compressibilityLagrangianScalarFieldSource Class Reference

Source condition for compressibility. Applied to the compressibility field automatically by the Lagrangian thermodynamic model. This should not need to be specified manually. More...

Inheritance diagram for compressibilityLagrangianScalarFieldSource:

Collaboration diagram for compressibilityLagrangianScalarFieldSource:

Public Member Functions
	TypeName ("compressibility")
	Runtime type information. More...
virtual autoPtr< LagrangianScalarFieldSource >	clone (const regIOobject &iIo) const
	Construct and return a clone setting the internal field reference. More...
virtual	~compressibilityLagrangianScalarFieldSource ()
	Destructor. More...
virtual tmp< LagrangianSubScalarField >	value (const LagrangianInjection &, const LagrangianSubMesh &) const
	Return the value for an instantaneous injection. More...

Detailed Description

Source condition for compressibility. Applied to the compressibility field automatically by the Lagrangian thermodynamic model. This should not need to be specified manually.

Source files

• compressibilityLagrangianScalarFieldSource.H
• compressibilityLagrangianScalarFieldSource.C

Definition at line 50 of file compressibilityLagrangianScalarFieldSource.H.

Constructor & Destructor Documentation

~compressibilityLagrangianScalarFieldSource()

~compressibilityLagrangianScalarFieldSource ( )

virtual

Destructor.

Definition at line 32 of file compressibilityLagrangianScalarFieldSource.C.

Member Function Documentation

TypeName()

TypeName

(

"compressibility"

)

Runtime type information.

clone()

virtual autoPtr<LagrangianScalarFieldSource> clone ( const regIOobject &  iIo ) const

inlinevirtual

Construct and return a clone setting the internal field reference.

Definition at line 66 of file compressibilityLagrangianScalarFieldSource.H.

value()

Foam::tmp< Foam::LagrangianSubScalarField > value ( const LagrangianInjection &  injection, const LagrangianSubMesh &  subMesh  ) const

virtual

Return the value for an instantaneous injection.

Definition at line 40 of file compressibilityLagrangianScalarFieldSource.C.

References IOobject::groupName(), LagrangianModel::name(), fluidThermo::psi(), GeometricField< Type, GeoMesh, PrimitiveField >::sources(), basicThermo::T(), thermo, and Foam::typeName().

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

• src/Lagrangian/LagrangianThermo/fields/derivedLagrangianFieldSources/compressibility/compressibilityLagrangianScalarFieldSource.H
• src/Lagrangian/LagrangianThermo/fields/derivedLagrangianFieldSources/compressibility/compressibilityLagrangianScalarFieldSource.C