SFB 1313 is an interdisciplinary Collaborative Research Centre of the University of Stuttgart, consisting of four major project areas (A-D), divided in 17 individual research projects. It is funded by the German Research Foundation (DFG) and affiliated to the Cluster of Excellence "Data-integrated Simulation Science (SimTech)".

Interfaces have a great impact on multi-field processes (flow, transport and deformation) in porous-media systems. SFB 1313 aims to research these interfaces and to gain a fundamental understanding how they affect multi-field processes. An important step is therefore to quantify how the dynamics of fluid-fluid and fluid-solid interfaces in porous-media systems are affected by pore geometry, heterogeneity and fractures. Furthermore, developing experimental knowledge as well as mathematical and computational models will support SFB 1313‘s research.

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1 to 10 of 2,819 Results
DuMuX code for: "Self-pumping transpiration cooling: A joint experimental and numerical study"
Jul 16, 2025 - A02: Advanced modelling concepts for coupling free flow with porous-media flow
Veyskarami, Maziar, 2025, "DuMuX code for: "Self-pumping transpiration cooling: A joint experimental and numerical study"", https://doi.org/10.18419/DARUS-5071, DaRUS, V1
This dataset contains the source code used for the work "Härter, J., Veyskarami, M., Schneider, M. et al. Self-Pumping Transpiration Cooling: A Joint Experimental and Numerical Study. Transp Porous Med 152, 56 (2025). (https://doi.org/10.1007/s11242-025-02198-w)"
install_veyskarami2025.py
Jul 16, 2025 - DuMuX code for: "Self-pumping transpiration cooling: A joint experimental and numerical study"
Python Source Code - 5.6 KB - MD5: 3a10a49558edb5cacca993bbbaeb8563
Installation script
veyskarami2025a.tar.gz
Jul 16, 2025 - DuMuX code for: "Self-pumping transpiration cooling: A joint experimental and numerical study"
Gzip Archive - 1.3 MB - MD5: fc13062a1d9f515b43eed1b22cddd08a
Source code
README.tar.gz
Jul 16, 2025 - DuMuX code for: "Self-pumping transpiration cooling: A joint experimental and numerical study"
Gzip Archive - 187.0 KB - MD5: a59ad46a3c1b3de4ed74ee6e4ab86045
Data for: Intermittent flow paths in biofilms grown in a microfluidic channel
Jul 2, 2025 - Publication: Intermittent flow paths in biofilms grown in a microfluidic channel
Bozkurt, Kerem; Lohrmann, Christoph; Weinhardt, Felix; Hanke, Daniel; Hopp, Raphael; Gerlach, Robin; Holm, Christian; Class, Holger, 2025, "Data for: Intermittent flow paths in biofilms grown in a microfluidic channel", https://doi.org/10.18419/DARUS-4314, DaRUS, V1
Content: This dataset includes images of 10 different biofilm growth experiments to observe intermittent flow paths in a microfluidic channel. All images taken by optical microscopy per five minutes. The experiments took in avarage 4-5 days. The published data is the raw images of the experiments. The images names were related to the timestamps as...
E1.2_images.tar.gz
Jul 2, 2025 - Data for: Intermittent flow paths in biofilms grown in a microfluidic channel
Gzip Archive - 14.9 MB - MD5: e47b9360aa8d27f531f94a59c5ec6246
Images of the Experiment E1.3
E1.3_images.tar.gz
Jul 2, 2025 - Data for: Intermittent flow paths in biofilms grown in a microfluidic channel
Gzip Archive - 18.1 MB - MD5: a0cdae00f9eb19723427a7d57ba99c8a
Images of the Experiment E1.3
E1_images.tar.gz
Jul 2, 2025 - Data for: Intermittent flow paths in biofilms grown in a microfluidic channel
Gzip Archive - 1.8 GB - MD5: 22d55a7cb69cb0f944c80193f7862c04
Images of experiment E1
E2_images.tar.gz
Jul 2, 2025 - Data for: Intermittent flow paths in biofilms grown in a microfluidic channel
Gzip Archive - 3.7 GB - MD5: 48ce1cacdc30f9fa34fa70228116f24e
Images of experiment E2
E3_1_images.tar.gz
Jul 2, 2025 - Data for: Intermittent flow paths in biofilms grown in a microfluidic channel
Gzip Archive - 3.7 GB - MD5: d8cfa70c86921d05ba1b06c2ebf92718
Images of experiment E3_1
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