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Utah FORGE 5-2565: Evolution of Permeability and Strength Recovery of Shear Fractures Under Hydrothermal Conditions - 2024 Annual Workshop Presentation

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This is a presentation on the Evolution of Permeability and Strength Recovery of Shear Fractures Under Hydrothermal Conditions by United States Geological Survey, presented by Tamara Jeppson. This video slide presentation, by the USGS, discusses the determination of how thermal, hydrologic, mechanical, and chemical (THMC) processes affect the sustainability of fracture networks in geothermal reservoirs. This includes (1) the qualification of rates of change of fracture properties, (2) the parameterization of modes of reaction, (3) the development of micromechanical and empirical fracture models, and (4) extended THMC models for laboratory- and reservoir-scale models. This presentation was featured in the Utah FORGE R&D Annual Workshop on August 15, 2024.

Citation Formats

Energy and Geoscience Institute at the University of Utah. (2024). Utah FORGE 5-2565: Evolution of Permeability and Strength Recovery of Shear Fractures Under Hydrothermal Conditions - 2024 Annual Workshop Presentation [data set]. Retrieved from https://dx.doi.org/10.15121/2441437.
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Jeppson, Tamara, Taron, Josh, Lockner, Dave, Beeler, Nic, Kilgore, Brian, Hickman, Steve, and Moore, Diane. Utah FORGE 5-2565: Evolution of Permeability and Strength Recovery of Shear Fractures Under Hydrothermal Conditions - 2024 Annual Workshop Presentation. United States: N.p., 15 Sep, 2024. Web. doi: 10.15121/2441437.
Jeppson, Tamara, Taron, Josh, Lockner, Dave, Beeler, Nic, Kilgore, Brian, Hickman, Steve, & Moore, Diane. Utah FORGE 5-2565: Evolution of Permeability and Strength Recovery of Shear Fractures Under Hydrothermal Conditions - 2024 Annual Workshop Presentation. United States. https://dx.doi.org/10.15121/2441437
Jeppson, Tamara, Taron, Josh, Lockner, Dave, Beeler, Nic, Kilgore, Brian, Hickman, Steve, and Moore, Diane. 2024. "Utah FORGE 5-2565: Evolution of Permeability and Strength Recovery of Shear Fractures Under Hydrothermal Conditions - 2024 Annual Workshop Presentation". United States. https://dx.doi.org/10.15121/2441437. https://gdr.openei.org/submissions/1653.
@div{oedi_6192, title = {Utah FORGE 5-2565: Evolution of Permeability and Strength Recovery of Shear Fractures Under Hydrothermal Conditions - 2024 Annual Workshop Presentation}, author = {Jeppson, Tamara, Taron, Josh, Lockner, Dave, Beeler, Nic, Kilgore, Brian, Hickman, Steve, and Moore, Diane.}, abstractNote = {This is a presentation on the Evolution of Permeability and Strength Recovery of Shear Fractures Under Hydrothermal Conditions by United States Geological Survey, presented by Tamara Jeppson. This video slide presentation, by the USGS, discusses the determination of how thermal, hydrologic, mechanical, and chemical (THMC) processes affect the sustainability of fracture networks in geothermal reservoirs. This includes (1) the qualification of rates of change of fracture properties, (2) the parameterization of modes of reaction, (3) the development of micromechanical and empirical fracture models, and (4) extended THMC models for laboratory- and reservoir-scale models. This presentation was featured in the Utah FORGE R&D Annual Workshop on August 15, 2024.
}, doi = {10.15121/2441437}, url = {https://gdr.openei.org/submissions/1653}, journal = {}, number = , volume = , place = {United States}, year = {2024}, month = {09}}
https://dx.doi.org/10.15121/2441437

Details

Data from Sep 15, 2024

Last updated Sep 17, 2024

Submitted Sep 15, 2024

Organization

Energy and Geoscience Institute at the University of Utah

Contact

Sean Lattice

801.581.3547

Authors

Tamara Jeppson

United States Geological Survey

Josh Taron

United States Geological Survey

Dave Lockner

United States Geological Survey

Nic Beeler

United States Geological Survey

Brian Kilgore

United States Geological Survey

Steve Hickman

United States Geological Survey

Diane Moore

United States Geological Survey

Research Areas

DOE Project Details

Project Name Utah FORGE

Project Lead Lauren Boyd

Project Number EE0007080

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