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3.4
DUNE for Multi-{Phase, Component, Scale, Physics, ...} flow and transport in porous media
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3.4
DUNE for Multi-{Phase, Component, Scale, Physics, ...} flow and transport in porous media
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Finite volume discretization of a two-phase flow pressure equation of the sequential IMPES model. More...
#include <dumux/porousmediumflow/2p/sequential/diffusion/cellcentered/pressureadaptive.hh>
Finite volume discretization of a two-phase flow pressure equation of the sequential IMPES model.
Details see FVPressure2P
| TypeTag | The Type Tag |
Public Member Functions | |
| void | getFlux (EntryType &, const Intersection &, const CellData &, const bool) |
| Function which calculates the flux entry. More... | |
| void | initialize () |
| Initializes the adaptive pressure model. More... | |
| void | update () |
| Pressure update. More... | |
| void | calculateVelocity () |
| Velocity calculation. More... | |
| void | updateVelocity () |
| Velocity update. More... | |
| template<class MultiWriter > | |
| void | addOutputVtkFields (MultiWriter &writer) |
| Adds pressure output to the output file. More... | |
| FVPressure2PAdaptive (Problem &problem) | |
| Constructs a FVPressure2PAdaptive object. More... | |
| void | getSource (EntryType &entry, const Element &element, const CellData &cellData, const bool first) |
| Function which calculates the source entry. More... | |
| void | getStorage (EntryType &entry, const Element &element, const CellData &cellData, const bool first) |
| Function which calculates the storage entry. More... | |
| void | getFluxOnBoundary (EntryType &entry, const Intersection &intersection, const CellData &cellData, const bool first) |
| Function which calculates the boundary flux entry. More... | |
| void | updateMaterialLaws () |
| Updates and stores constitutive relations. More... | |
| void | initialize (bool solveTwice=true) |
| Initializes the pressure model. More... | |
| void | storePressureSolution () |
| Globally stores the pressure solution. More... | |
| void | storePressureSolution (const Element &element) |
| Stores the pressure solution of a cell. More... | |
| const Scalar | pressure (const int eIdxGlobal) const |
| Public access function for the primary pressure variable. More... | |
| const Matrix & | globalMatrix () |
| Returns the global matrix of the last pressure solution step. More... | |
| const RHSVector & | rightHandSide () |
| Returns the right hand side vector of the last pressure solution step. More... | |
| void | serializeEntity (std::ostream &outstream, const Element &element) |
| Function for serialization of the pressure field. More... | |
| void | deserializeEntity (std::istream &instream, const Element &element) |
| Function for deserialization of the pressure field. More... | |
| void | setFixPressureAtIndex (Scalar pressure, int eIdxGlobal) |
| Set a pressure to be fixed at a certain cell. More... | |
| void | unsetFixPressureAtIndex (int eIdxGlobal) |
| Reset the fixed pressure state. More... | |
| void | resetFixPressureAtIndex () |
Protected Types | |
| enum | { rhs = 1 , matrix = 0 } |
| Indices of matrix and rhs entries. More... | |
| enum | { pressEqIdx = Indices::pressureEqIdx } |
| using | EntryType = Dune::FieldVector< Scalar, 2 > |
Protected Member Functions | |
| void | initializeMatrix () |
| Initialize the global matrix of the system of equations to solve. More... | |
| void | initializeMatrixRowSize () |
| Initialize the global matrix of the system of equations to solve. More... | |
| void | initializeMatrixIndices () |
| Initialize the global matrix of the system of equations to solve. More... | |
| void | assemble (bool first) |
| Function which assembles the system of equations to be solved. More... | |
| void | solve () |
| Solves the global system of equations to get the spatial distribution of the pressure. More... | |
| PressureSolution & | pressure () |
| Returns the vector containing the pressure solution. More... | |
| const PressureSolution & | pressure () const |
| Returns the vector containing the pressure solution. More... | |
| void | initializePressure () |
| Initialization of the pressure solution vector: Initialization with meaningful values may. More... | |
Protected Attributes | |
| Matrix | A_ |
Global stiffnes matrix (sparse matrix which is build by the initializeMatrix() function) More... | |
| RHSVector | f_ |
| Right hand side vector. More... | |
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protectedinherited |
Type of the vector of entries
Contains the return values of the get*()-functions (matrix or right-hand side entry).
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protectedinherited |
Indices of matrix and rhs entries.
During the assembling of the global system of equations get-functions are called (getSource(), getFlux(), etc.), which return global matrix or right hand side entries in a vector. These can be accessed using following indices:
| Enumerator | |
|---|---|
| rhs | index for the right hand side entry |
| matrix | index for the global matrix entry |
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inline |
Constructs a FVPressure2PAdaptive object.
| problem | A problem class object |
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inline |
Adds pressure output to the output file.
Adds the phase pressures or a global pressure (depending on the formulation) as well as the capillary pressure to the output. In the compressible case additionally density and viscosity are added.
| MultiWriter | Class defining the output writer |
| writer | The output writer (usually a VTKMultiWriter object) |
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protectedinherited |
Function which assembles the system of equations to be solved.
This function assembles the Matrix and the right hand side (RHS) vector to solve for a pressure field with a Finite-Volume (FV) discretization. Implementations of this base class have to provide the methods getSource(), getStorage(), getFlux() and getFluxOnBoundary() if the assemble() method is called!
| first | Indicates if function is called at the initialization step or during the simulation (If first is true, no pressure field of previous iterations is required) |
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inline |
Velocity calculation.
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inlineinherited |
Function for deserialization of the pressure field.
Function needed for restart option. Reads the pressure of a grid element from a restart file.
| instream | Stream from the restart file. |
| element | Grid element |
| void Dumux::FVPressure2PAdaptive< TypeTag >::getFlux | ( | EntryType & | entry, |
| const Intersection & | intersection, | ||
| const CellData & | cellData, | ||
| const bool | first | ||
| ) |
Function which calculates the flux entry.
Function computes the inter-cell flux term and writes it to the corresponding entry of the entry vector
| entry | Vector containing return values of the function |
| intersection | Intersection of two grid elements |
| cellData | Object containing all model relevant cell data |
| first | Indicates if function is called in the initialization step or during the simulation |
Implementation of the getFlux() function for cell-cell interfaces with hanging nodes. In case of hanging nodes the function does not return a vector of entry but directly manipulates the global matrix!
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inherited |
Function which calculates the boundary flux entry.
Function which calculates the flux entry at a boundary.
Function computes the boundary-flux term and writes it to the corresponding entry of the entry vector
| entry | Vector containing return values of the function |
| intersection | Intersection of two grid elements |
| cellData | Object containing all model relevant cell data |
| first | Indicates if function is called in the initialization step or during the simulation |
Dirichlet boundary condition for pressure depends on the formulation ( \(p_w\) (default), \(p_n\), \(p_{global}\)), Neumann boundary condition are the phase mass fluxes ( \(q_w\) and \(q_n\), [ \(\text{kg}/(\text{m}^2 \text{s}\)])
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inherited |
Function which calculates the source entry.
Function computes the source term and writes it to the corresponding entry of the entry vector
| entry | Vector containing return values of the function |
| element | Grid element |
| cellData | Object containing all model relevant cell data |
| first | Indicates if function is called in the initialization step or during the simulation |
Source of each fluid phase has to be added as mass flux ( \(\text{kg}/(\text{m}^3 \text{s}\)).
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inherited |
Function which calculates the storage entry.
Function computes the storage term and writes it to the corresponding entry of the entry vector
| entry | Vector containing return values of the function |
| element | Grid element |
| cellData | Object containing all model relevant cell data |
| first | Indicates if function is called in the initialization step or during the simulation |
If compressibility is enabled this functions calculates the term
\[ \phi \sum_\alpha \varrho_\alpha \frac{\partial S_\alpha}{\partial t} V \]
In the incompressible case an volume correction term is calculated which corrects for non-physical saturation overshoots/undershoots. These can occur if the estimated time step for the explicit transport was too large. Correction by an artificial source term allows to correct this errors due to wrong time-stepping without losing mass conservation. The error term looks as follows:
\[ q_{error} = \begin{cases} S < 0 & a_{error} \frac{S}{\Delta t} V \\ S > 1 & a_{error} \frac{(S - 1)}{\Delta t} V \\ 0 \le S \le 1 & 0 \end{cases} \]
where \(a_{error}\) is a weighting factor (default: \(a_{error} = 0.5\))
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inlineinherited |
Returns the global matrix of the last pressure solution step.
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inline |
Initializes the adaptive pressure model.
Function initializes the sparse matrix to solve the global system of equations and sets/calculates the initial pressure
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inlineinherited |
Initializes the pressure model.
Function initializes the sparse matrix to solve the global system of equations and sets/calculates the initial pressure
| solveTwice | indicates if more than one iteration is allowed to get an initial pressure solution |
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protectedinherited |
Initialize the global matrix of the system of equations to solve.
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protectedinherited |
Initialize the global matrix of the system of equations to solve.
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protectedinherited |
Initialize the global matrix of the system of equations to solve.
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inlineprotectedinherited |
Initialization of the pressure solution vector: Initialization with meaningful values may.
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inlineprotectedinherited |
Returns the vector containing the pressure solution.
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inlineprotectedinherited |
Returns the vector containing the pressure solution.
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inlineinherited |
Public access function for the primary pressure variable.
Function returns the cell pressure value at index eIdxGlobal
| eIdxGlobal | Global index of a grid cell |
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inlineinherited |
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inlineinherited |
Returns the right hand side vector of the last pressure solution step.
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inlineinherited |
Function for serialization of the pressure field.
Function needed for restart option. Writes the pressure of a grid element to a restart file.
| outstream | Stream into the restart file. |
| element | Grid element |
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inlineinherited |
Set a pressure to be fixed at a certain cell.
Allows to fix a pressure somewhere (at one certain cell) in the domain. This can be necessary e.g. if only Neumann boundary conditions are defined. The pressure is fixed until the unsetFixPressureAtIndex() function is called
| pressure | Pressure value at eIdxGlobal |
| eIdxGlobal | Global index of a grid cell |
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protectedinherited |
Solves the global system of equations to get the spatial distribution of the pressure.
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inlineinherited |
Globally stores the pressure solution.
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inlineinherited |
Stores the pressure solution of a cell.
Calculates secondary pressure variables and stores pressures.
| element | Grid element |
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inlineinherited |
Reset the fixed pressure state.
No pressure is fixed inside the domain until setFixPressureAtIndex() function is called again.
| eIdxGlobal | Global index of a grid cell |
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inline |
Pressure update.
Function reassembles the system of equations and solves for a new pressure solution.
The grid-adaptive implementation also reconstructs the velocity directly after the pressure update. This is necessary to make sure the hanging nodes are treated correctly!
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inherited |
Updates and stores constitutive relations.
Updates constitutive relations and stores them in the variable class.
Stores mobility, fractional flow function and capillary pressure for all grid cells. In the compressible case additionally the densities and viscosities are stored.
| TypeTag | The problem TypeTag |
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inline |
Velocity update.
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protectedinherited |
Global stiffnes matrix (sparse matrix which is build by the initializeMatrix() function)
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protectedinherited |
Right hand side vector.
1.9.3