Simple infinitely fast chemistry combustion model based on the principle mixed is burnt. Additional parameter C is used to distribute the heat release rate.in time. More...
Simple infinitely fast chemistry combustion model based on the principle mixed is burnt. Additional parameter C is used to distribute the heat release rate.in time.
Definition at line 54 of file infinitelyFastChemistry.H.
Public Member Functions | |
TypeName ("infinitelyFastChemistry") | |
Runtime type information. | |
infinitelyFastChemistry (const dictionary &combustionProperties, const hsCombustionThermo &thermo, const compressible::turbulenceModel &turbulence, const surfaceScalarField &phi, const volScalarField &rho) | |
Construct from components. | |
virtual | ~infinitelyFastChemistry () |
virtual bool | read (const dictionary &combustionProperties) |
Update properties from given dictionary. | |
virtual void | correct () |
Correct combustion rate. | |
virtual tmp< volScalarField > | wFuelNorm () const |
Return normalised consumption rate of (fu - fres) | |
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TypeName ("combustionModel") | |
Runtime type information. | |
declareRunTimeSelectionTable (autoPtr, combustionModel, dictionary,(const dictionary &combustionProperties, const hsCombustionThermo &thermo, const compressible::turbulenceModel &turbulence, const surfaceScalarField &phi, const volScalarField &rho),(combustionProperties, thermo, turbulence, phi, rho)) | |
combustionModel (const dictionary &combustionProperties, const hsCombustionThermo &thermo, const compressible::turbulenceModel &turbulence, const surfaceScalarField &phi, const volScalarField &rho) | |
Construct from components. | |
virtual | ~combustionModel () |
Destructor. | |
const basicMultiComponentMixture & | composition () const |
Access composition. | |
const dictionary | combustionModelCoeffs () const |
Access combustion dictionary. | |
const dimensionedScalar | qFuel () const |
Access heat of combustion. | |
virtual tmp< fvScalarMatrix > | R (volScalarField &fu) const |
Fuel consumption rate matrix i.e. source-term for the fuel equation. | |
virtual tmp< volScalarField > | dQ (const fvScalarMatrix &Rfu) const |
Heat-release rate calculated from the given. |
Additional Inherited Members | |
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static autoPtr< combustionModel > | New (const dictionary &combustionProperties, const hsCombustionThermo &thermo, const compressible::turbulenceModel &turbulence, const surfaceScalarField &phi, const volScalarField &rho) |
Return a reference to the selected combustion model. | |
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dictionary | combustionModelCoeffs_ |
Dictionary of coefficients for the particular model. | |
const hsCombustionThermo & | thermo_ |
Reference to the thermodynamic. | |
const compressible::turbulenceModel & | turbulence_ |
Reference to the turbulence model. | |
const fvMesh & | mesh_ |
Reference to the mesh database. | |
const surfaceScalarField & | phi_ |
Reference to mass-flux field. | |
const volScalarField & | rho_ |
Reference to the density field. | |
dimensionedScalar | stoicRatio_ |
Stoichiometric air-fuel mass ratio. | |
dimensionedScalar | s_ |
Stoichiometric oxygen-fuel mass ratio. | |
dimensionedScalar | qFuel_ |
Heat of combustion (J/Kg) |
infinitelyFastChemistry | ( | const dictionary & | combustionProperties, |
const hsCombustionThermo & | thermo, | ||
const compressible::turbulenceModel & | turbulence, | ||
const surfaceScalarField & | phi, | ||
const volScalarField & | rho | ||
) |
Construct from components.
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virtual |
TypeName | ( | "infinitelyFastChemistry" | ) |
Runtime type information.
|
virtual |
Update properties from given dictionary.
Implements combustionModel.
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virtual |
Correct combustion rate.
Implements combustionModel.
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virtual |
Return normalised consumption rate of (fu - fres)
Implements combustionModel.