Commit 062df6e9 authored by Dominik Riesterer's avatar Dominik Riesterer
Browse files

Updated Documentation

git-svn-id: svn://svn.iws.uni-stuttgart.de/DUMUX/dumux/trunk@11225 2fb0f335-1f38-0410-981e-8018bf24f1b0
parent f7d3e7c5
......@@ -56,9 +56,20 @@ class MPNCFluxVariablesDiffusion
typedef Dune::FieldVector<Scalar, dim> DimVector;
public:
/*!
* \brief The constructor
*/
MPNCFluxVariablesDiffusion()
{}
/*!
* \brief update
*
* \param problem The problem
* \param element The finite element
* \param fvGeometry The finite-volume geometry in the fully implicit scheme
* \param face The SCV (sub-control-volume) face
* \param elemVolVars The volume variables of the current element
*/
void update(const Problem & problem,
const Element & element,
const FVElementGeometry & fvGeometry,
......@@ -158,20 +169,31 @@ public:
}
}
}
/*!
* \brief The binary diffusion coefficient for each component in the fluid phase.
* \param compIdx The local index of the components
*/
Scalar porousDiffCoeffL(const unsigned int compIdx) const
{
// TODO: tensorial diffusion coefficients
return porousDiffCoeffL_[compIdx];
}
/*!
* \brief The binary diffusion coefficient for each component in the gas phase.
* \param compIIdx The local index of the first component in the phase
* \param compIJdx The local index of the second component in the phase
*/
Scalar porousDiffCoeffG(const unsigned int compIIdx,
const unsigned int compJIdx) const
{
// TODO: tensorial diffusion coefficients
return porousDiffCoeffG_[compIIdx][compJIdx];
}
/*!
* \brief The mole fraction and concentration gradient for all phases and components
* \param phaseIdx The local index of the phases
* \param compIdx The local index of the component
*/
Scalar moleFraction(const unsigned int phaseIdx,
const unsigned int compIdx) const
{ return moleFraction_[phaseIdx][compIdx]; }
......@@ -208,9 +230,20 @@ class MPNCFluxVariablesDiffusion<TypeTag, false>
typedef typename FVElementGeometry::SubControlVolumeFace SCVFace;
public:
/*!
* \brief The constructor
*/
MPNCFluxVariablesDiffusion()
{}
/*!
* \brief update
*
* \param problem The problem
* \param element The finite element
* \param fvGeometry The finite-volume geometry in the fully implicit scheme
* \param face The SCV (sub-control-volume) face
* \param elemVolVars The volume variables of the current element
*/
void update(const Problem & problem,
const Element & element,
const FVElementGeometry & fvGeometry,
......
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