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| TypeName ("Henry") |
| Runtime type information. More...
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| Henry (const dictionary &dict, const phasePair &pair) |
| Construct from components. More...
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virtual | ~Henry () |
| Destructor. More...
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virtual void | update (const volScalarField &Tf) |
| Update the composition. More...
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virtual tmp< volScalarField > | Yf (const word &speciesName, const volScalarField &Tf) const |
| The interface species fraction. More...
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virtual tmp< volScalarField > | YfPrime (const word &speciesName, const volScalarField &Tf) const |
| The interface species fraction derivative w.r.t. temperature. More...
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| TypeName ("interfaceCompositionModel") |
| Runtime type information. More...
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| declareRunTimeSelectionTable (autoPtr, interfaceCompositionModel, dictionary,(const dictionary &dict, const phasePair &pair),(dict, pair)) |
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| interfaceCompositionModel (const dictionary &dict, const phasePair &pair) |
| Construct from a dictionary and a phase pair. More...
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virtual | ~interfaceCompositionModel () |
| Destructor. More...
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const phasePair & | pair () const |
| Return the phase pair. More...
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const hashedWordList & | species () const |
| Return the transferring species names. More...
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const rhoReactionThermo & | thermo () const |
| Return the thermo. More...
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const basicSpecieMixture & | composition () const |
| Return the composition. More...
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const rhoThermo & | otherThermo () const |
| Return the other thermo. More...
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bool | otherHasComposition () const |
| Return whether the other side has a multi-specie composition. More...
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const basicSpecieMixture & | otherComposition () const |
| Return the other composition. More...
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virtual tmp< volScalarField > | dY (const word &speciesName, const volScalarField &Tf) const |
| Mass fraction difference between the interface and the field. More...
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virtual tmp< volScalarField > | D (const word &speciesName) const |
| Mass diffusivity. More...
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virtual tmp< volScalarField > | L (const word &speciesName, const volScalarField &Tf) const |
| Latent heat. More...
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virtual void | addDmdtL (const volScalarField &K, const volScalarField &Tf, volScalarField &dmdtL, volScalarField &dmdtLPrime) const |
| Add latent heat flow rate to total. More...
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Henry's law for gas solubility in liquid. The concentration of a dissolved species in the liquid is proportional to its partial pressure in the gas. A dimensionless solubility, , is given for each species. This is the ratio of the concentration of the species in the liquid to the corresponding concentration in the gas; i.e., . Mixing in the gas is assumed to be ideal.
- Source files
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Definition at line 58 of file Henry.H.