Dear DuMux user and developers,
early this year, we published a new DuMux paper focused on novelties in DuMux
version 3.
As you know, DuMux is a free and open source research code mostly developed by
researchers from academia.
We would be very happy if you would cite our publication if you publish
something with the help of DuMux and thus give credit to the developers.
Thank you all for your contributions, and we hope you’ll also find DuMux useful
in the future!
Best regards,
Timo
@article{KOCH2020,
title = "DuMux 3 – an open-source simulator for solving flow and transport
problems in porous media with a focus on model coupling",
journal = "Computers \& Mathematics with Applications",
year = "2020",
issn = "0898-1221",
doi = "https://doi.org/10.1016/j.camwa.2020.02.012
<https://doi.org/10.1016/j.camwa.2020.02.012>",
url = "http://www.sciencedirect.com/science/article/pii/S0898122120300791
<http://www.sciencedirect.com/science/article/pii/S0898122120300791>",
author = "Timo Koch and Dennis Gläser and Kilian Weishaupt and Sina Ackermann
and Martin Beck and Beatrix Becker and Samuel Burbulla and Holger Class and
Edward Coltman and Simon Emmert and Thomas Fetzer and Christoph Grüninger and
Katharina Heck and Johannes Hommel and Theresa Kurz and Melanie Lipp and Farid
Mohammadi and Samuel Scherrer and Martin Schneider and Gabriele Seitz and
Leopold Stadler and Martin Utz and Felix Weinhardt and Bernd Flemisch",
keywords = "Porous media, Multi-phase flow, Coupled problems, Open-source
software, Research software",
abstract = "We present version 3 of the open-source simulator for flow and
transport processes in porous media DuMux. DuMux is based on the modular C++
framework Dune (Distributed and Unified Numerics Environment) and is developed
as a research code with a focus on modularity and reusability. We describe
recent efforts in improving the transparency and efficiency of the development
process and community-building, as well as efforts towards quality assurance
and reproducible research. In addition to a major redesign of many simulation
components in order to facilitate setting up complex simulations in DuMux,
version 3 introduces a more consistent abstraction of finite volume schemes.
Finally, the new framework for multi-domain simulations is described, and three
numerical examples demonstrate its flexibility.”
}
--
_________________________________________________
Timo Koch phone: +49 711 685 64676
IWS, Universität Stuttgart fax: +49 711 685 60430
Pfaffenwaldring 61 email: [email protected]
D-70569 Stuttgart url: www.iws.uni-stuttgart.de/en/lh2/
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