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Ensure solvent boundary fluxes work.
This does the job for the element-context-based linearizer, but not for the TpfaLinearizer, which when combined with the solvent model will require a bit more work for bcs.
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@ -421,12 +421,15 @@ protected:
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const FluidState& exFluidState)
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{
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const auto& scvf = elemCtx.stencil(timeIdx).boundaryFace(scvfIdx);
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Scalar faceArea = scvf.area();
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Scalar zEx = scvf.integrationPos()[dimWorld - 1];
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const Scalar faceArea = scvf.area();
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const Scalar zEx = scvf.integrationPos()[dimWorld - 1];
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const auto& problem = elemCtx.problem();
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const unsigned globalSpaceIdx = elemCtx.globalSpaceIndex(0, timeIdx);
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const auto& intQuantsIn = elemCtx.intensiveQuantities(0, timeIdx);
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calculateBoundaryGradients_(problem,
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elemCtx.globalSpaceIndex(0, timeIdx),
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elemCtx.intensiveQuantities(0, timeIdx),
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globalSpaceIdx,
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intQuantsIn,
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scvfIdx,
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timeIdx,
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faceArea,
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@ -436,6 +439,20 @@ protected:
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dnIdx_,
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volumeFlux_,
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pressureDifference_);
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// Treating solvent here and not in the static method, since that would require more
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// extensive refactoring. It means that the TpfaLinearizer will not support bcs for solvent until this is
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// addressed.
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if constexpr (enableSolvent) {
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if (upIdx_[gasPhaseIdx] == 0) {
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const Scalar trans = problem.transmissibilityBoundary(globalSpaceIdx, scvfIdx);
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const Scalar transModified = trans * Toolbox::value(intQuantsIn.rockCompTransMultiplier());
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const auto solventFlux = pressureDifference_[gasPhaseIdx] * intQuantsIn.mobility(gasPhaseIdx) * (-transModified/faceArea);
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asImp_().setSolventVolumeFlux(solventFlux);
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} else {
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asImp_().setSolventVolumeFlux(0.0);
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}
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}
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}
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public:
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@ -461,7 +478,6 @@ public:
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if (!enableBoundaryMassFlux)
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return;
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Scalar trans = problem.transmissibilityBoundary(globalSpaceIdx, bfIdx);
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// estimate the gravity correction: for performance reasons we use a simplified
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@ -520,15 +536,11 @@ public:
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const auto& up = intQuantsIn;
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// deal with water induced rock compaction
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const double transMult = Toolbox::value(up.rockCompTransMultiplier());
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const Scalar transMult = Toolbox::value(up.rockCompTransMultiplier());
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transModified *= transMult;
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volumeFlux[phaseIdx] =
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pressureDifference[phaseIdx]*up.mobility(phaseIdx)*(-transModified/faceArea);
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// TODO: Figure out if this did have any effect. It should?
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// if (enableSolvent && phaseIdx == gasPhaseIdx)
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// asImp_().setSolventVolumeFlux( pressureDifference[phaseIdx]*up.solventMobility()*(-transModified/faceArea));
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}
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else {
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// compute the phase mobility using the material law parameters of the
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@ -540,10 +552,6 @@ public:
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const auto& mob = kr[phaseIdx]/exFluidState.viscosity(phaseIdx);
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volumeFlux[phaseIdx] =
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pressureDifference[phaseIdx]*mob*(-transModified/faceArea);
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// Solvent inflow is not yet supported
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// if (enableSolvent && phaseIdx == gasPhaseIdx)
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// asImp_().setSolventVolumeFlux(0.0);
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}
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}
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}
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