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 - Open Energy Data Initiative (OEDI)
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, GDR. 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]. GDR. 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 GDR. https://doi.org/10.15121/2002871
@misc{OEDI_Dataset_7624,
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 = {GDR, Lawrence Livermore National Laboratory, https://doi.org/10.15121/2002871},
note = {Accessed: 2025-05-04},
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
Original Source
https://gdr.openei.org/submissions/1537Research Areas
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
