switch write log to Info. More...

Protected Member Functions inherited from option
void	resetApplied ()
	Resize/reset applied flag list for all fieldNames_ entries. More...

Protected Attributes inherited from option
const word	name_
	Source name. More...

const word	modelType_
	Model type. More...

const fvMesh &	mesh_
	Reference to the mesh database. More...

dictionary	dict_
	Top level source dictionary. More...

dictionary	coeffs_
	Dictionary containing source coefficients. More...

wordList	fieldNames_
	Field names to apply source to - populated by derived models. More...

List< bool >	applied_
	Applied flag list - corresponds to each fieldNames_ entry. More...

bool	active_
	Source active flag. More...

Detailed Description

Applies radiation sources (i.e. Sh) to the energy equation for compressible flows.

Usage

Minimal example by using constant/fvOptions:

radiation1
{
    // Mandatory entries (unmodifiable)
    type             radiation;
    fields           (h);

    // Mandatory/Optional (inherited) entries
    ...
}

where the entries mean:

Property	Description	Type	Reqd	Dflt
`type`	Type name: radiation	word	yes	-
`fields`	Name of operand energy field	word	yes	-

The inherited entries are elaborated in:

fvOption.H

Source files

Definition at line 98 of file radiation.H.

Constructor & Destructor Documentation

◆ radiation()

radiation	(	const word &	sourceName,
		const word &	modelType,
		const dictionary &	dict,
		const fvMesh &	mesh
	)

Construct from explicit source name and mesh.

Definition at line 48 of file radiation.C.

References basicThermo::dictName, option::fieldNames_, objectRegistry::lookupObject(), option::mesh_, Time::New(), option::resetApplied(), and List< T >::resize().

Here is the call graph for this function:

Member Function Documentation

◆ TypeName()

TypeName ( "radiation" )

Runtime type information.

◆ addSup()

void addSup	(	const volScalarField &	rho,
		fvMatrix< scalar > &	eqn,
		const label	fieldi
	)

virtual

Add explicit contribution to compressible momentum equation.

Reimplemented from option.

Definition at line 76 of file radiation.C.

References basicThermo::correct(), basicThermo::dictName, and fvMatrix< Type >::psi().

Here is the call graph for this function:

◆ read()

bool read ( const dictionary & dict )

virtual

Read source dictionary.

Reimplemented from option.

Definition at line 70 of file radiation.C.

References dict, and kEpsilonLopesdaCosta< BasicTurbulenceModel >::read().

Here is the call graph for this function:

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

src/thermophysicalModels/radiation/fvOptions/radiation/radiation.H
src/thermophysicalModels/radiation/fvOptions/radiation/radiation.C

Public Member Functions

Additional Inherited Members

Detailed Description

Constructor & Destructor Documentation

◆ radiation()

Member Function Documentation

◆ TypeName()

◆ addSup()

◆ read()