mirror of
https://github.com/OPM/opm-simulators.git
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194 lines
7.1 KiB
C++
194 lines
7.1 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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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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#define BOOST_TEST_MODULE WellModelTest
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#include <chrono>
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#include <opm/common/utility/platform_dependent/disable_warnings.h>
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#include <boost/test/unit_test.hpp>
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#include <opm/common/utility/platform_dependent/reenable_warnings.h>
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#include <opm/input/eclipse/Parser/Parser.hpp>
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#include <opm/input/eclipse/EclipseState/EclipseState.hpp>
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#include <opm/input/eclipse/Schedule/SummaryState.hpp>
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#include <opm/input/eclipse/Schedule/Well/WellConnections.hpp>
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#include <opm/input/eclipse/Deck/Deck.hpp>
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#include <opm/input/eclipse/EclipseState/Tables/TableManager.hpp>
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#include <opm/input/eclipse/Python/Python.hpp>
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#include <opm/grid/GridManager.hpp>
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#include <opm/input/eclipse/Units/Units.hpp>
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#include <opm/common/utility/TimeService.hpp>
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#include <opm/material/fluidmatrixinteractions/EclMaterialLawManager.hpp>
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#include <opm/grid/GridHelpers.hpp>
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#include <opm/simulators/flow/FlowMainEbos.hpp>
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#include <opm/simulators/flow/BlackoilModelEbos.hpp>
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#include <ebos/eclproblem.hh>
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#include <opm/models/utils/start.hh>
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#include <opm/simulators/wells/StandardWell.hpp>
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#include <opm/simulators/wells/BlackoilWellModel.hpp>
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#if HAVE_DUNE_FEM
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#include <dune/fem/misc/mpimanager.hh>
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#else
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#include <dune/common/parallel/mpihelper.hh>
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#endif
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using StandardWell = Opm::StandardWell<Opm::Properties::TTag::EclFlowProblem>;
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struct SetupTest {
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using Grid = UnstructuredGrid;
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SetupTest ()
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{
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Opm::Parser parser;
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auto deck = parser.parseFile("TESTWELLMODEL.DATA");
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ecl_state.reset(new Opm::EclipseState(deck) );
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{
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const Opm::TableManager table ( deck );
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const Opm::Runspec runspec (deck);
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python = std::make_shared<Opm::Python>();
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schedule.reset( new Opm::Schedule(deck, *ecl_state, python));
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summaryState.reset( new Opm::SummaryState(Opm::TimeService::from_time_t(schedule->getStartTime())));
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}
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current_timestep = 0;
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};
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std::unique_ptr<const Opm::EclipseState> ecl_state;
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std::shared_ptr<Opm::Python> python;
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std::unique_ptr<const Opm::Schedule> schedule;
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std::unique_ptr<Opm::SummaryState> summaryState;
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std::vector<std::vector<Opm::PerforationData>> well_perf_data;
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int current_timestep;
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};
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struct GlobalFixture {
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GlobalFixture()
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{
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int argcDummy = 1;
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const char *tmp[] = {"test_wellmodel"};
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char **argvDummy = const_cast<char**>(tmp);
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// MPI setup.
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#if HAVE_DUNE_FEM
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Dune::Fem::MPIManager::initialize(argcDummy, argvDummy);
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#else
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Dune::MPIHelper::instance(argcDummy, argvDummy);
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#endif
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Opm::FlowMainEbos<Opm::Properties::TTag::EclFlowProblem>::setupParameters_(argcDummy, argvDummy, Dune::MPIHelper::getCommunication());
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}
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};
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BOOST_GLOBAL_FIXTURE(GlobalFixture);
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BOOST_AUTO_TEST_CASE(TestStandardWellInput) {
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const SetupTest setup_test;
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const auto& wells_ecl = setup_test.schedule->getWells(setup_test.current_timestep);
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BOOST_CHECK_EQUAL( wells_ecl.size(), 2);
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const Opm::Well& well = wells_ecl[1];
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const Opm::BlackoilModelParametersEbos<Opm::Properties::TTag::EclFlowProblem> param;
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// For the conversion between the surface volume rate and resrevoir voidage rate
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typedef Opm::BlackOilFluidSystem<double> FluidSystem;
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using RateConverterType = Opm::RateConverter::
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SurfaceToReservoirVoidage<FluidSystem, std::vector<int> >;
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// Compute reservoir volumes for RESV controls.
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Opm::PhaseUsage phaseUsage;
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std::unique_ptr<RateConverterType> rateConverter;
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// Compute reservoir volumes for RESV controls.
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rateConverter.reset(new RateConverterType (phaseUsage,
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std::vector<int>(10, 0)));
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Opm::PerforationData dummy;
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std::vector<Opm::PerforationData> pdata(well.getConnections().size(), dummy);
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for (auto c = 0*pdata.size(); c < pdata.size(); ++c) {
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pdata[c].ecl_index = c;
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}
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Opm::ParallelWellInfo pinfo{well.name()};
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BOOST_CHECK_THROW( StandardWell( well, pinfo, -1, param, *rateConverter, 0, 3, 3, 0, pdata), std::invalid_argument);
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}
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BOOST_AUTO_TEST_CASE(TestBehavoir) {
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const SetupTest setup_test;
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const auto& wells_ecl = setup_test.schedule->getWells(setup_test.current_timestep);
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const int current_timestep = setup_test.current_timestep;
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std::vector<std::unique_ptr<const StandardWell> > wells;
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{
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const int nw = wells_ecl.size();
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const Opm::BlackoilModelParametersEbos<Opm::Properties::TTag::EclFlowProblem> param;
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for (int w = 0; w < nw; ++w) {
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// For the conversion between the surface volume rate and resrevoir voidage rate
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typedef Opm::BlackOilFluidSystem<double> FluidSystem;
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using RateConverterType = Opm::RateConverter::
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SurfaceToReservoirVoidage<FluidSystem, std::vector<int> >;
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// Compute reservoir volumes for RESV controls.
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// TODO: not sure why for this class the initlizer list does not work
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// otherwise we should make a meaningful const PhaseUsage here.
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Opm::PhaseUsage phaseUsage;
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std::unique_ptr<RateConverterType> rateConverter;
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// Compute reservoir volumes for RESV controls.
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rateConverter.reset(new RateConverterType (phaseUsage,
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std::vector<int>(10, 0)));
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Opm::PerforationData dummy;
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std::vector<Opm::PerforationData> pdata(wells_ecl[w].getConnections().size(), dummy);
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for (auto c = 0*pdata.size(); c < pdata.size(); ++c) {
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pdata[c].ecl_index = c;
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}
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Opm::ParallelWellInfo pinfo{wells_ecl[w].name()};
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wells.emplace_back(new StandardWell(wells_ecl[w], pinfo, current_timestep, param, *rateConverter, 0, 3, 3, w, pdata) );
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}
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}
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// first well, it is a production well from the deck
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{
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const auto& well = wells[0];
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BOOST_CHECK_EQUAL(well->name(), "PROD1");
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BOOST_CHECK(well->isProducer());
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BOOST_CHECK(StandardWell::Indices::numEq == 3);
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BOOST_CHECK(well->numStaticWellEq== 4);
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}
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// second well, it is the injection well from the deck
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{
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const auto& well = wells[1];
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BOOST_CHECK_EQUAL(well->name(), "INJE1");
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BOOST_CHECK(well->isInjector());
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BOOST_CHECK(StandardWell::Indices::numEq == 3);
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BOOST_CHECK(well->numStaticWellEq== 4);
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}
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}
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