This template class contains the data which is required to calculate the fluxes of the fluid phases over a face of a finite volume for the black-oil model.
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void | update (const ElementContext &elemCtx, unsigned scvfIdx, unsigned timeIdx) |
| Update the extensive quantities for a given sub-control-volume-face.
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template<class Context , class FluidState > |
void | updateBoundary (const Context &ctx, unsigned bfIdx, unsigned timeIdx, const FluidState &fluidState) |
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void | update (const ElementContext &elemCtx, unsigned scvfIdx, unsigned timeIdx) |
| Update the extensive quantities for a given sub-control-volume-face.
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template<class Context , class FluidState > |
void | updateBoundary (const Context &context, unsigned bfIdx, unsigned timeIdx, const FluidState &fluidState) |
| Update the extensive quantities for a given boundary face.
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short | upstreamIndex (unsigned phaseIdx) const |
| Return the local index of the upstream control volume for a given phase as a function of the normal flux.
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short | downstreamIndex (unsigned phaseIdx) const |
| Return the local index of the downstream control volume for a given phase as a function of the normal flux.
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Scalar | upstreamWeight (unsigned) const |
| Return the weight of the upstream control volume for a given phase as a function of the normal flux.
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Scalar | downstreamWeight (unsigned phaseIdx) const |
| Return the weight of the downstream control volume for a given phase as a function of the normal flux.
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template<class Dummy = bool> |
void | updateVolumeFluxPerm (const ElementContext &elemCtx, unsigned scvfIdx, unsigned timeIdx) |
| Method which calculates the volume flux of the polymer "phase" using the pressure potential gradient of the gas phase and the intrinsic permeability.
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template<class Dummy = bool> |
void | updateVolumeFluxTrans (const ElementContext &elemCtx, unsigned scvfIdx, unsigned timeIdx) |
| Method which calculates the volume flux of the polymer "phase" using the gas pressure potential difference between cells and transmissibilities.
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unsigned | solventUpstreamIndex () const |
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unsigned | solventDownstreamIndex () const |
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const Evaluation & | solventVolumeFlux () const |
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void | setSolventVolumeFlux (const Evaluation &solventVolumeFlux) |
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template<class Dummy = bool> |
void | updateShearMultipliersPerm (const ElementContext &, unsigned, unsigned) |
| Method which calculates the shear factor based on flow velocity.
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template<class Dummy = bool> |
void | updateShearMultipliers (const ElementContext &elemCtx, unsigned scvfIdx, unsigned timeIdx) |
| Method which calculates the shear factor based on flow velocity.
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const Evaluation & | polymerShearFactor () const |
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const Evaluation & | waterShearFactor () const |
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void | updateEnergy (const ElementContext &elemCtx, unsigned scvfIdx, unsigned timeIdx) |
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template<class Context , class BoundaryFluidState > |
void | updateEnergyBoundary (const Context &ctx, unsigned scvfIdx, unsigned timeIdx, const BoundaryFluidState &boundaryFs) |
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const Evaluation & | energyFlux () const |
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static void | registerParameters () |
| Register all run-time parameters for the extensive quantities.
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template<class FluidState > |
static void | updateEnergy (Evaluation &energyFlux, const unsigned &focusDofIndex, const unsigned &inIdx, const unsigned &exIdx, const IntensiveQuantities &inIq, const IntensiveQuantities &exIq, const FluidState &inFs, const FluidState &exFs, const Scalar &inAlpha, const Scalar &outAlpha, const Scalar &faceArea) |
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template<class BoundaryFluidState > |
static void | updateEnergyBoundary (Evaluation &energyFlux, const IntensiveQuantities &inIq, unsigned focusDofIndex, unsigned inIdx, Scalar alpha, const BoundaryFluidState &boundaryFs) |
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template<class TypeTag>
class Opm::BlackOilExtensiveQuantities< TypeTag >
This template class contains the data which is required to calculate the fluxes of the fluid phases over a face of a finite volume for the black-oil model.
This means pressure and concentration gradients, phase densities at the intergration point, etc.