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/*!
* \file
*
* \brief The one-phase porousmediumflow problem for exercise mainfile
*/
#ifndef DUMUX_EX_MAINFILE_ONEP_TEST_PROBLEM_HH
#define DUMUX_EX_MAINFILE_ONEP_TEST_PROBLEM_HH
#include <dumux/common/properties.hh>
#include <dumux/common/boundarytypes.hh>
#include <dumux/porousmediumflow/problem.hh>
namespace Dumux {
/*!
* \ingroup OnePTests
* \brief Test problem for the compressible one-phase model:
* \todo doc me!
* <tt>./test_box1pfv</tt> or
* <tt>./test_cc1pfv</tt>
*/
template<class TypeTag>
class OnePTestProblem : public PorousMediumFlowProblem<TypeTag>
{
using ParentType = PorousMediumFlowProblem<TypeTag>;
using GridView = typename GetPropType<TypeTag, Properties::GridGeometry>::GridView;
using Element = typename GridView::template Codim<0>::Entity;
using Scalar = GetPropType<TypeTag, Properties::Scalar>;
using PrimaryVariables = GetPropType<TypeTag, Properties::PrimaryVariables>;
using GridGeometry = GetPropType<TypeTag, Properties::GridGeometry>;
using BoundaryTypes = Dumux::BoundaryTypes<GetPropType<TypeTag, Properties::ModelTraits>::numEq()>;
static constexpr int dimWorld = GridView::dimensionworld;
using GlobalPosition = typename Element::Geometry::GlobalCoordinate;
using FluidSystem = GetPropType<TypeTag, Properties::FluidSystem>;
public:
OnePTestProblem(std::shared_ptr<const GridGeometry> gridGeometry)
: ParentType(gridGeometry)
{
FluidSystem::Component::init(/*tempMin=*/273.15,
/*tempMax=*/294.15,
/*numTemp=*/10,
/*pMin=*/1.0e4,
/*pMax=*/1.0e6,
/*numP=*/200);
}
/*!
* \brief Specifies which kind of boundary condition should be
* used for which equation on a given boundary control volume.
*
* \param globalPos The position of the center of the finite volume
*/
BoundaryTypes boundaryTypesAtPos(const GlobalPosition &globalPos) const
{
BoundaryTypes values;
Scalar eps = 1.0e-6;
if (globalPos[dimWorld-1] < eps || globalPos[dimWorld-1] > this->gridGeometry().bBoxMax()[dimWorld-1] - eps)
values.setAllDirichlet();
else
values.setAllNeumann();
return values;
}
/*!
* \brief Evaluate the boundary conditions for a dirichlet
* control volume.
*
* \param globalPos The center of the finite volume which ought to be set.
*/
PrimaryVariables dirichletAtPos(const GlobalPosition &globalPos) const
{
PrimaryVariables values(0);
values[0] = 1.0e5*(2.0 - globalPos[dimWorld-1]);
return values;
}
/*!
* \brief Evaluate the initial conditions
*
* \param globalPos The center of the finite volume which ought to be set.
*/
PrimaryVariables initialAtPos(const GlobalPosition& globalPos) const
{
return PrimaryVariables(1.0e5);
}
};
} // end namespace Dumux
#endif