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Utah FORGE 5-2615: Shear Enhanced Permeability In a Granitoid Fracture - Presentation Slides

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Provided here is a set of presentation slides detailing stress-dependent permeability in FORGE granitoid fractures and how fracture slip affects permeability. It outlines empirical correlations between permeability, stress, and fracture aperture, emphasizing that mechanically closed fractures retain some permeability. Moreover, the presentation explains that moderate shear slip can increase permeability by enhancing fracture networks, provided the slip displacement does not produce gouge materials that could clog the fractures.

Citation Formats

University of Oklahoma. (2024). Utah FORGE 5-2615: Shear Enhanced Permeability In a Granitoid Fracture - Presentation Slides [data set]. Retrieved from https://gdr.openei.org/submissions/1589.
Export Citation to RIS
Ghassemi, Ahmad, Ye, Zhi. Utah FORGE 5-2615: Shear Enhanced Permeability In a Granitoid Fracture - Presentation Slides. United States: N.p., 28 Feb, 2024. Web. https://gdr.openei.org/submissions/1589.
Ghassemi, Ahmad, Ye, Zhi. Utah FORGE 5-2615: Shear Enhanced Permeability In a Granitoid Fracture - Presentation Slides. United States. https://gdr.openei.org/submissions/1589
Ghassemi, Ahmad, Ye, Zhi. 2024. "Utah FORGE 5-2615: Shear Enhanced Permeability In a Granitoid Fracture - Presentation Slides". United States. https://gdr.openei.org/submissions/1589.
@div{oedi_6056, title = {Utah FORGE 5-2615: Shear Enhanced Permeability In a Granitoid Fracture - Presentation Slides}, author = {Ghassemi, Ahmad, Ye, Zhi.}, abstractNote = {Provided here is a set of presentation slides detailing stress-dependent permeability in FORGE granitoid fractures and how fracture slip affects permeability. It outlines empirical correlations between permeability, stress, and fracture aperture, emphasizing that mechanically closed fractures retain some permeability. Moreover, the presentation explains that moderate shear slip can increase permeability by enhancing fracture networks, provided the slip displacement does not produce gouge materials that could clog the fractures.}, doi = {}, url = {https://gdr.openei.org/submissions/1589}, journal = {}, number = , volume = , place = {United States}, year = {2024}, month = {02}}

Details

Data from Feb 28, 2024

Last updated Aug 22, 2024

Submitted Apr 2, 2024

Organization

University of Oklahoma

Contact

Ahmad Ghassemi

Authors

Ahmad Ghassemi

University of Oklahoma

Zhi Ye

University of Oklahoma

Research Areas

DOE Project Details

Project Name Utah FORGE

Project Lead Lauren Boyd

Project Number EE0007080

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