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593 lines
22 KiB
C++
593 lines
22 KiB
C++
/*
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Copyright 2013 SINTEF ICT, Applied Mathematics.
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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 <opm/autodiff/SimulatorFullyImplicitBlackoilOutput.hpp>
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#include <opm/autodiff/SimulatorFullyImplicitBlackoil.hpp>
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#include <opm/core/utility/parameters/ParameterGroup.hpp>
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#include <opm/core/utility/ErrorMacros.hpp>
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#include <opm/autodiff/GeoProps.hpp>
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#include <opm/autodiff/FullyImplicitBlackoilSolver.hpp>
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#include <opm/autodiff/BlackoilPropsAdInterface.hpp>
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#include <opm/autodiff/WellStateFullyImplicitBlackoil.hpp>
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#include <opm/autodiff/RateConverter.hpp>
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#include <opm/core/grid.h>
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#include <opm/core/wells.h>
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#include <opm/core/well_controls.h>
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#include <opm/core/pressure/flow_bc.h>
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#include <opm/core/io/eclipse/EclipseWriter.hpp>
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#include <opm/core/simulator/SimulatorReport.hpp>
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#include <opm/core/simulator/SimulatorTimer.hpp>
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#include <opm/core/utility/StopWatch.hpp>
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#include <opm/core/io/vtk/writeVtkData.hpp>
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#include <opm/core/utility/miscUtilities.hpp>
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#include <opm/core/utility/miscUtilitiesBlackoil.hpp>
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#include <opm/core/props/rock/RockCompressibility.hpp>
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#include <opm/core/simulator/BlackoilState.hpp>
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#include <opm/core/transport/reorder/TransportSolverCompressibleTwophaseReorder.hpp>
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#include <opm/parser/eclipse/EclipseState/Schedule/Schedule.hpp>
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#include <opm/parser/eclipse/EclipseState/Schedule/ScheduleEnums.hpp>
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#include <opm/parser/eclipse/EclipseState/Schedule/Well.hpp>
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#include <opm/parser/eclipse/EclipseState/Schedule/WellProductionProperties.hpp>
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#include <boost/filesystem.hpp>
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#include <boost/lexical_cast.hpp>
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#include <algorithm>
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#include <cstddef>
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#include <cassert>
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#include <functional>
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#include <memory>
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#include <numeric>
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#include <fstream>
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#include <iostream>
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#include <string>
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#include <unordered_map>
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#include <utility>
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#include <vector>
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namespace Opm
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{
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template<class T>
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class SimulatorFullyImplicitBlackoil<T>::Impl
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{
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public:
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Impl(const parameter::ParameterGroup& param,
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const Grid& grid,
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const DerivedGeology& geo,
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BlackoilPropsAdInterface& props,
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const RockCompressibility* rock_comp_props,
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NewtonIterationBlackoilInterface& linsolver,
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const double* gravity,
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bool has_disgas,
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bool has_vapoil,
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std::shared_ptr<EclipseState> eclipse_state,
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EclipseWriter& output_writer,
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const std::vector<double>& threshold_pressures_by_face);
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SimulatorReport run(SimulatorTimer& timer,
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BlackoilState& state);
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private:
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// Data.
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typedef RateConverter::
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SurfaceToReservoirVoidage< BlackoilPropsAdInterface,
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std::vector<int> > RateConverterType;
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const parameter::ParameterGroup param_;
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// Parameters for output.
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bool output_;
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bool output_vtk_;
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std::string output_dir_;
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int output_interval_;
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// Observed objects.
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const Grid& grid_;
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BlackoilPropsAdInterface& props_;
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const RockCompressibility* rock_comp_props_;
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const double* gravity_;
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// Solvers
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const DerivedGeology& geo_;
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NewtonIterationBlackoilInterface& solver_;
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// Misc. data
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std::vector<int> allcells_;
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const bool has_disgas_;
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const bool has_vapoil_;
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// eclipse_state
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std::shared_ptr<EclipseState> eclipse_state_;
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// output_writer
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EclipseWriter& output_writer_;
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RateConverterType rateConverter_;
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// Threshold pressures.
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std::vector<double> threshold_pressures_by_face_;
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void
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computeRESV(const std::size_t step,
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const Wells* wells,
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const BlackoilState& x,
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WellStateFullyImplicitBlackoil& xw);
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};
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template<class T>
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SimulatorFullyImplicitBlackoil<T>::SimulatorFullyImplicitBlackoil(const parameter::ParameterGroup& param,
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const Grid& grid,
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const DerivedGeology& geo,
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BlackoilPropsAdInterface& props,
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const RockCompressibility* rock_comp_props,
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NewtonIterationBlackoilInterface& linsolver,
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const double* gravity,
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const bool has_disgas,
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const bool has_vapoil,
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std::shared_ptr<EclipseState> eclipse_state,
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EclipseWriter& output_writer,
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const std::vector<double>& threshold_pressures_by_face)
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{
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pimpl_.reset(new Impl(param, grid, geo, props, rock_comp_props, linsolver, gravity, has_disgas, has_vapoil,
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eclipse_state, output_writer, threshold_pressures_by_face));
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}
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template<class T>
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SimulatorReport SimulatorFullyImplicitBlackoil<T>::run(SimulatorTimer& timer,
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BlackoilState& state)
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{
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return pimpl_->run(timer, state);
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}
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static void outputWellStateMatlab(const Opm::WellStateFullyImplicitBlackoil& well_state,
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const int step,
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const std::string& output_dir)
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{
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Opm::DataMap dm;
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dm["bhp"] = &well_state.bhp();
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dm["wellrates"] = &well_state.wellRates();
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// Write data (not grid) in Matlab format
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for (Opm::DataMap::const_iterator it = dm.begin(); it != dm.end(); ++it) {
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std::ostringstream fname;
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fname << output_dir << "/" << it->first;
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boost::filesystem::path fpath = fname.str();
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try {
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create_directories(fpath);
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}
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catch (...) {
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OPM_THROW(std::runtime_error,"Creating directories failed: " << fpath);
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}
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fname << "/" << std::setw(3) << std::setfill('0') << step << ".txt";
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std::ofstream file(fname.str().c_str());
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if (!file) {
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OPM_THROW(std::runtime_error,"Failed to open " << fname.str());
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}
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file.precision(15);
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const std::vector<double>& d = *(it->second);
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std::copy(d.begin(), d.end(), std::ostream_iterator<double>(file, "\n"));
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}
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}
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#if 0
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static void outputWaterCut(const Opm::Watercut& watercut,
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const std::string& output_dir)
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{
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// Write water cut curve.
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std::string fname = output_dir + "/watercut.txt";
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std::ofstream os(fname.c_str());
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if (!os) {
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OPM_THROW(std::runtime_error, "Failed to open " << fname);
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}
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watercut.write(os);
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}
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static void outputWellReport(const Opm::WellReport& wellreport,
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const std::string& output_dir)
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{
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// Write well report.
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std::string fname = output_dir + "/wellreport.txt";
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std::ofstream os(fname.c_str());
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if (!os) {
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OPM_THROW(std::runtime_error, "Failed to open " << fname);
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}
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wellreport.write(os);
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}
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#endif
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// \TODO: Treat bcs.
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template<class T>
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SimulatorFullyImplicitBlackoil<T>::Impl::Impl(const parameter::ParameterGroup& param,
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const Grid& grid,
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const DerivedGeology& geo,
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BlackoilPropsAdInterface& props,
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const RockCompressibility* rock_comp_props,
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NewtonIterationBlackoilInterface& linsolver,
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const double* gravity,
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const bool has_disgas,
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const bool has_vapoil,
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std::shared_ptr<EclipseState> eclipse_state,
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EclipseWriter& output_writer,
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const std::vector<double>& threshold_pressures_by_face)
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: param_(param),
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grid_(grid),
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props_(props),
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rock_comp_props_(rock_comp_props),
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gravity_(gravity),
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geo_(geo),
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solver_(linsolver),
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has_disgas_(has_disgas),
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has_vapoil_(has_vapoil),
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eclipse_state_(eclipse_state),
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output_writer_(output_writer),
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rateConverter_(props_, std::vector<int>(AutoDiffGrid::numCells(grid_), 0)),
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threshold_pressures_by_face_(threshold_pressures_by_face)
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{
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// For output.
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output_ = param.getDefault("output", true);
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if (output_) {
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output_vtk_ = param.getDefault("output_vtk", true);
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output_dir_ = param.getDefault("output_dir", std::string("output"));
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// Ensure that output dir exists
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boost::filesystem::path fpath(output_dir_);
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try {
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create_directories(fpath);
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}
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catch (...) {
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OPM_THROW(std::runtime_error, "Creating directories failed: " << fpath);
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}
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output_interval_ = param.getDefault("output_interval", 1);
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}
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// Misc init.
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const int num_cells = AutoDiffGrid::numCells(grid);
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allcells_.resize(num_cells);
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for (int cell = 0; cell < num_cells; ++cell) {
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allcells_[cell] = cell;
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}
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}
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template<class T>
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SimulatorReport SimulatorFullyImplicitBlackoil<T>::Impl::run(SimulatorTimer& timer,
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BlackoilState& state)
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{
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WellStateFullyImplicitBlackoil prev_well_state;
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// Create timers and file for writing timing info.
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Opm::time::StopWatch solver_timer;
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double stime = 0.0;
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Opm::time::StopWatch step_timer;
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Opm::time::StopWatch total_timer;
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total_timer.start();
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std::string tstep_filename = output_dir_ + "/step_timing.txt";
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std::ofstream tstep_os(tstep_filename.c_str());
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// Main simulation loop.
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while (!timer.done()) {
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// Report timestep.
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step_timer.start();
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timer.report(std::cout);
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// Create wells and well state.
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WellsManager wells_manager(eclipse_state_,
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timer.currentStepNum(),
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Opm::UgGridHelpers::numCells(grid_),
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Opm::UgGridHelpers::globalCell(grid_),
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Opm::UgGridHelpers::cartDims(grid_),
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Opm::UgGridHelpers::dimensions(grid_),
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Opm::UgGridHelpers::beginCellCentroids(grid_),
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Opm::UgGridHelpers::cell2Faces(grid_),
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Opm::UgGridHelpers::beginFaceCentroids(grid_),
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props_.permeability());
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const Wells* wells = wells_manager.c_wells();
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WellStateFullyImplicitBlackoil well_state;
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well_state.init(wells, state);
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if (timer.currentStepNum() != 0) {
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// Transfer previous well state to current.
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well_state.partialCopy(prev_well_state, *wells, prev_well_state.numWells());
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}
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// Output state at start of time step.
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if (output_ && (timer.currentStepNum() % output_interval_ == 0)) {
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if (output_vtk_) {
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outputStateVtk(grid_, state, timer.currentStepNum(), output_dir_);
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}
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outputStateMatlab(grid_, state, timer.currentStepNum(), output_dir_);
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outputWellStateMatlab(well_state,timer.currentStepNum(), output_dir_);
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}
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if (output_) {
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if (timer.currentStepNum() == 0) {
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output_writer_.writeInit(timer);
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}
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output_writer_.writeTimeStep(timer, state, well_state.basicWellState());
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}
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// Max oil saturation (for VPPARS), hysteresis update.
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props_.updateSatOilMax(state.saturation());
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props_.updateSatHyst(state.saturation(), allcells_);
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// Compute reservoir volumes for RESV controls.
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computeRESV(timer.currentStepNum(), wells, state, well_state);
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// Run a single step of the solver.
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solver_timer.start();
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FullyImplicitBlackoilSolver<T> solver(param_, grid_, props_, geo_, rock_comp_props_, *wells, solver_, has_disgas_, has_vapoil_);
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if (!threshold_pressures_by_face_.empty()) {
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solver.setThresholdPressures(threshold_pressures_by_face_);
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}
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solver.step(timer.currentStepLength(), state, well_state);
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solver_timer.stop();
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// Report timing.
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const double st = solver_timer.secsSinceStart();
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std::cout << "Fully implicit solver took: " << st << " seconds." << std::endl;
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stime += st;
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if (output_) {
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SimulatorReport step_report;
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step_report.pressure_time = st;
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step_report.total_time = step_timer.secsSinceStart();
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step_report.reportParam(tstep_os);
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}
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// Increment timer, remember well state.
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++timer;
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prev_well_state = well_state;
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}
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// Write final simulation state.
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if (output_) {
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if (output_vtk_) {
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outputStateVtk(grid_, state, timer.currentStepNum(), output_dir_);
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}
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outputStateMatlab(grid_, state, timer.currentStepNum(), output_dir_);
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outputWellStateMatlab(prev_well_state, timer.currentStepNum(), output_dir_);
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output_writer_.writeTimeStep(timer, state, prev_well_state.basicWellState());
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}
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// Stop timer and create timing report
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total_timer.stop();
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SimulatorReport report;
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report.pressure_time = stime;
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report.transport_time = 0.0;
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report.total_time = total_timer.secsSinceStart();
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return report;
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}
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namespace SimFIBODetails {
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typedef std::unordered_map<std::string, WellConstPtr> WellMap;
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inline WellMap
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mapWells(const std::vector<WellConstPtr>& wells)
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{
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WellMap wmap;
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for (std::vector<WellConstPtr>::const_iterator
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w = wells.begin(), e = wells.end();
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w != e; ++w)
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{
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wmap.insert(std::make_pair((*w)->name(), *w));
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}
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return wmap;
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}
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inline int
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resv_control(const WellControls* ctrl)
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{
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int i, n = well_controls_get_num(ctrl);
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bool match = false;
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for (i = 0; (! match) && (i < n); ++i) {
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match = well_controls_iget_type(ctrl, i) == RESERVOIR_RATE;
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}
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if (! match) { i = 0; }
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return i - 1; // -1 if no match, undo final "++" otherwise
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}
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inline bool
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is_resv_prod(const Wells& wells,
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const int w)
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{
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return ((wells.type[w] == PRODUCER) &&
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(0 <= resv_control(wells.ctrls[w])));
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}
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inline bool
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is_resv_prod(const WellMap& wmap,
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const std::string& name,
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const std::size_t step)
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{
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bool match = false;
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WellMap::const_iterator i = wmap.find(name);
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if (i != wmap.end()) {
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WellConstPtr wp = i->second;
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match = (wp->isProducer(step) &&
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wp->getProductionProperties(step)
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.hasProductionControl(WellProducer::RESV));
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}
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return match;
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}
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inline std::vector<int>
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resvProducers(const Wells& wells,
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const std::size_t step,
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const WellMap& wmap)
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{
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std::vector<int> resv_prod;
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for (int w = 0, nw = wells.number_of_wells; w < nw; ++w) {
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if (is_resv_prod(wells, w) ||
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((wells.name[w] != 0) &&
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is_resv_prod(wmap, wells.name[w], step)))
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{
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resv_prod.push_back(w);
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}
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}
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return resv_prod;
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}
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inline void
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historyRates(const PhaseUsage& pu,
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const WellProductionProperties& p,
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std::vector<double>& rates)
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{
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assert (! p.predictionMode);
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assert (rates.size() ==
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std::vector<double>::size_type(pu.num_phases));
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if (pu.phase_used[ BlackoilPhases::Aqua ]) {
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const std::vector<double>::size_type
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i = pu.phase_pos[ BlackoilPhases::Aqua ];
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rates[i] = p.WaterRate;
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}
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if (pu.phase_used[ BlackoilPhases::Liquid ]) {
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const std::vector<double>::size_type
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i = pu.phase_pos[ BlackoilPhases::Liquid ];
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rates[i] = p.OilRate;
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}
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if (pu.phase_used[ BlackoilPhases::Vapour ]) {
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const std::vector<double>::size_type
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i = pu.phase_pos[ BlackoilPhases::Vapour ];
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rates[i] = p.GasRate;
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}
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}
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} // namespace SimFIBODetails
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template <class T>
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void
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SimulatorFullyImplicitBlackoil<T>::
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Impl::computeRESV(const std::size_t step,
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const Wells* wells,
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const BlackoilState& x,
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WellStateFullyImplicitBlackoil& xw)
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{
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typedef SimFIBODetails::WellMap WellMap;
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const std::vector<WellConstPtr>& w_ecl = eclipse_state_->getSchedule()->getWells(step);
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const WellMap& wmap = SimFIBODetails::mapWells(w_ecl);
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const std::vector<int>& resv_prod =
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SimFIBODetails::resvProducers(*wells, step, wmap);
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if (! resv_prod.empty()) {
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const PhaseUsage& pu = props_.phaseUsage();
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const std::vector<double>::size_type np = props_.numPhases();
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rateConverter_.defineState(x);
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std::vector<double> distr (np);
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std::vector<double> hrates(np);
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std::vector<double> prates(np);
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for (std::vector<int>::const_iterator
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rp = resv_prod.begin(), e = resv_prod.end();
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rp != e; ++rp)
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{
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WellControls* ctrl = wells->ctrls[*rp];
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// RESV control mode, all wells
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{
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const int rctrl = SimFIBODetails::resv_control(ctrl);
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if (0 <= rctrl) {
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const std::vector<double>::size_type off = (*rp) * np;
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|
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// Convert to positive rates to avoid issues
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// in coefficient calculations.
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std::transform(xw.wellRates().begin() + (off + 0*np),
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xw.wellRates().begin() + (off + 1*np),
|
|
prates.begin(), std::negate<double>());
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|
|
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const int fipreg = 0; // Hack. Ignore FIP regions.
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rateConverter_.calcCoeff(prates, fipreg, distr);
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|
|
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well_controls_iset_distr(ctrl, rctrl, & distr[0]);
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}
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}
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|
|
|
// RESV control, WCONHIST wells. A bit of duplicate
|
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// work, regrettably.
|
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if (wells->name[*rp] != 0) {
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WellMap::const_iterator i = wmap.find(wells->name[*rp]);
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|
|
|
if (i != wmap.end()) {
|
|
WellConstPtr wp = i->second;
|
|
|
|
const WellProductionProperties& p =
|
|
wp->getProductionProperties(step);
|
|
|
|
if (! p.predictionMode) {
|
|
// History matching (WCONHIST/RESV)
|
|
SimFIBODetails::historyRates(pu, p, hrates);
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|
|
|
const int fipreg = 0; // Hack. Ignore FIP regions.
|
|
rateConverter_.calcCoeff(hrates, fipreg, distr);
|
|
|
|
// WCONHIST/RESV target is sum of all
|
|
// observed phase rates translated to
|
|
// reservoir conditions. Recall sign
|
|
// convention: Negative for producers.
|
|
const double target =
|
|
- std::inner_product(distr.begin(), distr.end(),
|
|
hrates.begin(), 0.0);
|
|
|
|
well_controls_clear(ctrl);
|
|
well_controls_assert_number_of_phases(ctrl, int(np));
|
|
|
|
const int ok =
|
|
well_controls_add_new(RESERVOIR_RATE, target,
|
|
& distr[0], ctrl);
|
|
|
|
if (ok != 0) {
|
|
xw.currentControls()[*rp] = 0;
|
|
well_controls_set_current(ctrl, 0);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
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} // namespace Opm
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