Utah FORGE 3-2417: Fiber-Optic Geophysical Monitoring of Reservoir Evolution - Workshop Presentation
This is a presentation on the Fiber-Optic Geophysical Monitoring of Reservoir Evolution at the Utah FORGE Milford Site project by Rice University, presented by Prof. Jonathan Ajo-Franklin. The project's objective was to develop an end-to-end fiber-optic sensing approach for EGS to track the initial zone of fracture creation, zones of connected mechanically compliant fractures, and zones of flowing fractures linking the injection/production well pair. This approach would also be used to integrate data into an improved thermo-hydro-mechanical model (THM). This presentation was featured in the Utah FORGE R&D Annual Workshop on September 8, 2023. The workshop provided a valuable opportunity to explore the progress made in each of the 17 Research and Development projects funded under Solicitation 2020-1 which aim to enhance our understanding of the crucial factors influencing the development of Enhanced Geothermal Systems (EGS) reservoirs and resources.
Citation Formats
Rice University. (2023). Utah FORGE 3-2417: Fiber-Optic Geophysical Monitoring of Reservoir Evolution - Workshop Presentation [data set]. Retrieved from https://dx.doi.org/10.15121/2002877.
Ajo-Franklin, Jonathan, Correa, Julia, Freifield, Barry, Becker, Matt, Ghassemi, Ahmad, and Coleman, Thomas. Utah FORGE 3-2417: Fiber-Optic Geophysical Monitoring of Reservoir Evolution - Workshop Presentation. United States: N.p., 08 Sep, 2023. Web. doi: 10.15121/2002877.
Ajo-Franklin, Jonathan, Correa, Julia, Freifield, Barry, Becker, Matt, Ghassemi, Ahmad, & Coleman, Thomas. Utah FORGE 3-2417: Fiber-Optic Geophysical Monitoring of Reservoir Evolution - Workshop Presentation. United States. https://dx.doi.org/10.15121/2002877
Ajo-Franklin, Jonathan, Correa, Julia, Freifield, Barry, Becker, Matt, Ghassemi, Ahmad, and Coleman, Thomas. 2023. "Utah FORGE 3-2417: Fiber-Optic Geophysical Monitoring of Reservoir Evolution - Workshop Presentation". United States. https://dx.doi.org/10.15121/2002877. https://gdr.openei.org/submissions/1538.
@div{oedi_6019, title = {Utah FORGE 3-2417: Fiber-Optic Geophysical Monitoring of Reservoir Evolution - Workshop Presentation}, author = {Ajo-Franklin, Jonathan, Correa, Julia, Freifield, Barry, Becker, Matt, Ghassemi, Ahmad, and Coleman, Thomas.}, abstractNote = {This is a presentation on the Fiber-Optic Geophysical Monitoring of Reservoir Evolution at the Utah FORGE Milford Site project by Rice University, presented by Prof. Jonathan Ajo-Franklin. The project's objective was to develop an end-to-end fiber-optic sensing approach for EGS to track the initial zone of fracture creation, zones of connected mechanically compliant fractures, and zones of flowing fractures linking the injection/production well pair. This approach would also be used to integrate data into an improved thermo-hydro-mechanical model (THM). This presentation was featured in the Utah FORGE R&D Annual Workshop on September 8, 2023. The workshop provided a valuable opportunity to explore the progress made in each of the 17 Research and Development projects funded under Solicitation 2020-1 which aim to enhance our understanding of the crucial factors influencing the development of Enhanced Geothermal Systems (EGS) reservoirs and resources.}, doi = {10.15121/2002877}, url = {https://gdr.openei.org/submissions/1538}, journal = {}, number = , volume = , place = {United States}, year = {2023}, month = {09}}
https://dx.doi.org/10.15121/2002877
Details
Data from Sep 8, 2023
Last updated Sep 25, 2023
Submitted Sep 15, 2023
Organization
Rice University
Contact
Sean Lattis
Authors
Original Source
https://gdr.openei.org/submissions/1538Research Areas
Keywords
geothermal, energy, annual workshop, 2023, Utah FORGE, EGS, Distributed Fiber Optic Sensing, DFOS, DAS, flowing fractures, fracture creation, well pair, EGS performance, mechanically compliant fractures, end-to-end, EGS Fracture ModelDOE Project Details
Project Name Utah FORGE
Project Lead Lauren Boyd
Project Number EE0007080
