/* Copyright 2017 SINTEF Digital, Mathematics and Cybernetics. Copyright 2017 Statoil ASA. Copyright 2018 IRIS This file is part of the Open Porous Media project (OPM). OPM is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. OPM is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with OPM. If not, see . */ #include #include #include #include #include #include #include namespace Opm { std::pair WellGroupConstraints:: checkGroupConstraintsInj(const Group& group, const WellState& well_state, const GroupState& group_state, const double efficiencyFactor, const Schedule& schedule, const SummaryState& summaryState, const RateConvFunc& rateConverter, DeferredLogger& deferred_logger) const { // Translate injector type from control to Phase. const auto& well_controls = well_.wellEcl().injectionControls(summaryState); auto injectorType = well_controls.injector_type; Phase injectionPhase; switch (injectorType) { case InjectorType::WATER: { injectionPhase = Phase::WATER; break; } case InjectorType::OIL: { injectionPhase = Phase::OIL; break; } case InjectorType::GAS: { injectionPhase = Phase::GAS; break; } default: throw("Expected WATER, OIL or GAS as type for injector " + well_.name()); } // Make conversion factors for RESV <-> surface rates. std::vector resv_coeff(well_.phaseUsage().num_phases, 1.0); rateConverter(0, well_.pvtRegionIdx(), group.name(), resv_coeff); // FIPNUM region 0 here, should use FIPNUM from WELSPECS. const auto& ws = well_state.well(well_.indexOfWell()); // Call check for the well's injection phase. return WellGroupHelpers::checkGroupConstraintsInj(well_.name(), well_.wellEcl().groupName(), group, well_state, group_state, well_.currentStep(), well_.guideRate(), ws.surface_rates.data(), injectionPhase, well_.phaseUsage(), efficiencyFactor, schedule, summaryState, resv_coeff, deferred_logger); } std::pair WellGroupConstraints:: checkGroupConstraintsProd(const Group& group, const WellState& well_state, const GroupState& group_state, const double efficiencyFactor, const Schedule& schedule, const SummaryState& summaryState, const RateConvFunc& rateConverter, DeferredLogger& deferred_logger) const { // Make conversion factors for RESV <-> surface rates. std::vector resv_coeff(well_.phaseUsage().num_phases, 1.0); rateConverter(0, well_.pvtRegionIdx(), group.name(), resv_coeff); // FIPNUM region 0 here, should use FIPNUM from WELSPECS. const auto& ws = well_state.well(well_.indexOfWell()); return WellGroupHelpers::checkGroupConstraintsProd(well_.name(), well_.wellEcl().groupName(), group, well_state, group_state, well_.currentStep(), well_.guideRate(), ws.surface_rates.data(), well_.phaseUsage(), efficiencyFactor, schedule, summaryState, resv_coeff, deferred_logger); } bool WellGroupConstraints:: checkGroupConstraints(WellState& well_state, const GroupState& group_state, const Schedule& schedule, const SummaryState& summaryState, const RateConvFunc& rateConverter, DeferredLogger& deferred_logger) const { const auto& well = well_.wellEcl(); const int well_index = well_.indexOfWell(); auto& ws = well_state.well(well_index); if (well.isInjector()) { const auto currentControl = ws.injection_cmode; if (currentControl != Well::InjectorCMode::GRUP) { // This checks only the first encountered group limit, // in theory there could be several, and then we should // test all but the one currently applied. At that point, // this if-statement should be removed and we should always // check, skipping over only the single group parent whose // control is the active one for the well (if any). const auto& group = schedule.getGroup(well.groupName(), well_.currentStep()); const double efficiencyFactor = well.getEfficiencyFactor(); const std::pair group_constraint = this->checkGroupConstraintsInj(group, well_state, group_state, efficiencyFactor, schedule, summaryState, rateConverter, deferred_logger); // If a group constraint was broken, we set the current well control to // be GRUP. if (group_constraint.first) { ws.injection_cmode = Well::InjectorCMode::GRUP; const int np = well_state.numPhases(); for (int p = 0; p group_constraint = this->checkGroupConstraintsProd(group, well_state, group_state, efficiencyFactor, schedule, summaryState, rateConverter, deferred_logger); // If a group constraint was broken, we set the current well control to // be GRUP. if (group_constraint.first) { ws.production_cmode = Well::ProducerCMode::GRUP; const int np = well_state.numPhases(); for (int p = 0; p