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https://github.com/OPM/opm-simulators.git
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c18fb6a577
introduce an enum for indexing into the array. this again allows us to coalesce 4 parallel reductions into one.
307 lines
10 KiB
C++
307 lines
10 KiB
C++
/*
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Copyright 2021 Equinor 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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#include <opm/simulators/wells/SingleWellState.hpp>
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#include <opm/input/eclipse/Schedule/Well/Well.hpp>
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#include <opm/input/eclipse/Units/Units.hpp>
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#include <opm/simulators/wells/PerforationData.hpp>
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namespace Opm {
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SingleWellState::SingleWellState(const std::string& name_,
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const ParallelWellInfo& pinfo,
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bool is_producer,
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double pressure_first_connection,
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const std::vector<PerforationData>& perf_input,
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const PhaseUsage& pu_,
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double temp)
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: name(name_)
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, parallel_info(pinfo)
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, producer(is_producer)
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, pu(pu_)
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, temperature(temp)
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, well_potentials(pu_.num_phases)
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, productivity_index(pu_.num_phases)
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, surface_rates(pu_.num_phases)
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, reservoir_rates(pu_.num_phases)
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, perf_data(perf_input.size(), pressure_first_connection, !is_producer, pu_.num_phases)
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, trivial_target(false)
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{
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for (std::size_t perf = 0; perf < perf_input.size(); perf++) {
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this->perf_data.cell_index[perf] = perf_input[perf].cell_index;
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this->perf_data.connection_transmissibility_factor[perf] = perf_input[perf].connection_transmissibility_factor;
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this->perf_data.satnum_id[perf] = perf_input[perf].satnum_id;
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this->perf_data.ecl_index[perf] = perf_input[perf].ecl_index;
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}
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}
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SingleWellState SingleWellState::serializationTestObject(const ParallelWellInfo& pinfo)
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{
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SingleWellState result("testing", pinfo, true, 1.0, {}, PhaseUsage{}, 2.0);
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result.perf_data = PerfData::serializationTestObject();
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return result;
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}
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void SingleWellState::init_timestep(const SingleWellState& other) {
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if (this->producer != other.producer)
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return;
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if (this->status == Well::Status::SHUT)
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return;
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if (other.status == Well::Status::SHUT)
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return;
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this->bhp = other.bhp;
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this->thp = other.thp;
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this->temperature = other.temperature;
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}
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void SingleWellState::shut() {
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this->bhp = 0;
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this->thp = 0;
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this->status = Well::Status::SHUT;
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std::fill(this->surface_rates.begin(), this->surface_rates.end(), 0);
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std::fill(this->reservoir_rates.begin(), this->reservoir_rates.end(), 0);
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std::fill(this->productivity_index.begin(), this->productivity_index.end(), 0);
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auto& connpi = this->perf_data.prod_index;
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connpi.assign(connpi.size(), 0);
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}
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void SingleWellState::stop() {
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this->thp = 0;
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this->status = Well::Status::STOP;
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}
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void SingleWellState::open() {
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this->status = Well::Status::OPEN;
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}
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void SingleWellState::updateStatus(Well::Status new_status) {
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switch (new_status) {
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case Well::Status::OPEN:
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this->open();
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break;
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case Well::Status::SHUT:
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this->shut();
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break;
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case Well::Status::STOP:
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this->stop();
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break;
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default:
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throw std::logic_error("Invalid well status");
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}
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}
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void SingleWellState::reset_connection_factors(const std::vector<PerforationData>& new_perf_data) {
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if (this->perf_data.size() != new_perf_data.size()) {
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throw std::invalid_argument {
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"Size mismatch for perforation data in well " + this->name
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};
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}
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for (std::size_t conn_index = 0; conn_index < new_perf_data.size(); conn_index++) {
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if (this->perf_data.cell_index[conn_index] != static_cast<std::size_t>(new_perf_data[conn_index].cell_index)) {
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throw std::invalid_argument {
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"Cell index mismatch in connection "
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+ std::to_string(conn_index)
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+ " of well "
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+ this->name
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};
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}
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if (this->perf_data.satnum_id[conn_index] != new_perf_data[conn_index].satnum_id) {
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throw std::invalid_argument {
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"Saturation function table mismatch in connection "
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+ std::to_string(conn_index)
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+ " of well "
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+ this->name
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};
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}
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this->perf_data.connection_transmissibility_factor[conn_index] = new_perf_data[conn_index].connection_transmissibility_factor;
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}
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}
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double SingleWellState::sum_connection_rates(const std::vector<double>& connection_rates) const {
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return this->parallel_info.get().sumPerfValues(connection_rates.begin(), connection_rates.end());
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}
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double SingleWellState::sum_brine_rates() const {
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return this->sum_connection_rates(this->perf_data.brine_rates);
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}
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double SingleWellState::sum_polymer_rates() const {
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return this->sum_connection_rates(this->perf_data.polymer_rates);
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}
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double SingleWellState::sum_solvent_rates() const {
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return this->sum_connection_rates(this->perf_data.solvent_rates);
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}
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void SingleWellState::update_producer_targets(const Well& ecl_well, const SummaryState& st) {
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const double bhp_safety_factor = 0.99;
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const auto& prod_controls = ecl_well.productionControls(st);
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auto cmode_is_bhp = (prod_controls.cmode == Well::ProducerCMode::BHP);
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auto bhp_limit = prod_controls.bhp_limit;
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if (ecl_well.getStatus() == Well::Status::STOP) {
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if (cmode_is_bhp)
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this->bhp = bhp_limit;
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else
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this->bhp = this->perf_data.pressure_first_connection;
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return;
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}
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switch (prod_controls.cmode) {
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case Well::ProducerCMode::ORAT:
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assert(this->pu.phase_used[BlackoilPhases::Liquid]);
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this->surface_rates[pu.phase_pos[BlackoilPhases::Liquid]] = -prod_controls.oil_rate;
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break;
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case Well::ProducerCMode::WRAT:
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assert(this->pu.phase_used[BlackoilPhases::Aqua]);
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this->surface_rates[pu.phase_pos[BlackoilPhases::Aqua]] = -prod_controls.water_rate;
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break;
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case Well::ProducerCMode::GRAT:
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assert(this->pu.phase_used[BlackoilPhases::Vapour]);
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this->surface_rates[pu.phase_pos[BlackoilPhases::Vapour]] = -prod_controls.gas_rate;
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break;
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case Well::ProducerCMode::GRUP:
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case Well::ProducerCMode::THP:
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case Well::ProducerCMode::BHP:
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if (this->pu.phase_used[BlackoilPhases::Liquid]) {
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this->surface_rates[pu.phase_pos[BlackoilPhases::Liquid]] = -1000.0 * Opm::unit::cubic(Opm::unit::meter) / Opm::unit::day;
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}
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if (this->pu.phase_used[BlackoilPhases::Aqua]) {
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this->surface_rates[pu.phase_pos[BlackoilPhases::Aqua]] = -1000.0 * Opm::unit::cubic(Opm::unit::meter) / Opm::unit::day;
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}
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if (this->pu.phase_used[BlackoilPhases::Vapour]){
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this->surface_rates[pu.phase_pos[BlackoilPhases::Vapour]] = -100000.0 * Opm::unit::cubic(Opm::unit::meter) / Opm::unit::day;
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}
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break;
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default:
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// Keep zero init.
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break;
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}
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if (prod_controls.cmode == Well::ProducerCMode::THP) {
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this->thp = prod_controls.thp_limit;
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}
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if (cmode_is_bhp)
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this->bhp = bhp_limit;
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else
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this->bhp = this->perf_data.pressure_first_connection * bhp_safety_factor;
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}
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void SingleWellState::update_injector_targets(const Well& ecl_well, const SummaryState& st) {
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const double bhp_safety_factor = 1.01;
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const auto& inj_controls = ecl_well.injectionControls(st);
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if (inj_controls.hasControl(Well::InjectorCMode::THP))
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this->thp = inj_controls.thp_limit;
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auto cmode_is_bhp = (inj_controls.cmode == Well::InjectorCMode::BHP);
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auto bhp_limit = inj_controls.bhp_limit;
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if (ecl_well.getStatus() == Well::Status::STOP) {
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if (cmode_is_bhp)
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this->bhp = bhp_limit;
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else
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this->bhp = this->perf_data.pressure_first_connection;
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return;
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}
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if (inj_controls.cmode == Well::InjectorCMode::GRUP) {
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this->bhp = this->perf_data.pressure_first_connection * bhp_safety_factor;
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return;
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}
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if (inj_controls.cmode == Well::InjectorCMode::RATE) {
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auto inj_surf_rate = inj_controls.surface_rate;
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switch (inj_controls.injector_type) {
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case InjectorType::WATER:
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assert(pu.phase_used[BlackoilPhases::Aqua]);
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this->surface_rates[pu.phase_pos[BlackoilPhases::Aqua]] = inj_surf_rate;
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break;
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case InjectorType::GAS:
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assert(pu.phase_used[BlackoilPhases::Vapour]);
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this->surface_rates[pu.phase_pos[BlackoilPhases::Vapour]] = inj_surf_rate;
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break;
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case InjectorType::OIL:
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assert(pu.phase_used[BlackoilPhases::Liquid]);
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this->surface_rates[pu.phase_pos[BlackoilPhases::Liquid]] = inj_surf_rate;
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break;
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case InjectorType::MULTI:
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// Not currently handled, keep zero init.
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break;
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}
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}
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if (cmode_is_bhp)
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this->bhp = bhp_limit;
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else
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this->bhp = this->perf_data.pressure_first_connection * bhp_safety_factor;
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}
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void SingleWellState::update_targets(const Well& ecl_well, const SummaryState& st) {
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if (this->producer)
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this->update_producer_targets(ecl_well, st);
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else
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this->update_injector_targets(ecl_well, st);
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}
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bool SingleWellState::operator==(const SingleWellState& rhs) const
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{
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return this->name == rhs.name &&
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this->status == rhs.status &&
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this->producer == rhs.producer &&
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this->bhp == rhs.bhp &&
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this->thp == rhs.thp &&
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this->temperature == rhs.temperature &&
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this->phase_mixing_rates == rhs.phase_mixing_rates &&
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this->well_potentials == rhs.well_potentials &&
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this->productivity_index == rhs.productivity_index &&
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this->surface_rates == rhs.surface_rates &&
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this->reservoir_rates == rhs.reservoir_rates &&
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this->trivial_target == rhs.trivial_target &&
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this->segments == rhs.segments &&
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this->events == rhs.events &&
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this->injection_cmode == rhs.injection_cmode &&
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this->production_cmode == rhs.production_cmode;
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}
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}
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