| Title | Exploration for Blind Geothermal Systems in the Eastern Great Basin of Utah: an Update on the Lund North INGENIOUS Detailed Study Site |
|---|---|
| Authors | Christian L. HARDWICK, Eugene SZYMANSKI, Nicole HART-WAGONER, Shadrach ASHTON, Noah CHRISTENSEN, Tait E. EARNEY, James FAULDS, Jonathan GLEN, Adam HISCOCK, Stefan KIRBY, Tyler KNUDSEN, Skadi KOBE, Cary LINDSEY, Benjamin L. MORBECK, Jared PEACOCK, Grant REA-DOWNING, William D. SCHERMERHORN, Kayla SMITH |
| Year | 2025 |
| Conference | Stanford Geothermal Workshop |
| Keywords | exploration, geophysics, Great Basin, hidden, blind, geochemistry, lidar, geology, INGENIOUS |
| Abstract | Existing geothermal production in Utah is commonly collocated with surficial expressions of geothermal heat including active hot springs and hot spring deposits. However, geothermal potential across the Great Basin region is thought to be much higher for hidden or blind geothermal systems. Accordingly, exploration techniques that can locate geothermal resources that lack surface thermal features could support future development of these systems. The goal of the INGENIOUS project is to reduce exploration risk and discover new, economically viable hidden geothermal systems in the Great Basin region. This paper summarizes the efforts and preliminary results of blind geothermal resource prospecting in Utah as part of the larger INGENIOUS project. The Lund North site in the Basin and Range province of southwest Utah was designated as the fourth detailed study site for the project. The site was initially identified from the preliminary Play Fairway Analysis (PFA) geothermal favorability map, which is based on various data elements, and the identification of favorable structural settings across Utah. This site contains existing legacy data including a thermal gradient borehole with a heat-flow value exceeding 220 mW/m2. New data collected at this site include terrestrial gravity, magnetotellurics, transient electromagnetics, fluid geochemistry, geologic mapping, UAV-based lidar, paleomagnetism, aeromagnetic surveys, and a shallow temperature survey. Preliminary data and model interpretations corroborate the presence of a large, east-dipping, northeast-southwest-trending normal fault on the edge of a typical Basin and Range graben. Quaternary fault mapping refined by high-resolution lidar surveys suggests a complex step over fault geometry. Utilizing multi-disciplinary datasets for further site assessment at Lund North will facilitate the development of a local-scale PFA and geothermal conceptual model. This new data will be used to site successive thermal gradient drilling to verify heat flow with temperatures at depth at the Lund North site and further investigate the existence of a local geothermal system. |