Utah FORGE 2-2446: Closing the Loop Between In-situ Stress Complexity and EGS Fracture Complexity - Workshop Presentation
This is a presentation on the Closing the Loop Between In-situ Stress Complexity and EGS Fracture Complexity project by Lawrence Livermore National Laboratory, presented by Dr. Matteo Cusini. The project's objective was to employ a combination of high-fidelity simulations and true-triaxial block fracturing tests at high temperature to explore the intricate relationship between in-situ stress and hydraulic fracture patterns and better characterize the in-situ stress at Utah FORGE. This presentation was featured in the Utah FORGE R&D Annual Workshop on September 7, 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
TY - DATA
AB - This is a presentation on the Closing the Loop Between In-situ Stress Complexity and EGS Fracture Complexity project by Lawrence Livermore National Laboratory, presented by Dr. Matteo Cusini. The project's objective was to employ a combination of high-fidelity simulations and true-triaxial block fracturing tests at high temperature to explore the intricate relationship between in-situ stress and hydraulic fracture patterns and better characterize the in-situ stress at Utah FORGE. This presentation was featured in the Utah FORGE R&D Annual Workshop on September 7, 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.
AU - Cusini, Matteo
A2 - Bunger, Andrew
DB - Geothermal Data Repository
DP - Open EI | National Renewable Energy Laboratory
DO - 10.15121/2002871
KW - geothermal
KW - energy
KW - annual workshop
KW - 2023
KW - Utah FORGE
KW - EGS
KW - high-fidelity simulations
KW - tru-triaxial
KW - block fracturing tests
KW - in-situ stress
KW - hydraulic fracture patterns
KW - fracture nucleation
KW - fracture propagation
KW - modeling
KW - in-situ stress characterization
KW - phase-field model
KW - fracture simulation
KW - near wellbore
KW - field data
KW - numerical model
LA - English
DA - 2023/09/08
PY - 2023
PB - Lawrence Livermore National Laboratory
T1 - Utah FORGE 2-2446: Closing the Loop Between In-situ Stress Complexity and EGS Fracture Complexity - Workshop Presentation
UR - https://doi.org/10.15121/2002871
ER -
Cusini, Matteo, and Andrew Bunger. Utah FORGE 2-2446: Closing the Loop Between In-situ Stress Complexity and EGS Fracture Complexity - Workshop Presentation. Lawrence Livermore National Laboratory, 8 September, 2023, Geothermal Data Repository. https://doi.org/10.15121/2002871.
Cusini, M., & Bunger, A. (2023). Utah FORGE 2-2446: Closing the Loop Between In-situ Stress Complexity and EGS Fracture Complexity - Workshop Presentation. [Data set]. Geothermal Data Repository. Lawrence Livermore National Laboratory. https://doi.org/10.15121/2002871
Cusini, Matteo and Andrew Bunger. Utah FORGE 2-2446: Closing the Loop Between In-situ Stress Complexity and EGS Fracture Complexity - Workshop Presentation. Lawrence Livermore National Laboratory, September, 8, 2023. Distributed by Geothermal Data Repository. https://doi.org/10.15121/2002871
@misc{GDR_Dataset_1537,
title = {Utah FORGE 2-2446: Closing the Loop Between In-situ Stress Complexity and EGS Fracture Complexity - Workshop Presentation},
author = {Cusini, Matteo and Bunger, Andrew},
abstractNote = {This is a presentation on the Closing the Loop Between In-situ Stress Complexity and EGS Fracture Complexity project by Lawrence Livermore National Laboratory, presented by Dr. Matteo Cusini. The project's objective was to employ a combination of high-fidelity simulations and true-triaxial block fracturing tests at high temperature to explore the intricate relationship between in-situ stress and hydraulic fracture patterns and better characterize the in-situ stress at Utah FORGE. This presentation was featured in the Utah FORGE R&D Annual Workshop on September 7, 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.},
url = {https://gdr.openei.org/submissions/1537},
year = {2023},
howpublished = {Geothermal Data Repository, Lawrence Livermore National Laboratory, https://doi.org/10.15121/2002871},
note = {Accessed: 2025-04-25},
doi = {10.15121/2002871}
}
https://dx.doi.org/10.15121/2002871
Details
Data from Sep 8, 2023
Last updated Sep 25, 2023
Submitted Sep 15, 2023
Organization
Lawrence Livermore National Laboratory
Contact
Sean Lattis
Authors
Keywords
geothermal, energy, annual workshop, 2023, Utah FORGE, EGS, high-fidelity simulations, tru-triaxial, block fracturing tests, in-situ stress, hydraulic fracture patterns, fracture nucleation, fracture propagation, modeling, in-situ stress characterization, phase-field model, fracture simulation, near wellbore, field data, numerical modelDOE Project Details
Project Name Utah FORGE
Project Lead Lauren Boyd
Project Number EE0007080