SFB 1313 "Interface-Driven Multi-Field Processes in Porous Media"

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.

A01: Molecular detail in ﬂuid simulations: Density Functional Theory within component and momentum balances

A02: Advanced modelling concepts for coupling free flow with porous-media flow

A03: Development of interface concepts using averaging techniques

A05: Pore scale formulations for evaporation, and upscaling to REV scale

B02: Fracturing porous solids with pore content

$B03: Heterogeneous multi-scale methods for two-phase flow in dynamically fracturing porous media logo$ B03: Heterogeneous multi-scale methods for two-phase flow in dynamically fracturing porous media

$B04: Hybrid discrete-continuum models for fractured porous media: model choice and random field/network generation logo$ B04: Hybrid discrete-continuum models for fractured porous media: model choice and random field/network generation

C01: A Lattice-Boltzmann investigation of two-phase electrolyte flow in porous structures with morphology alterations and tunable interfacial wetting behaviour

C02: Upscaling of pore-scale processes involving microstructural evolution

C03: Modelling of material injection processes into porous structures applied to vertebroplasty

C04: Pore-scale and REV-scale approaches to biological and chemical pore-space alteration in porous media

C05: Process-dependent porosity-permeability relations for fluid-solid reactions in porous media

D02: Parallel numerical coupling methods for interface problems

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781 to 790 of 2,819 Results

input_dumux_data.tar.gz Feb 16, 2024 - Replication data for analyzing stable water isotopologue transport within soils using fractionation parameterizations Gzip Archive - 21.8 MB - MD5: 01f65b614a0a35d15e32a61a7117f584 Numerical data derived by Dumux to analyze its parameter sensitivity
input_experimental_data.tar.gz Feb 16, 2024 - Replication data for analyzing stable water isotopologue transport within soils using fractionation parameterizations Gzip Archive - 135.0 KB - MD5: 1c58b092876874bb40ee810d53e00cb1 Experimental data from Rothfuss et al. (2015) modified for comparison with simulation data
input_sispat_data_sensitivity.tar.gz Feb 16, 2024 - Replication data for analyzing stable water isotopologue transport within soils using fractionation parameterizations Gzip Archive - 20.5 MB - MD5: 9b3c39110855db6f62357ce1ce188f33 Numerical data derived by SiSPAT-isotope to analyze its parameter sensitivity
input_sispat_data.tar.gz Feb 16, 2024 - Replication data for analyzing stable water isotopologue transport within soils using fractionation parameterizations Gzip Archive - 45.4 KB - MD5: edad64f6711c33c88848351f9256021b Numerical data obtained by SiSPAT-Isotope replicating the experimental setup
Replication Data for: Lohrmann, Holm, Datta: Influence of bacterial motility and hydrodynamics on phage bacteria encounters Dec 11, 2023 - C01: A Lattice-Boltzmann investigation of two-phase electrolyte flow in porous structures with morphology alterations and tunable interfacial wetting behaviour Lohrmann, Christoph; Holm, Christian, 2023, "Replication Data for: Lohrmann, Holm, Datta: Influence of bacterial motility and hydrodynamics on phage bacteria encounters", https://doi.org/10.18419/DARUS-3836, DaRUS, V1 Code and Data for "Influence of bacterial motility and hydrodynamics on phage bacteria encounters". For details, see README.md
analysis.py Dec 11, 2023 - Replication Data for: Lohrmann, Holm, Datta: Influence of bacterial motility and hydrodynamics on phage bacteria encounters Python Source Code - 19.2 KB - MD5: 32ce511c89211aa8ea7c656494ca90fc
calc_bact_mobility.py Dec 11, 2023 - Replication Data for: Lohrmann, Holm, Datta: Influence of bacterial motility and hydrodynamics on phage bacteria encounters Python Source Code - 18.9 KB - MD5: d31d811a1d3027729b3824a0f04a058c
calc_flux_fenics.py Dec 11, 2023 - Replication Data for: Lohrmann, Holm, Datta: Influence of bacterial motility and hydrodynamics on phage bacteria encounters Python Source Code - 18.1 KB - MD5: 77e1f632275fa83c8438d80e756a53ce
calc_lb_gamma.py Dec 11, 2023 - Replication Data for: Lohrmann, Holm, Datta: Influence of bacterial motility and hydrodynamics on phage bacteria encounters Python Source Code - 4.4 KB - MD5: 802e16cc8df563f38cc855a0d9df2d75
calc_phage_diffcoeff.py Dec 11, 2023 - Replication Data for: Lohrmann, Holm, Datta: Influence of bacterial motility and hydrodynamics on phage bacteria encounters Python Source Code - 9.4 KB - MD5: 7aee0824c64d23428445b03ab6cdc7c9

input_dumux_data.tar.gz

Feb 16, 2024 - Replication data for analyzing stable water isotopologue transport within soils using fractionation parameterizations

Gzip Archive - 21.8 MB -

Numerical data derived by Dumux to analyze its parameter sensitivity

input_experimental_data.tar.gz

Feb 16, 2024 - Replication data for analyzing stable water isotopologue transport within soils using fractionation parameterizations

Gzip Archive - 135.0 KB -

Experimental data from Rothfuss et al. (2015) modified for comparison with simulation data

input_sispat_data_sensitivity.tar.gz

Feb 16, 2024 - Replication data for analyzing stable water isotopologue transport within soils using fractionation parameterizations

Gzip Archive - 20.5 MB -

Numerical data derived by SiSPAT-isotope to analyze its parameter sensitivity

input_sispat_data.tar.gz

Feb 16, 2024 - Replication data for analyzing stable water isotopologue transport within soils using fractionation parameterizations

Gzip Archive - 45.4 KB -

Numerical data obtained by SiSPAT-Isotope replicating the experimental setup

Replication Data for: Lohrmann, Holm, Datta: Influence of bacterial motility and hydrodynamics on phage bacteria encounters

Dec 11, 2023 - C01: A Lattice-Boltzmann investigation of two-phase electrolyte flow in porous structures with morphology alterations and tunable interfacial wetting behaviour

Lohrmann, Christoph; Holm, Christian, 2023, "Replication Data for: Lohrmann, Holm, Datta: Influence of bacterial motility and hydrodynamics on phage bacteria encounters", https://doi.org/10.18419/DARUS-3836, DaRUS, V1

Code and Data for "Influence of bacterial motility and hydrodynamics on phage bacteria encounters". For details, see README.md

analysis.py

Dec 11, 2023 - Replication Data for: Lohrmann, Holm, Datta: Influence of bacterial motility and hydrodynamics on phage bacteria encounters

Python Source Code - 19.2 KB -

calc_bact_mobility.py

Dec 11, 2023 - Replication Data for: Lohrmann, Holm, Datta: Influence of bacterial motility and hydrodynamics on phage bacteria encounters

Python Source Code - 18.9 KB -

calc_flux_fenics.py

Dec 11, 2023 - Replication Data for: Lohrmann, Holm, Datta: Influence of bacterial motility and hydrodynamics on phage bacteria encounters

Python Source Code - 18.1 KB -

calc_lb_gamma.py

Dec 11, 2023 - Replication Data for: Lohrmann, Holm, Datta: Influence of bacterial motility and hydrodynamics on phage bacteria encounters