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Specifies the configuration used by the ECL kr/pC hysteresis code. More...
#include <EclHysteresisConfig.hpp>
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void | setEnableHysteresis (bool yesno) |
Specify whether hysteresis is enabled or not. | |
bool | enableHysteresis () const |
Returns whether hysteresis is enabled. | |
void | setPcHysteresisModel (int value) |
Set the type of the hysteresis model which is used for capillary pressure. More... | |
int | pcHysteresisModel () const |
Return the type of the hysteresis model which is used for capillary pressure. More... | |
void | setKrHysteresisModel (int value) |
Set the type of the hysteresis model which is used for relative permeability. More... | |
int | krHysteresisModel () const |
Return the type of the hysteresis model which is used for relative permeability. More... | |
double | modParamTrapped () const |
Regularisation parameter used for Killough model. More... | |
double | curvatureCapPrs () const |
Curvature parameter used for capillary pressure hysteresis. More... | |
Specifies the configuration used by the ECL kr/pC hysteresis code.
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Curvature parameter used for capillary pressure hysteresis.
default: 0.1
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Return the type of the hysteresis model which is used for relative permeability.
-1: relperm hysteresis is disabled 0/1: use the Carlson model for relative permeability hysteresis 2/3: use the Killough model for relative permeability hysteresis
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Regularisation parameter used for Killough model.
default: 0.1
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Return the type of the hysteresis model which is used for capillary pressure.
-1: capillary pressure hysteresis is disabled 0: use the Killough model for capillary pressure hysteresis
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Set the type of the hysteresis model which is used for relative permeability.
-1: relperm hysteresis is disabled 0: use the Carlson model for relative permeability hysteresis of the non-wetting phase and the drainage curve for the relperm of the wetting phase 1: use the Carlson model for relative permeability hysteresis of the non-wetting phase and the imbibition curve for the relperm of the wetting phase 2: use the Killough model for relative permeability hysteresis of the non-wetting phase and the drainage curve for the relperm of the wetting phase 3: use the Killough model for relative permeability hysteresis of the non-wetting phase and the imbibition curve for the relperm of the wetting phase
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Set the type of the hysteresis model which is used for capillary pressure.
-1: capillary pressure hysteresis is disabled 0: use the Killough model for capillary pressure hysteresis