This boundary condition provides a coupled temperature condition between multiple mesh regions. More...
Public Member Functions | |
TypeName ("compressible::thermalBaffle") | |
Runtime type information. More... | |
thermalBaffleFvPatchScalarField (const fvPatch &, const DimensionedField< scalar, volMesh > &) | |
Construct from patch and internal field. More... | |
thermalBaffleFvPatchScalarField (const fvPatch &, const DimensionedField< scalar, volMesh > &, const dictionary &) | |
Construct from patch, internal field and dictionary. More... | |
thermalBaffleFvPatchScalarField (const thermalBaffleFvPatchScalarField &, const fvPatch &, const DimensionedField< scalar, volMesh > &, const fvPatchFieldMapper &) | |
Construct by mapping given. More... | |
virtual tmp< fvPatchScalarField > | clone () const |
Construct and return a clone. More... | |
thermalBaffleFvPatchScalarField (const thermalBaffleFvPatchScalarField &, const DimensionedField< scalar, volMesh > &) | |
Construct as copy setting internal field reference. More... | |
virtual tmp< fvPatchScalarField > | clone (const DimensionedField< scalar, volMesh > &iF) const |
Construct and return a clone setting internal field reference. More... | |
virtual void | autoMap (const fvPatchFieldMapper &) |
Map (and resize as needed) from self given a mapping object. More... | |
virtual void | rmap (const fvPatchScalarField &, const labelList &) |
Reverse map the given fvPatchField onto this fvPatchField. More... | |
virtual void | updateCoeffs () |
Update the coefficients associated with the patch field. More... | |
virtual void | write (Ostream &) const |
Write. More... | |
Public Member Functions inherited from turbulentTemperatureRadCoupledMixedFvPatchScalarField | |
TypeName ("compressible::turbulentTemperatureRadCoupledMixed") | |
Runtime type information. More... | |
turbulentTemperatureRadCoupledMixedFvPatchScalarField (const fvPatch &, const DimensionedField< scalar, volMesh > &) | |
Construct from patch and internal field. More... | |
turbulentTemperatureRadCoupledMixedFvPatchScalarField (const fvPatch &, const DimensionedField< scalar, volMesh > &, const dictionary &) | |
Construct from patch, internal field and dictionary. More... | |
turbulentTemperatureRadCoupledMixedFvPatchScalarField (const turbulentTemperatureRadCoupledMixedFvPatchScalarField &, const fvPatch &, const DimensionedField< scalar, volMesh > &, const fvPatchFieldMapper &) | |
Construct by mapping given. More... | |
turbulentTemperatureRadCoupledMixedFvPatchScalarField (const turbulentTemperatureRadCoupledMixedFvPatchScalarField &, const DimensionedField< scalar, volMesh > &) | |
Construct as copy setting internal field reference. More... | |
Public Member Functions inherited from temperatureCoupledBase | |
temperatureCoupledBase (const fvPatch &patch) | |
Construct from patch. More... | |
temperatureCoupledBase (const fvPatch &patch, const dictionary &dict) | |
Construct from patch and dictionary. More... | |
temperatureCoupledBase (const fvPatch &patch, const temperatureCoupledBase &base) | |
Construct from patch and temperatureCoupledBase. More... | |
tmp< scalarField > | kappa (const fvPatchScalarField &Tp) const |
Given patch temperature calculate corresponding K field. More... | |
void | write (Ostream &) const |
Write. More... | |
This boundary condition provides a coupled temperature condition between multiple mesh regions.
The regions are generally referred to as the:
The primary region creates the baffle region and evolves its energy equation either:
The thermodynamic properties of the baffle material are specified via dictionary entries on the master patch.
<masterPatchName> { type compressible::thermalBaffle; // Underlaying coupled boundary condition Tnbr T; kappa fluidThermo; // or solidThermo KappaName none; qrNbr qr;//or none.Name of qr field on neighbourregion qr none;// or none.Name of qr field on localregion value uniform 300; // Baffle region name regionName baffleRegion; active yes; // Solid thermo in solid region thermoType { type heSolidThermo; mixture pureMixture; transport constIso; thermo hConst; equationOfState rhoConst; specie specie; energy sensibleEnthalpy; } mixture { specie { molWeight 20; } transport { kappa 0.01; } thermodynamics { Hf 0; Cp 15; } density { rho 80; } } radiation { radiationModel opaqueSolid; absorptionEmissionModel none; scatterModel none; } // Extrude model for new region extrudeModel linearNormal; nLayers 50; expansionRatio 1; columnCells false; //3D or 1D linearNormalCoeffs { thickness 0.02; } }
Slave patch on primary region:
<slavePatchName> { type compressible::thermalBaffle; kappa fluidThermo; kappaName none; value uniform 300;
Patches on baffle region:
bottom { type compressible::thermalBaffle; kappa solidThermo; kappaName none; value uniform 300; } top { type compressible::thermalBaffle; kappa solidThermo; kappaName none; value uniform 300; }
Definition at line 175 of file thermalBaffleFvPatchScalarField.H.
thermalBaffleFvPatchScalarField | ( | const fvPatch & | p, |
const DimensionedField< scalar, volMesh > & | iF | ||
) |
Construct from patch and internal field.
Definition at line 42 of file thermalBaffleFvPatchScalarField.C.
Referenced by thermalBaffleFvPatchScalarField::clone(), and thermalBaffleFvPatchScalarField::thermalBaffleFvPatchScalarField().
thermalBaffleFvPatchScalarField | ( | const fvPatch & | p, |
const DimensionedField< scalar, volMesh > & | iF, | ||
const dictionary & | dict | ||
) |
Construct from patch, internal field and dictionary.
Definition at line 80 of file thermalBaffleFvPatchScalarField.C.
References polyMesh::boundaryMesh(), polyMesh::defaultRegion, objectRegistry::foundObject(), polyBoundaryMesh::mesh(), fvMesh::name(), Foam::compressible::New(), regionName, thermalBaffleFvPatchScalarField::thermalBaffleFvPatchScalarField(), and fvMesh::time().
thermalBaffleFvPatchScalarField | ( | const thermalBaffleFvPatchScalarField & | ptf, |
const fvPatch & | p, | ||
const DimensionedField< scalar, volMesh > & | iF, | ||
const fvPatchFieldMapper & | mapper | ||
) |
Construct by mapping given.
thermalBaffleFvPatchScalarField onto a new patch
Definition at line 57 of file thermalBaffleFvPatchScalarField.C.
References thermalBaffleFvPatchScalarField::thermalBaffleFvPatchScalarField().
thermalBaffleFvPatchScalarField | ( | const thermalBaffleFvPatchScalarField & | ptf, |
const DimensionedField< scalar, volMesh > & | iF | ||
) |
Construct as copy setting internal field reference.
Definition at line 125 of file thermalBaffleFvPatchScalarField.C.
References thermalBaffleFvPatchScalarField::autoMap().
TypeName | ( | "compressible::thermalBaffle" | ) |
Runtime type information.
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inlinevirtual |
Construct and return a clone.
Reimplemented from turbulentTemperatureRadCoupledMixedFvPatchScalarField.
Definition at line 242 of file thermalBaffleFvPatchScalarField.H.
References thermalBaffleFvPatchScalarField::thermalBaffleFvPatchScalarField().
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inlinevirtual |
Construct and return a clone setting internal field reference.
Reimplemented from turbulentTemperatureRadCoupledMixedFvPatchScalarField.
Definition at line 259 of file thermalBaffleFvPatchScalarField.H.
References thermalBaffleFvPatchScalarField::autoMap(), thermalBaffleFvPatchScalarField::rmap(), thermalBaffleFvPatchScalarField::thermalBaffleFvPatchScalarField(), thermalBaffleFvPatchScalarField::updateCoeffs(), and thermalBaffleFvPatchScalarField::write().
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virtual |
Map (and resize as needed) from self given a mapping object.
Used to update fields following mesh topology change
Definition at line 142 of file thermalBaffleFvPatchScalarField.C.
References thermalBaffleFvPatchScalarField::rmap().
Referenced by thermalBaffleFvPatchScalarField::clone(), and thermalBaffleFvPatchScalarField::thermalBaffleFvPatchScalarField().
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virtual |
Reverse map the given fvPatchField onto this fvPatchField.
Used to reconstruct fields
Definition at line 151 of file thermalBaffleFvPatchScalarField.C.
References polyMesh::boundaryMesh(), mappedPatchBase::coupleGroup(), Foam::endl(), forAll, dictionary::lookup(), polyBoundaryMesh::mesh(), mappedPatchBase::mode(), polyPatch::New(), patchi, patchNames(), patchTypes(), Foam::readBool(), regionName, mappedPatchBase::sampleModeNames_, dictionary::set(), List< T >::size(), and WarningInFunction.
Referenced by thermalBaffleFvPatchScalarField::autoMap(), and thermalBaffleFvPatchScalarField::clone().
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virtual |
Update the coefficients associated with the patch field.
Reimplemented from turbulentTemperatureRadCoupledMixedFvPatchScalarField.
Definition at line 248 of file thermalBaffleFvPatchScalarField.C.
References polyMesh::boundaryMesh(), polyMesh::defaultRegion, polyBoundaryMesh::mesh(), fvMesh::name(), and turbulentTemperatureRadCoupledMixedFvPatchScalarField::updateCoeffs().
Referenced by thermalBaffleFvPatchScalarField::clone().
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virtual |
Write.
Reimplemented from turbulentTemperatureRadCoupledMixedFvPatchScalarField.
Definition at line 266 of file thermalBaffleFvPatchScalarField.C.
References polyMesh::boundaryMesh(), polyMesh::defaultRegion, token::END_STATEMENT, dictionary::lookup(), Foam::compressible::makePatchTypeField(), polyBoundaryMesh::mesh(), fvMesh::name(), Foam::nl, Foam::readBool(), regionName, dictionary::subDict(), turbulentTemperatureRadCoupledMixedFvPatchScalarField::write(), and Foam::writeKeyword().
Referenced by thermalBaffleFvPatchScalarField::clone().