Modules

Here is a list of all modules:

[detail level 1234]

▼Porous-Medium Flow Models | Single and multi-phase models for flow and transport in porous materials |

►1p | Single-phase (immiscible) Darcy flow |

1pnc | Single-phase, multi-component Darcy flow |

1pncmin | Single-phase, multi-component Darcy flow with mineralization |

►2p | Two-phase (immiscible) Darcy flow |

2p1c | Two-phase, one-component Darcy flow |

►2p2c | Two-phase, two-component Darcy flow |

2pnc | Two-phase, multi-component Darcy flow |

2pncmin | Two-phase, multi-component Darcy flow with mineralization |

3p | Three-phase (immiscible) Darcy flow |

3p3c | Three-phase, three-component Darcy flow |

3pwateroil | Three-phase, two-component Darcy flow with water (liquid & gas) and oil |

boxdfm | |

CO2 | Two-phase, two-component Darcy flow specialized for supercritical CO_{2} storage |

mineralization | Model adding components that can precipitate as a solid phase to a standard Darcy flow model |

mpnc | Generalized multi-phase, multi-component Darcy flow |

►NonEquilibrium | Model that adds nonequilibrium equations to another porous medium flow model (only used in MPNCModel currently) |

nonisothermal | Model that adds an energy equation (thermal equilibrium) to another porous medium flow model |

Richards | Richards flow |

Richards nc | Richards multi-component flow |

Tracer | Multi-component advection-diffusion-reaction model with given velocity field |

▼Free Flow Models | Single-phase models basing on the Navier-Stokes equation |

Navier-Stokes | Single-phase Navier-Stokes flow |

►Reynolds-Averaged Navier-Stokes | Single-phase Reynolds-Averaged Navier-Stokes flow |

Compositional | Single-phase multi-component free-flow flow models |

Nonisothermal | An energy equation adaptor for isothermal free-flow models |

▼Geomechanics Models | Models for taking into account solid deformation |

Solid mechanics w/o fluid pressure | Models linear elastic deformation of a solid. Disregards fluid pressure |

Solid mechanics with fluid pressure | Models linear elastic deformation of a solid. Takes fluid pressure into account |

▼Benchmarks and Tests | Benchmarks and tests used for (automated) testing and demonstration purposes |

►Porous-Medium Flow Tests | Single and multi-phase tests for flow and transport in porous materials |

►Free Flow Tests | Various tests for single-phase Navier-Stokes / Stokes tests |

Geomechanics Tests | Various tests using the geomechanics elastic or poroelastic models. The files are listed below |

Material system tests | Benchmarks and Test(s) for the material system |

►MultiDomain tests | Various tests for multidomain problems |

▼Discretization schemes | The discretization schemes available in DuMu^{x} |

Box FV scheme | The box method is a collocated finite volume scheme with control volumes centered at grid nodes |

►Cell-centered FV scheme | Finite volume schemes with degrees of freedom located at grid cell centers |

Staggered FV scheme | A staggered finite volume scheme with degrees of freedom at cell-centers and facets |

▼Flux | All flux related things available in DuMu^{x} |

Flux related to the Box scheme | Flux related to the box scheme |

Flux related to the cell-centered schemes | Flux related to the cell-centered schemes |

Flux related to the cell-centered two-point flux approximation schemes | Flux related to the cell-centered two-point flux approximation schemes |

Flux related to the cell-centered multi-point flux approximation schemes | Flux related to the cell-centered multi-point flux approximation schemes |

Flux related to the staggered scheme | Flux related to the staggered scheme |

▼Material and Fluid Framework | The DuMu^{x} material and fluid framework with constitutive laws and physics |

Binary Coefficients | Binary coefficients |

Chemistry | Chemical reactions |

►Components | Thermodynamics of single chemical species or fixed mixtures of species |

Constraint Solvers | Constraint solvers converting primary to secondary variables |

Equation of State | Equations of state |

Fluid-Matrix Interactions | E.g. pc-Sw, kr-Sw relations, effective diffusion coefficients |

Fluid States | Fluid states are responsible for representing the complete thermodynamic configuration of a system at a given spatial and temporal position |

Fluid Systems | Fluid systems express the thermodynamic relations (functions) |

Solid States | Solid states are responsible for representing all relevant thermodynamic quantities of solid systems |

Solid Systems | Solid systems express the thermodynamic relations (functions) |

Spatial Parameters | Parameters of the porous matrix and other parameter varying with position (e.g. porosity) |

Adaptive | Adaptive grids |

▼Assembly and Solvers | Assembling matrices and vectors, solvers for linear and nonlinear equations |

Assembly | Assembly of linear systems (Jacobian and residual) |

Linear | Linear solvers and helpers |

Nonlinear | Nonlinear solvers: Newton method |

▼Common | Common classes, functions, properties and concepts |

Geometry | Basic geometries in DuMu^{x} |

Properties | Basic properties of all models in DuMu^{x} |

Typetraits | Basic Type traits in DuMu^{x} |

Input Output | Classes and functions dealing with input and output of data and grids |

▼Multidomain simulations | Classes to run problems with multiple domains |

►Boundary coupling mode | Couples problems of different or equal dimension that touch at the domain boundary. Examples are equal-dimension multi-physics problems like Darcy-Stokes coupling or PNM (pore network model)-Darcy coupling |

Embedded mixed-dimension coupling mode | Couples problems of different dimensions where one or more lower-dimensional problems (lowdim) are embedded in a higher-dimensional domain (bulk). Examples are embedded one-dimensional networks for the simulation of blood tissue perfusion, or root-soil interaction, and embedded fracture models |

Conforming mixed-dimension facet coupling mode | Couples problems of different dimensions where one or more lower-dimensional problems (lowdim) live on the facets of the higher-dimensional domain (bulk). Examples are discrete facet conforming fracture models and problems with physics on a domain surface |

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