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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2,801 to 2,810 of 2,815 Results
Reticulite-AxHP_wet_750ul.rar
Mar 5, 2020 - Digital rock physics and laboratory considerations on a high-porosity volcanic rock: micro-XRCT data sets
RAR Archive - 7.0 GB - MD5: 78855cfc44d4ab07ef4fa49436c70823
micro-XRCT data set in *.rek and *.tif file format of a cubic reticulite sample with about 12 mm side length saturated with 750 µl distilled water. 1520 x 1520 x 1554 voxels by a uniform voxel size of 12.85 µm.
Segmented_subsamples.rar
Mar 5, 2020 - Digital rock physics and laboratory considerations on a high-porosity volcanic rock: micro-XRCT data sets
RAR Archive - 2.5 MB - MD5: f0e350647fa4fe27f8d37b0e9a0935ba
Binarized subsamples of 400 x 400 x 400 voxels of "Reticulite-01_AxMF01" and "Reticulite_03_AxMF01" data sets in *.raw file format. A MATLAB script "ReadCTDataToMATLAB_simple.m" to read the data is attached.
Emmert2020a(Universität Stuttgart)
Feb 13, 2020C-X1
Data for Emmert2020a publication: Importance of Specific Substrate Utilization by Microbes in Microbially Enhanced Coal-Bed Methane Production: A Modelling Study
C-X1(Universität Stuttgart)
Feb 13, 2020
Benchmark C1.2 - Numerical results reference solution
Jan 28, 2020 - RootWaterUptake
Koch, Timo, 2020, "Benchmark C1.2 - Numerical results reference solution", https://doi.org/10.18419/DARUS-471, DaRUS, V1
Root water uptake simulation with a numerical scheme where the root-soil surface is explicitly resolved by the computational grid. The roots are a one-dimensional network grid embedded in a 3D soil domain. This dataset contains the grid files for root and soil. 8-day-old lupine, segmented from MRI measurements (courtesy of Magdalena Landl, FZ Jülic...
c12b_3d_plot.tar.gz
Jan 28, 2020 - Benchmark C1.2 - Numerical results reference solution
Gzip Archive - 21.2 MB - MD5: b0288e79fbbad832076c55e5b7e12a44
DataVisualisation
Archive with data to reproduce a 3d render of the water saturation results from the paper
c12_psi_root_depth_plot.tar.gz
Jan 28, 2020 - Benchmark C1.2 - Numerical results reference solution
Gzip Archive - 111.2 KB - MD5: c28705d4d482d29a8a1d007892ce45e2
DataVisualisation
Archive with data and Python script to reproduce a plot of the root water potential over depth
c12_psi_soil_depth_plot.tar.gz
Jan 28, 2020 - Benchmark C1.2 - Numerical results reference solution
Gzip Archive - 40.1 MB - MD5: 5624f0677d7e9dcfada031c8106ab4e5
DataVisualisation
Archive with data and Python script to reproduce a plot of the soil water potential over depth
c12_transpiration_plot.tar.gz
Jan 28, 2020 - Benchmark C1.2 - Numerical results reference solution
Gzip Archive - 20.3 KB - MD5: d3721555ee92ca1da0d6adf0c4d07605
DataVisualisation
Archive with data and Python script to reproduce a plot of the transpiration rate over time
c12_waterpot_plot.tar.gz
Jan 28, 2020 - Benchmark C1.2 - Numerical results reference solution
Gzip Archive - 18.6 KB - MD5: 114a4c4db0652520f6ef2123a2eb9ac1
DataVisualisation
Archive with data and Python script to reproduce a plot of the water potential
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