Replication Data for: Simulation of flow in deformable fractures using a quasi-Newton based partitioned coupling approachdoi:10.18419/darus-1778DaRUS2021-10-071Jaust, Alexander; Schmidt, Patrick, 2021, "Replication Data for: Simulation of flow in deformable fractures using a quasi-Newton based partitioned coupling approach", https://doi.org/10.18419/darus-1778, DaRUS, V1Replication Data for: Simulation of flow in deformable fractures using a quasi-Newton based partitioned coupling approachdoi:10.18419/darus-1778Jaust, AlexanderSchmidt, Patrick327154368DaRUSSchmidt, PatrickSteeb, HolgerSchulte, MiriamJaust, Alexander2021-03-29Computer and Information ScienceEngineeringMathematical SciencesPhysicsComputational Physics<p>This repository contains simulation data and postprocessing scripts used in the publication:<br>
Schmidt, P., Jaust, A., Steeb, H., Schulte, M.: "Simulation of flow in deformable fractures using a quasi-Newton based partitioned coupling approach". Computational Geosciences (2022). <a href="https://doi.org/10.1007/s10596-021-10120-8">doi:10.1007/s10596-021-10120-8</a>.
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<p>The three cases presented in the paper are stored in subdirectories that contain the used meshes and geometry information as well as other files needed such as configuration files or solver scripts. You will retrieve this data structure after downloading and decompressing the archives. You can see the structure of directories in the web interface of this dataset when you change the <b>Change View</b> option to <b>Tree</b>.</p>
<p>Most bigger chunks of this repository are compressed using <code>tar</code> and <a href="http://www.zstd.net/">Zstandard</a> to ensure minimum size of the compressed files while ensuring good decompressing speed. For easier decompressing of all (downloaded) archives we provide a bash script <code>decompress-archives.sh</code> that additionally relies on Linux tools (such as <code>find</code>). The script will decompress all files ending with <code>tar.zst</code>. </p>
<p>Further information on the dataset, the solvers, its structure, scripts, and how to decompress it, can be found in the included <code>README.md</code> file.</p>Schmidt, P., Jaust, A., Steeb, H., and Schulte, M.: "Simulation of flow in deformable fractures using a quasi-Newton based partitioned coupling approach". Computational Geosciences (2022).10.1007/s10596-021-10120-8Schmidt, P., Jaust, A., Steeb, H., and Schulte, M.: "Simulation of flow in deformable fractures using a quasi-Newton based partitioned coupling approach". Computational Geosciences (2022).README.mdtext/markdownmesh-convergence-study.tar.zstapplication/octet-streammonolithic-solution.tar.zstapplication/octet-streamparameter-study.tar.zstapplication/octet-streampython-solver.tar.zstapplication/octet-streaminfo_meshes.txttext/plainmeshes-0_0045.tar.zstapplication/octet-streammeshes-0_00575.tar.zstapplication/octet-streammeshes-0_0075.tar.zstapplication/octet-streammeshes-0_01.tar.zstapplication/octet-streammeshes-0_0175.tar.zstapplication/octet-streammeshes-0_025.tar.zstapplication/octet-streammeshes-0_05.tar.zstapplication/octet-streammeshes-0_095.tar.zstapplication/octet-streammeshes-0_2.tar.zstapplication/octet-streammeshes-0_5.tar.zstapplication/octet-streamcase2-meshes.tar.zstapplication/octet-streamcase2-solver-and-config.tar.zstapplication/octet-streamcase3-meshes.tar.zstapplication/octet-streamcase3-solver-and-config.tar.zstapplication/octet-stream