Data supporting "Towards the understanding of convective dissolution in confined porous media: thin bead pack experiments, two-dimensional direct numerical simulations and physical models"
Datacite citation style:
Howland, Chris; De Paoli, Marco (2024): Data supporting "Towards the understanding of convective dissolution in confined porous media: thin bead pack experiments, two-dimensional direct numerical simulations and physical models". Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/897ba0bb-c3e5-4e31-9e6a-31f6a19f2e6c.v1
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Dataset
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version 2 - 2024-05-21 (latest)
version 1 - 2024-05-01
This dataset contains the simulation and experiment data needed to reproduce the figures of the Journal of Fluid Mechanics article stated in the title. In this study, we performed laboratory experiments and numerical simulations of the Rayleigh-Taylor instability in a porous medium. To understand the mixing of solute by the resulting flow, we quantified the mixing length, scalar dissipation rate and mean concentration profiles over time. This dataset contains the record of these quantities along with the Python notebooks needed to plot them in the figures.
history
- 2024-05-01 first online, published, posted
publisher
4TU.ResearchData
format
zip containing: ipynb notebooks, h5 data files, png images
funding
- Modelling the Effect of DIspersion on convection in porous mediA (grant code 101062123) [more info...] Horizon Europe (HORIZON)
- Max Planck Center for Complex Fluid Dynamics Max Planck Society
organizations
University of Twente, Faculty of Science and Technology
DATA
files (2)
- 3,770 bytesMD5:
05d9add330091a5b00e9e9efbe8d86f3
README.md - 680,433,841 bytesMD5:
dd616f5fd3fb4cb45ef0b7e41e2a5d40
pore-scale-data.zip -
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680,437,611 bytes unzipped