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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561 to 570 of 2,819 Results
README.md
Apr 23, 2024 - Replication Data for: Bridging Microscopic Dynamics and Hydraulic Permeability in Mechanically-Deformed Nanoporous Materials
Markdown Text - 523 B - MD5: 4e462c449dcdb4cdb79fbcefd7d3549e
spce.txt
Apr 23, 2024 - Replication Data for: Bridging Microscopic Dynamics and Hydraulic Permeability in Mechanically-Deformed Nanoporous Materials
Plain Text - 538 B - MD5: c3b5afc49160f9cdbcb213058e9d12a6
spce.txt
Apr 23, 2024 - Replication Data for: Bridging Microscopic Dynamics and Hydraulic Permeability in Mechanically-Deformed Nanoporous Materials
Plain Text - 538 B - MD5: c3b5afc49160f9cdbcb213058e9d12a6
spce.txt
Apr 23, 2024 - Replication Data for: Bridging Microscopic Dynamics and Hydraulic Permeability in Mechanically-Deformed Nanoporous Materials
Plain Text - 538 B - MD5: c3b5afc49160f9cdbcb213058e9d12a6
Primary drainage experiments and fractal dimensions
Apr 18, 2024 - Publication: Microfluidic experiments
Karadimitriou, Nikolaos; Lee, Dongwon; Vahid Dastjerdi, Samaneh; Steeb, Holger, 2024, "Primary drainage experiments and fractal dimensions", https://doi.org/10.18419/DARUS-4114, DaRUS, V1
The current repository contains raw data in the shape of images collected during a systematic laboratory study, examining the usability of the fractal dimension in the characterization of the flow regime. The study is presented in the paper by Karadimitriou et al., 2024. The two fluids were the wetting phase (WP), FluorinertTM, FC-43, and the non-w...
Ca=10-2,M=0.2.tar
Apr 18, 2024 - Primary drainage experiments and fractal dimensions
TAR Archive - 279.3 MB - MD5: 83e234d9d149aa5926c31444fd3f455f
Capillary number for the invading phase equal to 10-2. Viscosity ratio between the invading and the defending phase equal to 0.2.
Ca=10-2,M=10.tar
Apr 18, 2024 - Primary drainage experiments and fractal dimensions
TAR Archive - 1.2 GB - MD5: 4d3a73cded5c324310705d1d470d5fa8
Capillary number for the invading phase equal to 10-2. Viscosity ratio between the invading and the defending phase equal to 10.
Ca=10-2,M=1.tar
Apr 18, 2024 - Primary drainage experiments and fractal dimensions
TAR Archive - 264.2 MB - MD5: bf1bff3713602a677c826ea502419491
Capillary number for the invading phase equal to 10-2. Viscosity ratio between the invading and the defending phase equal to 1.
Ca=10-3,M=0.2.tar
Apr 18, 2024 - Primary drainage experiments and fractal dimensions
TAR Archive - 398.6 MB - MD5: f322a898ebf233534aa7d80b90c2bd80
Capillary number for the invading phase equal to 10-3. Viscosity ratio between the invading and the defending phase equal to 0.2.
Ca=10-3,M=10.tar
Apr 18, 2024 - Primary drainage experiments and fractal dimensions
TAR Archive - 1.1 GB - MD5: c47f84dec7f8ba5974499dd98ca50865
Capillary number for the invading phase equal to 10-3. Viscosity ratio between the invading and the defending phase equal to 10.
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