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Opm::NcpPrimaryVariables< TypeTag > Class Template Reference

Represents the primary variables used by the compositional multi-phase NCP model. More...

#include <ncpprimaryvariables.hh>

Inheritance diagram for Opm::NcpPrimaryVariables< TypeTag >:
Opm::FvBasePrimaryVariables< TypeTag >

Public Member Functions

 NcpPrimaryVariables (const NcpPrimaryVariables &value)=default
 
NcpPrimaryVariablesoperator= (const NcpPrimaryVariables &value)=default
 
template<class FluidState >
void assignMassConservative (const FluidState &fluidState, const MaterialLawParams &matParams, bool isInEquilibrium=false)
 < Import base class assignment operators.
 
template<class FluidState >
void assignNaive (const FluidState &fluidState, unsigned refPhaseIdx=0)
 Directly retrieve the primary variables from an arbitrary fluid state.
 
FvBasePrimaryVariablesoperator= (const FvBasePrimaryVariables &value)=default
 Assignment from another primary variables object.
 
- Public Member Functions inherited from Opm::FvBasePrimaryVariables< TypeTag >
 FvBasePrimaryVariables (const FvBasePrimaryVariables &value)=default
 Assignment from another primary variables object.
 
FvBasePrimaryVariablesoperator= (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

- Static Public Member Functions inherited from Opm::FvBasePrimaryVariables< TypeTag >
static void init ()
 < Import base class assignment operators.
 
static void registerParameters ()
 

Detailed Description

template<class TypeTag>
class Opm::NcpPrimaryVariables< TypeTag >

Represents the primary variables used by the compositional multi-phase NCP model.

This class is basically a Dune::FieldVector which can retrieve its contents from an aribitatry fluid state.

Constructor & Destructor Documentation

◆ NcpPrimaryVariables()

template<class TypeTag >
Opm::NcpPrimaryVariables< TypeTag >::NcpPrimaryVariables ( const NcpPrimaryVariables< TypeTag > &  value)
default

Member Function Documentation

◆ assignMassConservative()

template<class TypeTag >
template<class FluidState >
void Opm::NcpPrimaryVariables< TypeTag >::assignMassConservative ( const FluidState &  fluidState,
const MaterialLawParams &  matParams,
bool  isInEquilibrium = false 
)
inline

< Import base class assignment operators.

< 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.

Parameters
fluidStateThe fluid state which should be represented by the primary variables. The temperatures, pressures, compositions and densities of all phases must be defined.
matParamsThe capillary pressure law parameters
isInEquilibriumIf 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.

◆ assignNaive()

template<class TypeTag >
template<class FluidState >
void Opm::NcpPrimaryVariables< TypeTag >::assignNaive ( const FluidState &  fluidState,
unsigned  refPhaseIdx = 0 
)
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!

Parameters
fluidStateThe fluid state which should be represented by the primary variables. The temperatures, pressures, compositions and densities of all phases must be defined.

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