Research Spotlight: Mapping confirms vast geothermal resources


Research Spotlight: Mapping confirms vast geothermal resources

Coast-to-coast U.S. geothermal map from the SMU Geothermal LaboratoryNew research from the SMU Geothermal Laboratory, funded by a grant from, documents significant geothermal resources across the United States capable of producing more than three million megawatts of green power – 10 times the installed capacity of coal power plants today.

Sophisticated mapping produced from the research, viewable via Google Earth, demonstrates that vast reserves of this source of power are realistically accessible using current technology.

The results of the new research, from SMU Hamilton Professor of Geophysics David Blackwell and Geothermal Lab Coordinator Maria Richards, confirm and refine locations for resources capable of supporting large-scale commercial geothermal energy production under a wide range of geologic conditions, including significant areas in the eastern two-thirds of the United States.

The estimated amounts and locations of heat stored in the Earth’s crust included in this study are based on nearly 35,000 data sites – approximately twice the number used for Blackwell and Richards’ 2004 Geothermal Map of North America, leading to improved detail and contouring at a regional level.

Based on the additional data, primarily drawn from oil and gas drilling, larger local variations can be seen in temperatures at depth, highlighting more detail for potential power sites than was previously evident in the eastern portion of the U.S. For example, eastern West Virginia has been identified as part of a larger Appalachian trend of higher heat flow and temperature.

Conventional U.S. geothermal production has been restricted largely to the western third of the country in geographically unique and tectonically active locations.

However, newer technologies and drilling methods can now be used to develop resources in a wider range of geologic conditions, allowing reliable production of clean energy at temperatures as low as 100˚C (212˚F) – and in regions not previously considered suitable for geothermal energy production. Preliminary data released from the SMU study in October 2010 revealed the existence of a geothermal resource under the state of West Virginia equivalent to the state’s existing (primarily coal-based) power supply.

“Once again, SMU continues its pioneering work in demonstrating the tremendous potential of geothermal resources,” said Karl Gawell, executive director of the Geothermal Energy Association. “Both Google and the SMU researchers are fundamentally changing the way we look at how we can use the heat of the Earth to meet our energy needs, and by doing so are making significant contributions to enhancing our national security and environmental quality.”

“This assessment of geothermal potential will only improve with time,” said Blackwell. “Our study assumes that we tap only a small fraction of the available stored heat in the Earth’s crust, and our capabilities to capture that heat are expected to grow substantially as we improve upon the energy conversion and exploitation factors through technological advances and improved techniques.”

Blackwell is scheduled to release a paper with details of the results of the research to the Geothermal Resources Council in October 2011.

Written by Kimberly Cobb

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November 17, 2011|Research|

Google invests in SMU geothermal research

SMU's Geothermal Map of North AmericaSearch engine giant Google will help fund SMU’s geothermal resource mapping, underscoring the importance of the University’s research toward alternate energy technology., the philanthropic arm of the Silicon Valley web company, will grant nearly $500,000 to the Geothermal Lab in SMU’s Dedman College of Humanities and Sciences to update mapping of geothermal resources. The Google grant will allow SMU to provide information on the potential for geothermal energy production in regions where geothermal data has previously been spotty or unavailable.

“Enhanced geothermal systems could be the ‘killer app’ of the energy world,” said Dan Reicher, director of climate and energy initiatives for “It has the potential to deliver vast quantities of power 24/7 and be captured nearly anywhere on the planet. And it would be a perfect complement to intermittent sources like solar and wind.”

David Blackwell, Hamilton Professor of Geothermal Studies in the Huffington Department of Earth Sciences, and Maria Richards, Geothermal Lab coordinator, previously collaborated on the Geothermal Map of North America (right) for the American Association of Petroleum Geologists in 2004. The SMU map shows the potential for enhanced geothermal systems development nationwide.

Read more from SMU News.
See a video on how enhanced geothermal systems work.

September 5, 2008|News|
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