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| Type: | Resource | |
| Storage: | The size of this resource is 81.6 KB | |
| Created: | Feb 04, 2026 at 4:47 a.m. (UTC) | |
| Last updated: | Feb 04, 2026 at 5:18 a.m. (UTC) | |
| Citation: | See how to cite this resource |
| Sharing Status: | Public |
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Abstract
This repository accompanies the manuscript “Fracture-controlled Organization of Mixing and Reaction Hotspots in Porous Media” (Perez & Hyman, 2026) . The dataset contains the numerical data used to quantify how fracture connectivity reorganizes pore-scale flow, mixing, and reactive transport.
The repository includes:
- Initial pore-scale geometry
Two-dimensional synthetic porous medium composed of monodisperse grains. The kinematic discrete fracture network (k-DFN) approach used to add fractures to the geometry is found at https://github.com/laz-perez/FracturesMixing
- Pore-scale flow fields
Steady-state velocity fields obtained by solving the incompressible Stokes equations under fully saturated conditions using OpenFOAM.
- Reactive RWPT simulation outputs
Results from reactive random walk particle tracking simulations, including particle positions for the reaction product.
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Credits
Funding Agencies
This resource was created using funding from the following sources:
| Agency Name | Award Title | Award Number |
|---|---|---|
| U.S. National Science Foundation | Quantification of the Impact of Hydrologic Controls on Anomalous Solute Transport and Mixing Dynamics in Partially Saturated Porous Media | 2434101 |
How to Cite
This resource is shared under the Creative Commons Attribution CC BY.
http://creativecommons.org/licenses/by/4.0/
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