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1c2e186017
even if we are using the dynamic specialization
220 lines
8.5 KiB
C++
220 lines
8.5 KiB
C++
/*
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Copyright 2017 SINTEF Digital, Mathematics and Cybernetics.
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Copyright 2017 Statoil ASA.
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Copyright 2016 - 2017 IRIS AS.
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This file is part of the Open Porous Media project (OPM).
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OPM is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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OPM is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with OPM. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <config.h>
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#include <opm/simulators/wells/StandardWellEval.hpp>
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#include <opm/material/fluidsystems/BlackOilFluidSystem.hpp>
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#include <opm/models/blackoil/blackoilindices.hh>
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#include <opm/models/blackoil/blackoilonephaseindices.hh>
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#include <opm/models/blackoil/blackoiltwophaseindices.hh>
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#include <opm/simulators/timestepping/ConvergenceReport.hpp>
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#include <opm/simulators/utils/DeferredLoggingErrorHelpers.hpp>
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#include <opm/simulators/wells/ParallelWellInfo.hpp>
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#include <opm/simulators/wells/WellBhpThpCalculator.hpp>
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#include <opm/simulators/wells/WellConvergence.hpp>
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#include <opm/simulators/wells/WellInterfaceIndices.hpp>
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#include <opm/simulators/wells/WellState.hpp>
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#include <opm/simulators/linalg/bda/WellContributions.hpp>
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#include <cassert>
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#include <cmath>
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namespace Opm
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{
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template<class FluidSystem, class Indices, class Scalar>
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StandardWellEval<FluidSystem,Indices,Scalar>::
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StandardWellEval(const WellInterfaceIndices<FluidSystem,Indices,Scalar>& baseif)
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: baseif_(baseif)
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, primary_variables_(baseif_)
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, F0_(numWellConservationEq)
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, linSys_(baseif_.parallelWellInfo())
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, connections_(baseif)
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{
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}
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template<class FluidSystem, class Indices, class Scalar>
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typename StandardWellEval<FluidSystem,Indices,Scalar>::EvalWell
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StandardWellEval<FluidSystem,Indices,Scalar>::
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extendEval(const Eval& in) const
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{
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EvalWell out(primary_variables_.numWellEq() + Indices::numEq, in.value());
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for(int eqIdx = 0; eqIdx < Indices::numEq;++eqIdx) {
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out.setDerivative(eqIdx, in.derivative(eqIdx));
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}
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return out;
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}
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template<class FluidSystem, class Indices, class Scalar>
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void
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StandardWellEval<FluidSystem,Indices,Scalar>::
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updateWellStateFromPrimaryVariables(WellState& well_state,
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DeferredLogger& deferred_logger) const
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{
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this->primary_variables_.copyToWellState(well_state, deferred_logger);
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WellBhpThpCalculator(baseif_).
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updateThp(connections_.rho(),
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[this,&well_state]() { return this->baseif_.getALQ(well_state); },
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{FluidSystem::phaseIsActive(FluidSystem::waterPhaseIdx),
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FluidSystem::phaseIsActive(FluidSystem::oilPhaseIdx),
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FluidSystem::phaseIsActive(FluidSystem::gasPhaseIdx)},
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well_state, deferred_logger);
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}
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template<class FluidSystem, class Indices, class Scalar>
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void
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StandardWellEval<FluidSystem,Indices,Scalar>::
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computeAccumWell()
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{
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for (size_t eq_idx = 0; eq_idx < F0_.size(); ++eq_idx) {
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F0_[eq_idx] = this->primary_variables_.surfaceVolumeFraction(eq_idx).value();
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}
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}
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template<class FluidSystem, class Indices, class Scalar>
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ConvergenceReport
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StandardWellEval<FluidSystem,Indices,Scalar>::
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getWellConvergence(const WellState& well_state,
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const std::vector<double>& B_avg,
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const double maxResidualAllowed,
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const double tol_wells,
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const double relaxed_tolerance_flow,
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const bool relax_tolerance,
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std::vector<double>& res,
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DeferredLogger& deferred_logger) const
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{
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res.resize(this->primary_variables_.numWellEq());
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for (int eq_idx = 0; eq_idx < this->primary_variables_.numWellEq(); ++eq_idx) {
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// magnitude of the residual matters
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res[eq_idx] = std::abs(this->linSys_.residual()[0][eq_idx]);
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}
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std::vector<double> well_flux_residual(baseif_.numComponents());
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// Finish computation
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for (int compIdx = 0; compIdx < baseif_.numComponents(); ++compIdx )
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{
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well_flux_residual[compIdx] = B_avg[compIdx] * res[compIdx];
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}
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ConvergenceReport report;
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using CR = ConvergenceReport;
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CR::WellFailure::Type type = CR::WellFailure::Type::MassBalance;
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// checking if any NaN or too large residuals found
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for (unsigned phaseIdx = 0; phaseIdx < FluidSystem::numPhases; ++phaseIdx) {
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if (!FluidSystem::phaseIsActive(phaseIdx)) {
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continue;
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}
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const unsigned canonicalCompIdx = FluidSystem::solventComponentIndex(phaseIdx);
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const int compIdx = Indices::canonicalToActiveComponentIndex(canonicalCompIdx);
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if (std::isnan(well_flux_residual[compIdx])) {
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report.setWellFailed({type, CR::Severity::NotANumber, compIdx, baseif_.name()});
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} else if (well_flux_residual[compIdx] > maxResidualAllowed) {
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report.setWellFailed({type, CR::Severity::TooLarge, compIdx, baseif_.name()});
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} else if (!relax_tolerance && well_flux_residual[compIdx] > tol_wells) {
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report.setWellFailed({type, CR::Severity::Normal, compIdx, baseif_.name()});
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} else if (well_flux_residual[compIdx] > relaxed_tolerance_flow) {
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report.setWellFailed({type, CR::Severity::Normal, compIdx, baseif_.name()});
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}
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}
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WellConvergence(baseif_).
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checkConvergenceControlEq(well_state,
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{1.e3, 1.e4, 1.e-4, 1.e-6, maxResidualAllowed},
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std::abs(this->linSys_.residual()[0][Bhp]),
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report,
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deferred_logger);
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return report;
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}
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template<class FluidSystem, class Indices, class Scalar>
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void
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StandardWellEval<FluidSystem,Indices,Scalar>::
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init(std::vector<double>& perf_depth,
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const std::vector<double>& depth_arg,
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const int num_cells,
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const bool has_polymermw)
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{
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perf_depth.resize(baseif_.numPerfs(), 0.);
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for (int perf = 0; perf < baseif_.numPerfs(); ++perf) {
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const int cell_idx = baseif_.cells()[perf];
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perf_depth[perf] = depth_arg[cell_idx];
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}
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// counting/updating primary variable numbers
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int numWellEq = primary_variables_.numWellEq();
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if (has_polymermw) {
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if (baseif_.isInjector()) {
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// adding a primary variable for water perforation rate per connection
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numWellEq += baseif_.numPerfs();
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// adding a primary variable for skin pressure per connection
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numWellEq += baseif_.numPerfs();
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}
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}
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// with the updated numWellEq, we can initialize the primary variables and matrices now
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primary_variables_.resize(numWellEq);
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// setup sparsity pattern for the matrices
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this->linSys_.init(num_cells, numWellEq, baseif_.numPerfs(), baseif_.cells());
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}
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#define INSTANCE(...) \
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template class StandardWellEval<BlackOilFluidSystem<double,BlackOilDefaultIndexTraits>,__VA_ARGS__,double>;
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// One phase
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INSTANCE(BlackOilOnePhaseIndices<0u,0u,0u,0u,false,false,0u,1u,0u>)
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INSTANCE(BlackOilOnePhaseIndices<0u,0u,0u,1u,false,false,0u,1u,0u>)
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INSTANCE(BlackOilOnePhaseIndices<0u,0u,0u,0u,false,false,0u,1u,5u>)
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// Two phase
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INSTANCE(BlackOilTwoPhaseIndices<0u,0u,0u,0u,false,false,0u,0u,0u>)
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INSTANCE(BlackOilTwoPhaseIndices<0u,0u,0u,0u,false,false,0u,1u,0u>)
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INSTANCE(BlackOilTwoPhaseIndices<0u,0u,0u,0u,false,false,0u,2u,0u>)
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INSTANCE(BlackOilTwoPhaseIndices<0u,0u,0u,0u,false,true,0u,2u,0u>)
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INSTANCE(BlackOilTwoPhaseIndices<0u,0u,1u,0u,false,false,0u,2u,0u>)
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INSTANCE(BlackOilTwoPhaseIndices<0u,0u,1u,0u,false,true,0u,2u,0u>)
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INSTANCE(BlackOilTwoPhaseIndices<0u,0u,2u,0u,false,false,0u,2u,0u>)
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INSTANCE(BlackOilTwoPhaseIndices<0u,0u,0u,1u,false,false,0u,1u,0u>)
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INSTANCE(BlackOilTwoPhaseIndices<0u,0u,0u,0u,false,true,0u,0u,0u>)
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// Blackoil
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INSTANCE(BlackOilIndices<0u,0u,0u,0u,false,false,0u,0u>)
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INSTANCE(BlackOilIndices<0u,0u,0u,0u,true,false,0u,0u>)
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INSTANCE(BlackOilIndices<0u,0u,0u,0u,false,true,0u,0u>)
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INSTANCE(BlackOilIndices<1u,0u,0u,0u,false,false,0u,0u>)
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INSTANCE(BlackOilIndices<0u,1u,0u,0u,false,false,0u,0u>)
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INSTANCE(BlackOilIndices<0u,0u,1u,0u,false,false,0u,0u>)
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INSTANCE(BlackOilIndices<0u,0u,0u,1u,false,false,0u,0u>)
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INSTANCE(BlackOilIndices<0u,0u,0u,1u,false,false,1u,0u>)
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INSTANCE(BlackOilIndices<0u,0u,0u,1u,false,true,0u,0u>)
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}
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