BEGIN:VCALENDAR VERSION:2.0 METHOD:PUBLISH PRODID:-//Tendenci - The Open Source AMS for Associations//Tendenci Codeba se MIMEDIR//EN BEGIN:VEVENT DESCRIPTION:--- This iCal file does *NOT* confirm registration.\r\nEvent d etails subject to change. ---\r\nhttps://www.spegcs.org/events/6521/\r\n\r \nEvent Title: ON DEMAND - CO2 Based Geothermal Power Generation\r\nStart Date / Time: Sep 22, 2030 09:16 AM US/Central\r\nLocation: \r\nSpeaker: Pe ter Rice, Siemens Energy, Rich Mauro, Halliburton\r\nAt the heart of the e nergy transition is the dual challenge of ensuring access to efficient, re liable and sustainable energy for all, while reducing climate-changing emi ssions. CO2-based geothermal power generation has the potential to meet bo th the challenges by combining long term CO2 storage with geothermal energ y extraction by using CO2 as a working fluid within a geothermal system.\r \nWe will summarize the concept of CO2-enhanced geothermal systems, includ ing the thermodynamics, and discuss ongoing joint development between tops ide site analysis and turbine designs with existing mature oil and gas tec hnology in the subsurface. Such collaborations will accelerate the time to successfully prove out the CO2 flood systems that will harness geothermal energy. CO2 power generation moves us beyond merely offsetting carbon emi ssions by providing carbon capture and storage systems that are net carbon negative.--- This iCal file does *NOT* confirm registration.Event details subject to change. ---\r\n\r\n--- By Tendenci - The Open Source AMS for A ssociations ---\r\n UID:uid6521@spegcs.org SUMMARY:ON DEMAND - CO2 Based Geothermal Power Generation DTSTART:20300922T141600Z DTEND:20300922T161600Z CLASS:PUBLIC PRIORITY:5 DTSTAMP:20240328T160832Z TRANSP:OPAQUE SEQUENCE:0 X-ALT-DESC;FMTTYPE=text/html:
At the heart of the energy transition is the \;dual chal lenge of ensuring access to efficient, reliable and sustainable energy for all, while reducing climate-changing emissions. \;CO2-based geotherma l power generation has the potential to meet both the challenges by combin ing long term CO2 storage with geothermal energy extraction by using CO2 a s a working fluid within a geothermal system.
We will summarize the concept of CO2-enhanced geothermal systems, including the thermodynamics, and discuss ongoing joint development between topside site analysis and t urbine designs with existing mature oil and gas technology in the subsurfa ce. Such collaborations will accelerate the time to successfully prove out the CO2 flood systems that will harness geothermal energy. \;CO2 powe r generation moves us beyond merely offsetting carbon emissions by providi ng carbon capture and storage systems that are net carbon negative.