PorePy currently has the following distinguishing features:
- General grids in 2d and 3d, as well as mixed-dimensional grids defined by intersecting fracture networks.
- Automatic gridding for complex fracture networks in 2d and 3d.
- Discretization of mixed-dimensional multi-physics processes:
- Finite volume and mixed and virtual finite element methods for flow
- Finite volume methods for transport and thermo-poroelasticity
- Deformation of existing fractures treated as a frictional contact problem
- Some functionality for fracture propagation along existing grid lines
For more information, see the tutorials and the Wiki.
PorePy is developed by the Porous Media Group at the University of Bergen, Norway. The software is developed under projects funded by the Research Council of Norway, the European Research Council and Equinor.
If you use PorePy in your research, we ask you to cite the following publication
Keilegavlen, E., Berge, R., Fumagalli, A., Starnoni, M., Stefansson, I., Varela, J., & Berre, I. PorePy: an open-source software for simulation of multiphysics processes in fractured porous media. Computational Geosciences, 25, 243–265 (2021), doi:10.1007/s10596-020-10002-5
Runscripts for most, if not all, papers that uses porepy is available at here. Note that you may have to revert to an older version of PorePy to run the examples (we try to keep the runscripts updated, but sometime fail to do so, for various reasons).
Install instructions can be found here Install. Note that there are a few simple but non-obvious steps in the installation, so please read the entire document before sending questions.
PorePy is developed under Python >=3.7.
To get the most current version, install from github:
git clone https://github.com/pmgbergen/porepy.git
cd porepy
To get the stable (though not very frequently updated) version: git checkout master
Install pip install -r requirements.txt
Finally to install PorePy
pip install .
or for editable installs into the user directory:
pip install --user -e .
To function optimally, PorePy should have access to some more packages:
pymetis(for mesh partitioning).- Some computationally expensive methods can be accelerated with
Numba. - We use
shapelyfor certain geometry-operations. - Meshing: currently by gmsh.
To test build locally, the second command requires gmsh (see Install)
pip install -r requirements-dev.txt
python setup.py test
Confer the tutorials. Also see unit tests.
Create an issue
See license md.