By investing in EGS technology development through FORGE and other initiatives, GTO is working to achieve the Enhanced Geothermal Shot™ goals of reducing the cost of EGS by 90% by 2035 and deploying geothermal nationwide to help meet the Biden-Harris Administration’s goal for a net-zero-carbon economy by 2050.
Topic 1: Adaptive Induced Seismicity Monitoring Protocols
Global Technology Connection, Inc. | Atlanta, GA
Lawrence Berkeley National Laboratory | Berkeley, CA
University of Utah | Salt Lake City, UT
Topic 2: Alternative Stimulation Schemes
National Renewable Energy Laboratory | Golden, CO
University of Oklahoma | Norman, OK
Topic 3: Field Scale Experiments to Measure Heat-Sweep Efficiency
California State University, Long Beach | Long Beach, CA
Sandia National Laboratories | Albuquerque, NM
Texas Tech University | Lubbock, TX
Topic 4: High Temperature Proppants
Oklahoma State University | Stillwater, OK
Stevens Institute of Technology | Hoboken, NJ
University of Oklahoma | Norman, OK
Topic 5: Multiset Straddle Packers for Open Hole Operations?
PetroQuip | Waller, TX
Welltec | Katy, TX
Managed by the University of Utah, FORGE is DOE’s dedicated field laboratory for developing technologies to create, sustain, and monitor EGS reservoirs. The site uses testing and research and development (R&D) to reduce uncertainty and manage risk for commercial development of EGS technologies.
FORGE collects data for all aspects of EGS development, including subsurface fluid flow, temperatures, rock types, and more. These data allow researchers to better understand subsurface conditions, identify the best areas for geothermal production, and provide information that can be used to optimize tools and methods that work well in geothermal environments.
“Enhanced geothermal systems are the next frontier in meeting our energy needs,” said Jeff Marootian, Principal Deputy Assistant Secretary for Energy Efficiency and Renewable Energy. “These new investments at FORGE will advance cutting-edge technologies in drilling and creating geothermal wells, which will help us leverage cost-effective and widescale geothermal power as a key resource in our clean energy future.”
“Utah FORGE looks forward to collaborating closely with the scientists and engineers of these project teams to move us closer to commercializing this inexhaustible and clean energy source,” said Joseph Moore, Ph.D., Principal Investigator at Utah FORGE. “We were impressed with the caliber of all of the applicants and hope to continue expanding the geothermal community and propelling EGS into the nation’s energy spotlight.”