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Utah FORGE 3-2535: Numerical Modeling of Energized Steel-Casing Source for Imaging Stimulated Zone

Publicly accessible License

This short report details and tests the workflow that will be used to simulate steel well casings in deviated production/extraction boreholes at at the Utah FORGE site. Boreholes will be electrically energized and will serve as data sources for future proposed electromagnetic borehole surveys, which will be used to delineate/estimate the size and porosity of the main FORGE stimulated reservoir. FORGE project 3-2535 is planning on using a casing source EM method for detecting and imaging a deep localized stimulated fracture zone at the Utah FORGE site. Details on other stages of the project are included in the linked GDR submissions below.

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Citation Formats

TY  - DATA
AB  - This short report details and tests the workflow that will be used to simulate steel well casings in deviated production/extraction boreholes at at the Utah FORGE site. Boreholes will be electrically energized and will serve as data sources for future proposed electromagnetic borehole surveys, which will be used to delineate/estimate the size and porosity of the main FORGE stimulated reservoir. FORGE project 3-2535 is planning on using a casing source EM method for detecting and imaging a deep localized stimulated fracture zone at the Utah FORGE site.  Details on other stages of the project are included in the linked GDR submissions below.
AU  - Um, Evan
A2  - Alumbaugh, David
A3  - Wilt, Michael
A4  - Nichols, Edward
A5  - Li, Yoaguo
DB  - Geothermal Data Repository
DP  - Open EI | National Renewable Energy Laboratory
DO  - 
KW  - geothermal
KW  - energy
KW  - EGS
KW  - remote sensing
KW  - well characterization
KW  - Utah FORGE
KW  - Well 16A
KW  - Well 16B
LA  - English
DA  - 2022/11/15
PY  - 2022
PB  - Lawrence Berkeley National Laboratory
T1  - Utah FORGE 3-2535: Numerical Modeling of Energized Steel-Casing Source for Imaging Stimulated Zone
UR  - https://gdr.openei.org/submissions/1433
ER  -

Export Citation to RIS

Um, Evan, et al. Utah FORGE 3-2535: Numerical Modeling of Energized Steel-Casing Source for Imaging Stimulated Zone. Lawrence Berkeley National Laboratory, 15 November, 2022, Geothermal Data Repository. https://gdr.openei.org/submissions/1433.

Um, E., Alumbaugh, D., Wilt, M., Nichols, E., & Li, Y. (2022). Utah FORGE 3-2535: Numerical Modeling of Energized Steel-Casing Source for Imaging Stimulated Zone. [Data set]. Geothermal Data Repository. Lawrence Berkeley National Laboratory. https://gdr.openei.org/submissions/1433

Um, Evan, David Alumbaugh, Michael Wilt, Edward Nichols, and Yoaguo Li. Utah FORGE 3-2535: Numerical Modeling of Energized Steel-Casing Source for Imaging Stimulated Zone. Lawrence Berkeley National Laboratory, November, 15, 2022.  Distributed by Geothermal Data Repository. https://gdr.openei.org/submissions/1433

@misc{GDR_Dataset_1433,
title = {Utah FORGE 3-2535: Numerical Modeling of Energized Steel-Casing Source for Imaging Stimulated Zone},
author = {Um, Evan and Alumbaugh, David and Wilt, Michael and Nichols, Edward and Li, Yoaguo},
abstractNote = {This short report details and tests the workflow that will be used to simulate steel well casings in deviated production/extraction boreholes at at the Utah FORGE site. Boreholes will be electrically energized and will serve as data sources for future proposed electromagnetic borehole surveys, which will be used to delineate/estimate the size and porosity of the main FORGE stimulated reservoir. FORGE project 3-2535 is planning on using a casing source EM method for detecting and imaging a deep localized stimulated fracture zone at the Utah FORGE site.  Details on other stages of the project are included in the linked GDR submissions below.},
url = {https://gdr.openei.org/submissions/1433},
year = {2022},
howpublished = {Geothermal Data Repository, Lawrence Berkeley National Laboratory, https://gdr.openei.org/submissions/1433},
note = {Accessed: 2025-05-07}
}

Details

Data from Nov 15, 2022

Last updated Aug 22, 2024

Submitted Nov 15, 2022