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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E3_2_images.tar.gz
Jul 2, 2025 - Data for: Intermittent flow paths in biofilms grown in a microfluidic channel
Gzip Archive - 2.9 GB - MD5: a4d4465c1e28108527c59b30581071d3
Images of experiment E3_2
E4_1_images.tar.gz
Jul 2, 2025 - Data for: Intermittent flow paths in biofilms grown in a microfluidic channel
Gzip Archive - 1.5 GB - MD5: 3f6d6ab9538737ef1bb7e6d2c4b29e79
Images of experiment E4_1
E4_2_images.tar.gz
Jul 2, 2025 - Data for: Intermittent flow paths in biofilms grown in a microfluidic channel
Gzip Archive - 3.3 GB - MD5: 095808c8821b5cc514b5e4d2007cb010
Images of experiment E4_2
E5_images.tar.gz
Jul 2, 2025 - Data for: Intermittent flow paths in biofilms grown in a microfluidic channel
Gzip Archive - 79.4 MB - MD5: 36938f671df5b3bd10847572869d5cab
Images of experiment E5
E6_1.tar.gz
Jul 2, 2025 - Data for: Intermittent flow paths in biofilms grown in a microfluidic channel
Gzip Archive - 1.6 GB - MD5: f09d6deaa6a69934bfaafa8dd0a7e608
E6_1
E6_2.tar.gz
Jul 2, 2025 - Data for: Intermittent flow paths in biofilms grown in a microfluidic channel
Gzip Archive - 2.1 GB - MD5: 73bd56b9f850db5eae8f4b8ffebe76d1
Images of experiment E6_2
E7_images.tar.gz
Jul 2, 2025 - Data for: Intermittent flow paths in biofilms grown in a microfluidic channel
Gzip Archive - 2.7 GB - MD5: f30e3692b90319385a61d0e9001872bc
Images of experiment E7
Files.tar.gz
Jul 2, 2025 - Data for: Intermittent flow paths in biofilms grown in a microfluidic channel
Gzip Archive - 23.8 GB - MD5: 3d3009db4ab82a5aed094fc657a7f7a1
test description
Publication: Intermittent flow paths in biofilms grown in a microfluidic channel(Universität Stuttgart)
Jul 1, 2025C04: Pore-scale and REV-scale approaches to biological and chemical pore-space alteration in porous media
TODO
Supplementary Data to: Modelling Interfacial Dynamics Using Hydrodynamic Density Functional Theory: Dynamic Contact Angles and the Role of Local Viscosity
May 21, 2025 - A01: Molecular detail in fluid simulations: Density Functional Theory within component and momentum balances
Bursik, Benjamin; Stierle, Rolf; Bauer, Gernot; Gross, Joachim, 2025, "Supplementary Data to: Modelling Interfacial Dynamics Using Hydrodynamic Density Functional Theory: Dynamic Contact Angles and the Role of Local Viscosity", https://doi.org/10.18419/DARUS-4528, DaRUS, V1
Several files are included here: Jupyter notebooks which can be used a) to visualize density profiles of equilibrium and dynamic droplet simulations (DFT, HDFT, MD, NEMD), and to determine the respective contact angle b) to determine and plot the center of mass position of the droplet, to calculate the average or steady-state velocity of the drople...
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