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Jun 18, 2024 -
Research Data: "APL@voro—interactive visualization and analysis of cell membrane simulations"
Plain Text - 703 B -
MD5: ca01ae222f7818eecd2fa24950f55df4
Gitignore File |
Jun 18, 2024 -
Research Data: "APL@voro—interactive visualization and analysis of cell membrane simulations"
Plain Text - 35.0 KB -
MD5: fe06497acaf4f45999925d348c2605f9
License text |
Jun 18, 2024 -
Research Data: "APL@voro—interactive visualization and analysis of cell membrane simulations"
ZIP Archive - 9.0 KB -
MD5: bff918cf781b52323b62a4951bce5fdc
Patches |
Jun 18, 2024 -
Research Data: "APL@voro—interactive visualization and analysis of cell membrane simulations"
Markdown Text - 3.5 KB -
MD5: fac51adc0be14edc84010bd4c29e68fc
README file with general information about APL@Voro |
Jun 18, 2024 -
Research Data: "APL@voro—interactive visualization and analysis of cell membrane simulations"
ZIP Archive - 1.4 KB -
MD5: 38a5ea272036b821a428e602cc047b00
RPM Distribution |
Jun 18, 2024 -
Research Data: "APL@voro—interactive visualization and analysis of cell membrane simulations"
ZIP Archive - 4.3 MB -
MD5: 0e0de5bf648d6e43eb6af73e98e198cd
APL@Voro source files |
Apr 18, 2024 - PN 1-X
Keim, Leon; Class, Holger, 2024, "Replication Code for: Rayleigh invariance allows the estimation of effective CO2 fluxes due to convective dissolution into water-filled fractures", https://doi.org/10.18419/DARUS-4089, DaRUS, V1
This dataset consists of software code associated with the publication titled "Rayleigh Invariance Enables Estimation of Effective CO2 Fluxes Resulting from Convective Dissolution in Water-Filled Fractures." It includes a Dockerimage that contains the precompiled code for immediate use. For transparency, the Dockerfile is also provided. 1 Download... |
Docker Image File - 1.6 KB -
MD5: 02160968dac8422e84745cac7a1d02d8
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TAR Archive - 3.1 GB -
MD5: 9a074fa2b0464eecbeced19a28299f90
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Mar 11, 2024 - Multiphase Flow
Gärtner, Jan Wilhelm, 2024, "Compressible Two-Phase One-Fluid Solver (compressiblePhaseChangeFoam)", https://doi.org/10.18419/DARUS-3886, DaRUS, V1
CompressibePhaseChangeFoam This dataset contains the compressible two-phase, one-fluid solver called compressiblePhaseChangeFoam, developed and maintained by the Institute for Combustion Technology in Stuttgart. Versions This dataset contains the full git repository of the compressiblePhaseChangeFoam solver with the complete development history, st... |