/* Copyright 2012 SINTEF ICT, Applied Mathematics. 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 . */ #ifndef OPM_COMPRESSIBLETPFA_HEADER_INCLUDED #define OPM_COMPRESSIBLETPFA_HEADER_INCLUDED #include struct UnstructuredGrid; struct cfs_tpfa_res_data; struct Wells; struct FlowBoundaryConditions; namespace Opm { class BlackoilState; class BlackoilPropertiesInterface; class RockCompressibility; class LinearSolverInterface; class WellState; /// Encapsulating a tpfa pressure solver for the compressible-fluid case. /// Supports gravity, wells and simple sources as driving forces. /// Below we use the shortcuts D for the number of dimensions, N /// for the number of cells and F for the number of faces. class CompressibleTpfa { public: /// Construct solver. /// \param[in] grid A 2d or 3d grid. /// \param[in] props Rock and fluid properties. /// \param[in] rock_comp_props Rock compressibility properties. May be null. /// \param[in] linsolver Linear solver to use. /// \param[in] residual_tol Solution accepted if inf-norm of residual is smaller. /// \param[in] change_tol Solution accepted if inf-norm of change in pressure is smaller. /// \param[in] maxiter Maximum acceptable number of iterations. /// \param[in] gravity Gravity vector. If non-null, the array should /// have D elements. /// \param[in] wells The wells argument. Will be used in solution, /// is ignored if NULL. /// Note: this class observes the well object, and /// makes the assumption that the well topology /// and completions does not change during the /// run. However, controls (only) are allowed /// to change. CompressibleTpfa(const UnstructuredGrid& grid, const BlackoilPropertiesInterface& props, const RockCompressibility* rock_comp_props, const LinearSolverInterface& linsolver, const double residual_tol, const double change_tol, const int maxiter, const double* gravity, const Wells* wells); /// Destructor. ~CompressibleTpfa(); /// Solve the pressure equation by Newton-Raphson scheme. /// May throw an exception if the number of iterations /// exceed maxiter (set in constructor). void solve(const double dt, BlackoilState& state, WellState& well_state); /// @brief After solve(), was the resulting pressure singular. /// Returns true if the pressure is singular in the following /// sense: if everything is incompressible and there are no /// pressure conditions, the absolute values of the pressure /// solution are arbitrary. (But the differences in pressure /// are significant.) bool singularPressure() const; private: virtual void computePerSolveDynamicData(const double dt, const BlackoilState& state, const WellState& well_state); void computePerIterationDynamicData(const double dt, const BlackoilState& state, const WellState& well_state); virtual void computeCellDynamicData(const double dt, const BlackoilState& state, const WellState& well_state); void computeFaceDynamicData(const double dt, const BlackoilState& state, const WellState& well_state); void computeWellDynamicData(const double dt, const BlackoilState& state, const WellState& well_state); void assemble(const double dt, const BlackoilState& state, const WellState& well_state); void solveIncrement(); double residualNorm() const; double incrementNorm() const; void computeResults(BlackoilState& state, WellState& well_state) const; protected: void computeWellPotentials(const BlackoilState& state); // ------ Data that will remain unmodified after construction. ------ const UnstructuredGrid& grid_; const BlackoilPropertiesInterface& props_; const RockCompressibility* rock_comp_props_; const LinearSolverInterface& linsolver_; const double residual_tol_; const double change_tol_; const int maxiter_; const double* gravity_; // May be NULL const Wells* wells_; // May be NULL, outside may modify controls (only) between calls to solve(). std::vector htrans_; std::vector trans_ ; std::vector allcells_; // ------ Internal data for the cfs_tpfa_res solver. ------ struct cfs_tpfa_res_data* h_; // ------ Data that will be modified for every solve. ------ std::vector wellperf_wdp_; std::vector initial_porevol_; // ------ Data that will be modified for every solver iteration. ------ std::vector cell_A_; std::vector cell_dA_; std::vector cell_viscosity_; std::vector cell_phasemob_; std::vector cell_voldisc_; std::vector face_A_; std::vector face_phasemob_; std::vector face_gravcap_; std::vector wellperf_A_; std::vector wellperf_phasemob_; std::vector porevol_; // Only modified if rock_comp_props_ is non-null. std::vector rock_comp_; // Empty unless rock_comp_props_ is non-null. // The update to be applied to the pressures (cell and bhp). std::vector pressure_increment_; // True if the matrix assembled would be singular but for the // adjustment made in the cfs_*_assemble() calls. This happens // if everything is incompressible and there are no pressure // conditions. bool singular_; }; } // namespace Opm #endif // OPM_COMPRESSIBLETPFA_HEADER_INCLUDED