Coupling geothermal energy capture with carbon dioxide sequestration in naturally permeable, porous geologic formations: A comparison with enhanced geothermal systems

Jimmy B Randolph; Martin O. Saar

Coupling geothermal energy capture with carbon dioxide sequestration in naturally permeable, porous geologic formations: A comparison with enhanced geothermal systems

Jimmy B Randolph, Martin O. Saar

Earth and Environmental Sciences-Twin Cities

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

25 Scopus citations

Abstract

Geothermal energy offers clean, consistent, reliable electric power with no need for grid-scale energy storage, unlike wind and solar renewable power alternatives. However, geothermal energy is often underrepresented in renewable energy discussions and has considerable room for growth. New technology and methods will be critical for future investment, and rapid implementation of new techniques will be critical in ensuring geothermal energy plays a significant role in the future energy landscape worldwide. Here, we discuss a novel approach with the potential to permit expansion of geothermal energy utilization while supporting rapid implementation through the use of existing technologies: geothermal heat use in naturally porous, permeable geologic formations with carbon dioxide as the working heat exchange fluid.

Original language	English (US)
Title of host publication	Geothermal Resources Council Annual Meeting 2010, Geothermal 2010
Pages	401-405
Number of pages	5
Volume	34 1
State	Published - Dec 1 2010
Event	Geothermal Resources Council Annual Meeting 2010, Geothermal 2010 - Sacramento, CA, United States Duration: Oct 24 2010 → Oct 27 2010

Other

Other	Geothermal Resources Council Annual Meeting 2010, Geothermal 2010
Country/Territory	United States
City	Sacramento, CA
Period	10/24/10 → 10/27/10

Keywords

Carbon dioxide (CO) sequestration
CPG
EGS
Heat transfer
Numerical simulation

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Coupling geothermal energy capture with carbon dioxide sequestration in naturally permeable, porous geologic formations: A comparison with enhanced geothermal systems. / Randolph, Jimmy B; Saar, Martin O.
Geothermal Resources Council Annual Meeting 2010, Geothermal 2010. Vol. 34 1 2010. p. 401-405.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Randolph, JB & Saar, MO 2010, Coupling geothermal energy capture with carbon dioxide sequestration in naturally permeable, porous geologic formations: A comparison with enhanced geothermal systems. in Geothermal Resources Council Annual Meeting 2010, Geothermal 2010. vol. 34 1, pp. 401-405, Geothermal Resources Council Annual Meeting 2010, Geothermal 2010, Sacramento, CA, United States, 10/24/10.

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abstract = "Geothermal energy offers clean, consistent, reliable electric power with no need for grid-scale energy storage, unlike wind and solar renewable power alternatives. However, geothermal energy is often underrepresented in renewable energy discussions and has considerable room for growth. New technology and methods will be critical for future investment, and rapid implementation of new techniques will be critical in ensuring geothermal energy plays a significant role in the future energy landscape worldwide. Here, we discuss a novel approach with the potential to permit expansion of geothermal energy utilization while supporting rapid implementation through the use of existing technologies: geothermal heat use in naturally porous, permeable geologic formations with carbon dioxide as the working heat exchange fluid.",

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N2 - Geothermal energy offers clean, consistent, reliable electric power with no need for grid-scale energy storage, unlike wind and solar renewable power alternatives. However, geothermal energy is often underrepresented in renewable energy discussions and has considerable room for growth. New technology and methods will be critical for future investment, and rapid implementation of new techniques will be critical in ensuring geothermal energy plays a significant role in the future energy landscape worldwide. Here, we discuss a novel approach with the potential to permit expansion of geothermal energy utilization while supporting rapid implementation through the use of existing technologies: geothermal heat use in naturally porous, permeable geologic formations with carbon dioxide as the working heat exchange fluid.

AB - Geothermal energy offers clean, consistent, reliable electric power with no need for grid-scale energy storage, unlike wind and solar renewable power alternatives. However, geothermal energy is often underrepresented in renewable energy discussions and has considerable room for growth. New technology and methods will be critical for future investment, and rapid implementation of new techniques will be critical in ensuring geothermal energy plays a significant role in the future energy landscape worldwide. Here, we discuss a novel approach with the potential to permit expansion of geothermal energy utilization while supporting rapid implementation through the use of existing technologies: geothermal heat use in naturally porous, permeable geologic formations with carbon dioxide as the working heat exchange fluid.

KW - Carbon dioxide (CO) sequestration

KW - CPG

KW - EGS

KW - Heat transfer

KW - Numerical simulation

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Coupling geothermal energy capture with carbon dioxide sequestration in naturally permeable, porous geologic formations: A comparison with enhanced geothermal systems

Abstract

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Keywords

UN SDGs

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