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Provides an simple way to create and manage the material law objects for a complete ECL deck. More...
#include <EclMaterialLawManager.hpp>
Public Types | |
using | MaterialLaw = EclMultiplexerMaterial< Traits, GasOilTwoPhaseLaw, OilWaterTwoPhaseLaw, GasWaterTwoPhaseLaw > |
using | MaterialLawParams = typename MaterialLaw::Params |
Public Member Functions | |
void | initFromState (const EclipseState &eclState) |
void | initParamsForElements (const EclipseState &eclState, size_t numCompressedElems) |
Scalar | applySwatinit (unsigned elemIdx, Scalar pcow, Scalar Sw) |
Modify the initial condition according to the SWATINIT keyword. More... | |
bool | enableEndPointScaling () const |
bool | enableHysteresis () const |
MaterialLawParams & | materialLawParams (unsigned elemIdx) |
const MaterialLawParams & | materialLawParams (unsigned elemIdx) const |
const MaterialLawParams & | connectionMaterialLawParams (unsigned satRegionIdx, unsigned elemIdx) const |
Returns a material parameter object for a given element and saturation region. More... | |
int | satnumRegionIdx (unsigned elemIdx) const |
int | getKrnumSatIdx (unsigned elemIdx, FaceDir::DirEnum facedir) const |
bool | hasDirectionalRelperms () const |
int | imbnumRegionIdx (unsigned elemIdx) const |
std::shared_ptr< MaterialLawParams > & | materialLawParamsPointerReferenceHack (unsigned elemIdx) |
template<class FluidState > | |
void | updateHysteresis (const FluidState &fluidState, unsigned elemIdx) |
void | oilWaterHysteresisParams (Scalar &pcSwMdc, Scalar &krnSwMdc, unsigned elemIdx) const |
void | setOilWaterHysteresisParams (const Scalar &pcSwMdc, const Scalar &krnSwMdc, unsigned elemIdx) |
void | gasOilHysteresisParams (Scalar &pcSwMdc, Scalar &krnSwMdc, unsigned elemIdx) const |
void | setGasOilHysteresisParams (const Scalar &pcSwMdc, const Scalar &krnSwMdc, unsigned elemIdx) |
EclEpsScalingPoints< Scalar > & | oilWaterScaledEpsPointsDrainage (unsigned elemIdx) |
const EclEpsScalingPointsInfo< Scalar > & | oilWaterScaledEpsInfoDrainage (size_t elemIdx) const |
Provides an simple way to create and manage the material law objects for a complete ECL deck.
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inline |
Modify the initial condition according to the SWATINIT keyword.
The method returns the water saturation which yields a givenn capillary pressure. The reason this method is not folded directly into initFromState() is that the capillary pressure given depends on the particuars of how the simulator calculates its initial condition.
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inline |
Returns a material parameter object for a given element and saturation region.
This method changes the saturation table idx in the original material law parameter object. In the context of ECL reservoir simulators, this is required to properly handle wells with its own saturation table idx. In order to reset the saturation table idx in the materialLawparams_ call the method with the cells satRegionIdx