Data Repository for Effects of Fluid Flow and Fracture Aperture on Solute Exchange in Triple Porosity Carbonates: Etched Rock Core Experiments and Numerical Modeling
Loading...
Persistent link to this item
Statistics
View StatisticsCollection period
2023-05-11
2024-10-28
2024-10-28
Date completed
Date updated
Time period coverage
Geographic coverage
Source information
Journal Title
Journal ISSN
Volume Title
Title
Data Repository for Effects of Fluid Flow and Fracture Aperture on Solute Exchange in Triple Porosity Carbonates: Etched Rock Core Experiments and Numerical Modeling
Published Date
2025-01-30
Group
Author Contact
Kang, Peter K
pkkang@umn.edu
pkkang@umn.edu
Type
Dataset
Experimental Data
3D Imaging Data
Simulation Data
Experimental Data
3D Imaging Data
Simulation Data
Abstract
The data contained in this repository is related to the results and figures shown in the manuscript "Effects of Fluid Flow and Fracture Aperture on Solute Exchange in Triple Porosity Carbonates: Etched Rock Core Experiments and Numerical Modeling." The data encompasses multiple different data types and covers all of the major experiments used in the manuscript, including PET scan data extracted from core flooding experiments in our etched rock cores, COMSOL numerical model files, image data from digital photographs and HSV thresholding of cores, and breakthrough curve data with model files for MFIT curve fitting. The files included here are the necessary files for replicating the primary results outlined in the paper. This data is now released for the purpose of allowing open access to data and information for the purpose of replicating our results in future studies.
Description
The data is made available here in its raw format to facilitate true open access to the data and to limit restrictions for future readers interested in exploring new results and conclusions from our measurements. The PET scan data can be most effectively manipulated in imageJ and python for 2D and 3D reconstruction. The python code used to create the depth averaged time series plots used in the manuscript is also included in addition to the raw data, but directory information will need to be altered for use on a personal machine. The images are also presented in their raw format, as thresholding algorithms are very straightforward to develop in python or MATLAB using image visualization packages. The breakthrough curve and transport simulation model files included here are not run for the sake of meeting the file size requirements for this repository, so a current version of MFIT and access to version 6.1 of COMSOL with a CAD module add on will be necessary for running these simulations to completion. Streamlines and depth averaged concentration plots can be developed from the COMSOL files provided in COMSOL or any other analytical software capable of reading .vtk files such as paraview.
Referenced by
Soucey, Charles E; Sutton, Collin R; Zahasky, Christopher; Yang, Weipeng; Kang, Peter K. (2025). Effects of Fluid Flow and Fracture Aperture on Solute Exchange in Triple Porosity Carbonates: Etched Rock Core Experiments and Numerical Modeling. under review
Related to
Replaces
item.page.isreplacedby
Publisher
Collections
Funding information
item.page.sponsorshipfunderid
item.page.sponsorshipfundingagency
item.page.sponsorshipgrant
Previously Published Citation
Other identifiers
Suggested citation
Soucey, Charles E; Sutton, Collin R; Zahasky, Christopher; Yang, Weipeng; Kang, Peter K. (2025). Data Repository for Effects of Fluid Flow and Fracture Aperture on Solute Exchange in Triple Porosity Carbonates: Etched Rock Core Experiments and Numerical Modeling. Retrieved from the Data Repository for the University of Minnesota (DRUM), https://doi.org/10.13020/h3zp-7g58.
View/Download File
File View/Open
Description
Size
Readme_Kang_2025v2.txt
Description of data
(14.52 KB)
COMSOL_numerical_simulations.zip
COMSOL numerical simulations
(45.83 MB)
image_analysis.zip
Image analysis
(4.55 MB)
MFIT_data.zip
MFIT data
(1.85 MB)
PET_scan_data.zip
PET scan data
(264.89 MB)
supplementary_videos.zip
Supplementary videos
(1.56 MB)
Content distributed via the University Digital Conservancy may be subject to additional license and use restrictions applied by the depositor. By using these files, users agree to the Terms of Use. Materials in the UDC may contain content that is disturbing and/or harmful. For more information, please see our statement on harmful content in digital repositories.