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Represents the primary variables used in the Richards model. More...
#include <richardsprimaryvariables.hh>
Public Member Functions | |
RichardsPrimaryVariables (const RichardsPrimaryVariables &value)=default | |
RichardsPrimaryVariables & | operator= (const RichardsPrimaryVariables &value)=default |
void | assignImmiscibleFromWetting (Scalar T, Scalar pw, Scalar Sw, const MaterialLawParams &matParams) |
< Import base class assignment operators. | |
void | assignImmiscibleFromNonWetting (Scalar T, Scalar pn, Scalar Sn, const MaterialLawParams &matParams) |
Set the primary variables with the non-wetting phase pressure, saturation and temperature. | |
template<class FluidState > | |
void | assignMassConservative (const FluidState &fluidState, const MaterialLawParams &matParams, bool=false) |
< Import base class assignment operators. | |
template<class FluidState > | |
void | assignNaive (const FluidState &fluidState) |
Directly retrieve the primary variables from an arbitrary fluid state. | |
FvBasePrimaryVariables & | operator= (const FvBasePrimaryVariables &value)=default |
Assignment from another primary variables object. | |
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FvBasePrimaryVariables (const FvBasePrimaryVariables &value)=default | |
Assignment from another primary variables object. | |
FvBasePrimaryVariables & | operator= (const FvBasePrimaryVariables &value)=default |
Assignment from another primary variables object. | |
Evaluation | makeEvaluation (unsigned varIdx, unsigned timeIdx, LinearizationType linearizationType=LinearizationType()) const |
Return a primary variable intensive evaluation. | |
template<class FluidState > | |
void | assignNaive (const FluidState &) |
Assign the primary variables "somehow" from a fluid state. | |
void | checkDefined () const |
Instruct valgrind to check the definedness of all attributes of this class. | |
Additional Inherited Members | |
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static void | init () |
< Import base class assignment operators. | |
static void | registerParameters () |
Represents the primary variables used in the Richards model.
This class is basically a Dune::FieldVector which can retrieve its contents from an aribitatry fluid state.
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default |
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inline |
Set the primary variables with the non-wetting phase pressure, saturation and temperature.
T | The temperature [K] |
pn | The pressure of the non-wetting phase [Pa] |
Sn | The saturation of the non-wetting phase [] |
matParams | The capillary pressure law parameters |
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inline |
< Import base class assignment operators.
Set the primary variables with the wetting phase pressure, saturation and temperature.
T | The temperature [K] |
pw | The pressure of the wetting phase [Pa] |
Sw | The saturation of the wetting phase [] |
matParams | The capillary pressure law parameters |
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inline |
< Import base class assignment operators.
Set the primary variables from an arbitrary fluid state in a mass conservative way.
If an energy equation is included, the fluid temperatures are the same as the one given in the fluid state, not the enthalpy.
fluidState | The fluid state which should be represented by the primary variables. The temperatures, pressures, compositions and densities of all phases must be defined. |
matParams | The capillary pressure law parameters |
isInEquilibrium | If true, the fluid state expresses thermodynamic equilibrium assuming the relations expressed by the fluid system. This implies that in addition to the quantities mentioned above, the fugacities are also defined. |
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inline |
Directly retrieve the primary variables from an arbitrary fluid state.
This method retrieves all primary variables from an abitrary fluid state without careing whether the state which is represented by the resulting primary variables features the equivalent mass as the given fluid state. This method is massively cheaper and simpler than assignMassConservative() but it should be used with care!
fluidState | The fluid state which should be represented by the primary variables. The temperatures, pressures, compositions and densities of all phases must be defined. |