41 to 50 of 130 Results
Mar 16, 2021D02: Parallel numerical coupling methods for interface problems
This dataverse collects data and codes for coupling free flow and porous-media flow with DuMuX and preCICE. More specifically, the results have been presented in the publication: Jaust A., Weishaupt K., Mehl M., Flemisch B. (2020) Partitioned Coupling Schemes for Free-Flow and Po... |
Feb 10, 2021 - Publication: Experimental Methods and Imaging for Enzymatically Induced Calcite Precipitation in a microfluidic cell
Weinhardt, Felix; Class, Holger; Vahid Dastjerdi, Samaneh; Karadimitriou, Nikolaos; Lee, Dongwon; Steeb, Holger, 2021, "Optical Microscopy and pressure measurements of Enzymatically Induced Calcite Precipitation (EICP) in a microfluidic cell", https://doi.org/10.18419/darus-818, DaRUS, V1
Content: This dataset includes raw as well as processed data from three experiments (Exp 1 - 3). Each dataset consists of the readouts from the pressure sensor(s), as logged with the use of QmixElements, raw images, and segmented images. Log files: Data in the log files are essen... |
Mar 30, 2022 - Publication: Spatio-temporal distribution of precipitates and mineral phase transition during biomineralization affect porosity-permeability relationships
Weinhardt, Felix; Deng, Jingxuan; Steeb, Holger; Class, Holger, 2022, "Optical Microscopy and log data of Enzymatically Induced Calcite Precipitation (EICP) in microfluidic cells (Quasi-2D-structure)", https://doi.org/10.18419/darus-1799, DaRUS, V1
Content: This dataset includes raw as well as processed data from three experiments (Quasi-2D-1, Quasi-2D-2 and Quasi-2D-3). Each dataset consists of the readouts from the pressure sensor(s), as logged with the use of QmixElements ([Name of Experiment]_logFiles_QMIX), raw images... |
Sep 6, 2023 - Publication: Development of stochastically reconstructed 3D porous media micromodels using additive manufacturing: numerical and experimental validation
Lee, Dongwon; Ruf, Matthias; Yiotis, Andreas; Steeb, Holger, 2023, "Numerical investigation results of 3D porous structures using stochastic reconstruction algorithm", https://doi.org/10.18419/darus-3244, DaRUS, V1
This dataset contains the outcomes of conducted numerical simulations, rooted in designs generated using a stochastic algorithm devised by Quiblie (1984), Adler et al. (1990), and Hyman et al. (2014). Moreover, the investigation employed Lattice Boltzmann simulation, as used in p... |
Mar 17, 2021 - A03: Development of interface concepts using averaging techniques
Eggenweiler, Elissa, 2021, "Numerical codes for solving the boundary layer problems and computing the boundary layer constants", https://doi.org/10.18419/darus-1256, DaRUS, V1
Numerical codes (files ending with .edp) for the computation of the boundary layer constants staying in the generalised interface conditions from Eggenweiler & Rybak (2021). The software is meant to be executed using FreeFem++ (see http://www.freefem.org/). Results for the comput... |
Mar 3, 2023C01: A Lattice-Boltzmann investigation of two-phase electrolyte flow in porous structures with morphology alterations and tunable interfacial wetting behaviour
Molecular dynamics input scripts. |
Oct 1, 2023C01: A Lattice-Boltzmann investigation of two-phase electrolyte flow in porous structures with morphology alterations and tunable interfacial wetting behaviour
Molecular dynamics input scripts for GROMACS, and data analysis scripts in Python. |
Mar 25, 2022 - Thin Film Water on NaCl(100)
Gravelle, Simon, 2022, "Movies of thin film water on rough NaCl surface", https://doi.org/10.18419/darus-2770, DaRUS, V1
Videos showing water molecules at a rough sodium chloride solid surface for different roughness and different water chemical potential. The force field for the water is TIP4P/epsilon (https://doi.org/10.1021/jp410865y), and the force field for the ions is from Loche et al. (https... |
Mar 25, 2022 - Thin Film Water on NaCl(100)
Gravelle, Simon, 2022, "Movies of thin film water on NaCl(100) surface", https://doi.org/10.18419/darus-2697, DaRUS, V1
Videos showing water molecules at a sodium chloride (NaCl) solid surface for different water content. The force field for the water is TIP4P/epsilon (https://doi.org/10.1021/jp410865y), and the force field for the ions is from Loche et al. (https://doi.org/10.1021/acs.jpcb.1c0530... |
Mar 25, 2022 - Thin Film Water on NaCl(100)
Gravelle, Simon, 2022, "Molecular simulation scripts for thin film water on NaCl surface", https://doi.org/10.18419/darus-2726, DaRUS, V1
LAMMPS and GROMACS molecular simulation input files. The system consists of thin film water confined in a 7 nm NaCl slit pore, and can be generated using the Python scripts in SystemGeneration. The simulation is either equilibrium molecular dynamics (EMD), non equilibrium molecul... |