Superhot geothermal energy can be produced from natural or engineered reservoirs that maintain supercritical conditions in the subsurface. Proposed completion methods and technologies that could unlock hydrothermal or petrothermal superhot geothermal plays are conventional, engineered, closed loop geothermal, and hybrid. These technologies each play to different strengths, and, with adequate global investment, they offer innovative ways to extract high-energy-density, low-carbon, always available energy. By driving down costs and making large-scale geothermal power available nearly anywhere, Superhot Rock energy has the potential to disrupt and revolutionize the energy system.

• 7:30 AM - 7:50 AM | Status of Japanese Supercritical Geothermal Project as of 2025 | Presenting Author: Hiroshi Asanuma
• 7:50 AM - 8:10 AM | Harnessing the Pacific Ring of Fire | Presenting Author: John Eichelberger
• 8:10 AM - 8:30 AM | Impact of Elevated Temperatures on Shear Strength and Dilation Behavior of Sierra White Granite Fracture | Presenting Author: Ahmad Ghassemi
• 8:30 AM - 8:50 AM | Production Characteristics of Superhot Geothermal Resources: Role of Reservoir Pressure and Fluid Salinity | Presenting Author: Samuel Scott
• 8:50 AM - 9:10 AM | Investigation of Favorable Conditions in Superhot Rock Geothermal Wells Based on Techno-Economic Studies | Presenting Author: Yuxing Wu
• 9:10 AM - 9:30 AM | DE-risking Exploration for geothermal Plays in magmatic Environments through Open Source Tools: An Open Source Python Framework for 2D and 3D Play Fairway Analysis | Presenting Author: Amanda Kolker