/*
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_MISCUTILITIESBLACKOIL_HEADER_INCLUDED
#define OPM_MISCUTILITIESBLACKOIL_HEADER_INCLUDED
#include
struct Wells;
namespace Opm
{
class BlackoilPropertiesInterface;
class BlackoilState;
class WellState;
/// @brief Computes injected and produced surface volumes of all phases.
/// Note 1: assumes that only the first phase is injected.
/// Note 2: assumes that transport has been done with an
/// implicit method, i.e. that the current state
/// gives the mobilities used for the preceding timestep.
/// Note 3: Gives surface volume values, not reservoir volumes
/// (as the incompressible version of the function does).
/// Also, assumes that transport_src is given in surface volumes
/// for injector terms!
/// @param[in] props fluid and rock properties.
/// @param[in] state state variables (pressure, sat, surfvol)
/// @param[in] transport_src if < 0: total resv outflow, if > 0: first phase surfv inflow
/// @param[in] dt timestep used
/// @param[out] injected must point to a valid array with P elements,
/// where P = s.size()/src.size().
/// @param[out] produced must also point to a valid array with P elements.
void computeInjectedProduced(const BlackoilPropertiesInterface& props,
const BlackoilState& state,
const std::vector& transport_src,
const double dt,
double* injected,
double* produced);
/// @brief Computes total mobility for a set of saturation values.
/// @param[in] props rock and fluid properties
/// @param[in] cells cells with which the saturation values are associated
/// @param[in] p pressure (one value per cell)
/// @param[in] z surface-volume values (for all P phases)
/// @param[in] s saturation values (for all phases)
/// @param[out] totmob total mobilities.
void computeTotalMobility(const Opm::BlackoilPropertiesInterface& props,
const std::vector& cells,
const std::vector& p,
const std::vector& z,
const std::vector& s,
std::vector& totmob);
/// @brief Computes total mobility and omega for a set of saturation values.
/// @param[in] props rock and fluid properties
/// @param[in] cells cells with which the saturation values are associated
/// @param[in] p pressure (one value per cell)
/// @param[in] z surface-volume values (for all P phases)
/// @param[in] s saturation values (for all phases)
/// @param[out] totmob total mobility
/// @param[out] omega fractional-flow weighted fluid densities.
void computeTotalMobilityOmega(const Opm::BlackoilPropertiesInterface& props,
const std::vector& cells,
const std::vector& p,
const std::vector& z,
const std::vector& s,
std::vector& totmob,
std::vector& omega);
/// @brief Computes phase mobilities for a set of saturation values.
/// @param[in] props rock and fluid properties
/// @param[in] cells cells with which the saturation values are associated
/// @param[in] p pressure (one value per cell)
/// @param[in] T temperature (one value per cell)
/// @param[in] z surface-volume values (for all P phases)
/// @param[in] s saturation values (for all phases)
/// @param[out] pmobc phase mobilities (for all phases).
void computePhaseMobilities(const Opm::BlackoilPropertiesInterface& props,
const std::vector& cells,
const std::vector& p,
const std::vector& T,
const std::vector& z,
const std::vector& s,
std::vector& pmobc);
/// Computes the fractional flow for each cell in the cells argument
/// @param[in] props rock and fluid properties
/// @param[in] cells cells with which the saturation values are associated
/// @param[in] p pressure (one value per cell)
/// @param[in] T temperature(one value per cell)
/// @param[in] z surface-volume values (for all P phases)
/// @param[in] s saturation values (for all phases)
/// @param[out] fractional_flow the fractional flow for each phase for each cell.
void computeFractionalFlow(const Opm::BlackoilPropertiesInterface& props,
const std::vector& cells,
const std::vector& p,
const std::vector& T,
const std::vector& z,
const std::vector& s,
std::vector& fractional_flows);
/// Computes the surface volume densities from saturations by the formula
/// z = A s
/// for a number of data points, where z is the surface volume density,
/// s is the saturation (both as column vectors) and A is the
/// phase-to-component relation matrix.
/// @param[in] n number of data points
/// @param[in] np number of phases, must be 2 or 3
/// @param[in] A array containing n square matrices of size num_phases,
/// in Fortran ordering, typically the output of a call
/// to the matrix() method of a BlackoilProperties* class.
/// @param[in] saturation concatenated saturation values (for all P phases)
/// @param[out] surfacevol concatenated surface-volume values (for all P phases)
void computeSurfacevol(const int n,
const int np,
const double* A,
const double* saturation,
double* surfacevol);
/// Computes saturation from surface volume densities
void computeSaturation(const BlackoilPropertiesInterface& props,
BlackoilState& state);
/// Compute two-phase transport source terms from well terms.
/// Note: Unlike the incompressible version of this function,
/// this version computes surface volume injection rates,
/// production rates are still total reservoir volumes.
/// \param[in] props Fluid and rock properties.
/// \param[in] wells Wells data structure.
/// \param[in] well_state Well pressures and fluxes.
/// \param[out] transport_src The transport source terms. They are to be interpreted depending on sign:
/// (+) positive inflow of first (water) phase (surface volume),
/// (-) negative total outflow of both phases (reservoir volume).
void computeTransportSource(const BlackoilPropertiesInterface& props,
const Wells* wells,
const WellState& well_state,
std::vector& transport_src);
} // namespace Opm
#endif // OPM_MISCUTILITIESBLACKOIL_HEADER_INCLUDED