OpenPNM: A Pore Network Modeling Package

Pore network modeling is a widely used technique for simulating multiphase transport in porous materials, but there are very few software options available. This work outlines the OpenPNM package that was jointly developed by several porous media research groups to help address this gap. OpenPNM is...

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Published in	Computing in science & engineering Vol. 18; no. 4; pp. 60 - 74
Main Authors	Gostick, Jeff, Burns, Alan, Lehnert, Werner, Putz, Andreas, Aghighi, Mahmoudreza, Hinebaugh, James, Tranter, Tom, Hoeh, Michael A., Day, Harold, Spellacy, Brennan, Sharqawy, Mostafa H., Bazylak, Aimy
Format	Journal Article
Language	English
Published	New York IEEE 01.07.2016 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Computational modeling Computer simulation Mathematical model Mathematical models Modeling Modelling Network topology Object recognition Open source software Packages percolation theory pore network modeling Porosity Porous materials porous media python scientific computing Transport transport phenomena Transportation networks
Online Access	Get full text
ISSN	1521-9615 1558-366X
DOI	10.1109/MCSE.2016.49

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Abstract	Pore network modeling is a widely used technique for simulating multiphase transport in porous materials, but there are very few software options available. This work outlines the OpenPNM package that was jointly developed by several porous media research groups to help address this gap. OpenPNM is written in Python using NumPy and SciPy for most mathematical operations, thus combining Python's ease of use with the performance necessary to perform large simulations. The package assists the user with managing and interacting with all the topological, geometrical, and thermophysical data. It also includes a suite of commonly used algorithms for simulating percolation and performing transport calculations on pore networks. Most importantly, it was designed to be highly flexible to suit any application and be easily customized to include user-specified pore-scale physics models. The framework is fast, powerful, and concise. An illustrative example is included that determines the effective diffusivity through a partially water-saturated porous material with just 29 lines of code.
AbstractList	Pore network modeling is a widely used technique for simulating multiphase transport in porous materials, but there are very few software options available. This work outlines the OpenPNM package that was jointly developed by several porous media research groups to help address this gap. OpenPNM is written in Python using NumPy and SciPy for most mathematical operations, thus combining Python's ease of use with the performance necessary to perform large simulations. The package assists the user with managing and interacting with all the topological, geometrical, and thermophysical data. It also includes a suite of commonly used algorithms for simulating percolation and performing transport calculations on pore networks. Most importantly, it was designed to be highly flexible to suit any application and be easily customized to include user-specified pore-scale physics models. The framework is fast, powerful, and concise. An illustrative example is included that determines the effective diffusivity through a partially water-saturated porous material with just 29 lines of code.
Author	Putz, Andreas Burns, Alan Tranter, Tom Lehnert, Werner Gostick, Jeff Hoeh, Michael A. Hinebaugh, James Spellacy, Brennan Sharqawy, Mostafa H. Bazylak, Aimy Day, Harold Aghighi, Mahmoudreza
Author_xml	– sequence: 1 givenname: Jeff surname: Gostick fullname: Gostick, Jeff email: jgostick@gmail.com organization: McGill University – sequence: 2 givenname: Alan surname: Burns fullname: Burns, Alan email: a.d.burns@leeds.ac.uk organization: University of Leeds – sequence: 3 givenname: Werner surname: Lehnert fullname: Lehnert, Werner email: w.lehnert@fz-juelich.de organization: Forschungszentrum Jülich and RWTH Aachen – sequence: 4 givenname: Andreas surname: Putz fullname: Putz, Andreas email: andreas.putz@afcc-auto.com organization: Automotive Fuel Cell Cooperation – sequence: 5 givenname: Mahmoudreza surname: Aghighi fullname: Aghighi, Mahmoudreza email: mreza_aghighi@yahoo.com organization: McGill University – sequence: 6 givenname: James surname: Hinebaugh fullname: Hinebaugh, James email: jhinebau@gmail.com organization: University of Toronto – sequence: 7 givenname: Tom surname: Tranter fullname: Tranter, Tom email: t.g.tranter@gmail.com organization: University of Leeds – sequence: 8 givenname: Michael A. surname: Hoeh fullname: Hoeh, Michael A. email: michael.a.hoh@googlemail.com organization: Forschungszentrum Jülich – sequence: 9 givenname: Harold surname: Day fullname: Day, Harold email: haroldday@gmail.com organization: McGill University – sequence: 10 givenname: Brennan surname: Spellacy fullname: Spellacy, Brennan email: brennanspellacy@gmail.com organization: McGill University – sequence: 11 givenname: Mostafa H. surname: Sharqawy fullname: Sharqawy, Mostafa H. email: melsharq@uoguelph.ca organization: University of Toronto and University of Guelph – sequence: 12 givenname: Aimy surname: Bazylak fullname: Bazylak, Aimy email: abazylak@mie.utoronto.ca organization: University of Toronto
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Snippet	Pore network modeling is a widely used technique for simulating multiphase transport in porous materials, but there are very few software options available....
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SubjectTerms	Computational modeling Computer simulation Mathematical model Mathematical models Modeling Modelling Network topology Object recognition Open source software Packages percolation theory pore network modeling Porosity Porous materials porous media python scientific computing Transport transport phenomena Transportation networks
Title	OpenPNM: A Pore Network Modeling Package
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