Public Member Functions | List of all members
turbulentTemperatureCoupledBaffleMixedFvPatchScalarField Class Reference

Mixed boundary condition for temperature, to be used for heat-transfer on back-to-back baffles.Optional thin thermal layer resistances can be specified through thicknessLayers and kappaLayers entries. More...

Inheritance diagram for turbulentTemperatureCoupledBaffleMixedFvPatchScalarField:
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Collaboration diagram for turbulentTemperatureCoupledBaffleMixedFvPatchScalarField:
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Public Member Functions

 TypeName ("compressible::turbulentTemperatureCoupledBaffleMixed")
 Runtime type information. More...
 
 turbulentTemperatureCoupledBaffleMixedFvPatchScalarField (const fvPatch &, const DimensionedField< scalar, volMesh > &)
 Construct from patch and internal field. More...
 
 turbulentTemperatureCoupledBaffleMixedFvPatchScalarField (const fvPatch &, const DimensionedField< scalar, volMesh > &, const dictionary &)
 Construct from patch, internal field and dictionary. More...
 
 turbulentTemperatureCoupledBaffleMixedFvPatchScalarField (const turbulentTemperatureCoupledBaffleMixedFvPatchScalarField &, const fvPatch &, const DimensionedField< scalar, volMesh > &, const fvPatchFieldMapper &)
 Construct by mapping given. More...
 
virtual tmp< fvPatchScalarFieldclone () const
 Construct and return a clone. More...
 
 turbulentTemperatureCoupledBaffleMixedFvPatchScalarField (const turbulentTemperatureCoupledBaffleMixedFvPatchScalarField &, const DimensionedField< scalar, volMesh > &)
 Construct as copy setting internal field reference. More...
 
virtual tmp< fvPatchScalarFieldclone (const DimensionedField< scalar, volMesh > &iF) const
 Construct and return a clone setting internal field reference. 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 temperatureCoupledBase
 temperatureCoupledBase (const fvPatch &patch, const word &calculationMethod, const word &kappaName, const word &alphaAniName)
 Construct from patch and K name. 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...
 
word KMethod () const
 Method to obtain K. More...
 
const wordkappaName () const
 Name of thermal conductivity field. More...
 
tmp< scalarFieldkappa (const scalarField &Tp) const
 Given patch temperature calculate corresponding K field. More...
 
void write (Ostream &) const
 Write. More...
 

Additional Inherited Members

- Public Types inherited from temperatureCoupledBase
enum  KMethodType { mtFluidThermo, mtSolidThermo, mtDirectionalSolidThermo, mtLookup }
 Type of supplied Kappa. More...
 
- Protected Attributes inherited from temperatureCoupledBase
const fvPatchpatch_
 Underlying patch. More...
 
const KMethodType method_
 How to get K. More...
 
const word kappaName_
 Name of thermal conductivity field (if looked up from database) More...
 
const word alphaAniName_
 Name of the non-Isotropic alpha (default: Anialpha) More...
 
- Static Protected Attributes inherited from temperatureCoupledBase
static const NamedEnum< KMethodType, 4 > KMethodTypeNames_
 

Detailed Description

Mixed boundary condition for temperature, to be used for heat-transfer on back-to-back baffles.Optional thin thermal layer resistances can be specified through thicknessLayers and kappaLayers entries.

The thermal conductivity, kappa, can either be retrieved from the mesh database using the lookup option, or from a solidThermo or fluidThermo thermophysical package.

Specifies gradient and temperature such that the equations are the same on both sides:

where KDelta is heat-transfer coefficient K * deltaCoeffs


Patch usage

Property Description Required Default value
kappa thermal conductivity option yes
kappaName name of thermal conductivity field no
Tnbr name of the field no T
thicknessLayers list of thicknesses per layer [m] no
kappaLayers list of thermal conductivites per layer [W/m/K] no

Example of the boundary condition specification:

    myPatch
    {
        type            compressible::turbulentTemperatureCoupledBaffleMixed;
        Tnbr            T;
        kappa           lookup;
        KappaName       kappa;
        thicknessLayers (0.1 0.2 0.3 0.4);
        kappaLayers     (1 2 3 4)
        value           uniform 300;
    }

Needs to be on underlying mapped(Wall)FvPatch.

Note: kappa : heat conduction at patch. Gets supplied how to lookup calculate kappa:

Source files

Definition at line 134 of file turbulentTemperatureCoupledBaffleMixedFvPatchScalarField.H.

Constructor & Destructor Documentation

turbulentTemperatureCoupledBaffleMixedFvPatchScalarField ( const fvPatch p,
const DimensionedField< scalar, volMesh > &  iF,
const dictionary dict 
)

Construct as copy setting internal field reference.

Definition at line 150 of file turbulentTemperatureCoupledBaffleMixedFvPatchScalarField.C.

Member Function Documentation

TypeName ( "compressible::turbulentTemperatureCoupledBaffleMixed"  )

Runtime type information.

virtual tmp<fvPatchScalarField> clone ( ) const
inlinevirtual
virtual tmp<fvPatchScalarField> clone ( const DimensionedField< scalar, volMesh > &  iF) const
inlinevirtual
void updateCoeffs ( )
virtual
void write ( Ostream os) const
virtual

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