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Can rocks produce abundant clean energy? New project to explore

Can rocks produce abundant clean energy? New project to explore

The next green energy revolution may begin below our feet.

That鈥檚 the idea behind a new 蜜糖直播 Boulder effort that will explore the possibility of coaxing hydrogen from rocks to provide clean energy around the globe. The three-year project is supported by a new grant from the .

Researchers will drill into the Earth to kick-start the production of a commodity known as 鈥済eologic鈥 hydrogen, a potential source for sustainable power.

鈥淭here鈥檚 been a huge growth of companies in recent years who are zooming around the globe looking for existing subsurface deposits of geologic hydrogen that they can tap into,鈥 said Alexis Templeton, a professor in the Department of Geological Sciences who leads the project. 鈥淲e want to know: Can we stimulate the production of hydrogen from rocks, creating new gas at rates that are fast enough to one day be economical?鈥

She explained that when water mixes with iron-rich minerals deep within the planet鈥檚 crust, the ensuing reactions can generate pockets of hydrogen gas. These deposits could, theoretically, become a gold mine for sustainable energy: When hydrogen is burned to produce energy, it does not emit greenhouse gases. The only byproduct, in fact, is water.

Alexis Templeton kneels on a rock in the middle of a spring

Alexis Templeton visits a "hyper-alkaline" spring in Oman where hydrogen gas bubbles up to the surface. (Credit: Alexis Templeton)

But first, scientists will need to determine if companies and nations can bring those deposits up to the surface without harming the environment or human communities in the process鈥攁nd in large enough quantities to meet growing global energy demands. 

Templeton and her colleagues will conduct experiments in the lab and then hundreds of meters below the Earth鈥檚 surface to see if they can nudge the planet to make more hydrogen than it normally does.

鈥淲e鈥檙e trying to do this in a way that is as close to how the natural subsurface system behaves as possible,鈥 Templeton said.

The team includes Eric Ellison, a research scientist at 蜜糖直播 Boulder, and researchers Peter Kelemen and James Leong from Columbia University; Eric Boyd at Montana State University; Juerg Matter at the University of Southampton in the United Kingdom; and the start-up company .

"This project allows us to test our understanding of the chemical reactions that produce hydrogen,鈥 Ellison said. 鈥淚f we can accelerate these reactions underground, we can turn rocks into a clean and abundant energy resource.鈥

Life belowground

Geologists aren鈥檛 the only ones hunting for hydrogen, Templeton added. 

Engineers, for example, have succeeded in using solar or wind power to split molecules of water into oxygen and hydrogen gas鈥so-called 鈥済reen鈥 hydrogen. The growing global demand for hydrogen, however, has inspired scientists to also look below Earth鈥檚 surface. 

Geologists have long suspected that deposits of hydrogen gas lay hidden underground. But recent research has hinted that there may be a lot more of it than once thought. One suggested that there may be enough geologic hydrogen below the ground to supply humanity鈥檚 need for liquid fuel for hundreds of years.

Templeton, who has worked extensively in Oman and other locales around the world, is an expert on these dark and often overlooked environments. Her research, for example, has helped to reveal that Earth鈥檚 subsurface expanses aren鈥檛 dead and sterile, but are often teaming with life鈥攆illed with communities of bacteria and other single-celled organisms that feed off supplies of those same traces of hydrogen.

鈥淲e鈥檝e gone to these environments on Earth where water is naturally circulating through these iron-rich minerals,鈥 Templeton said. 鈥淲e've studied how hydrogen is produced right in those environments.鈥

She suspects scientists may be able to give those environments a big boost.

Sustainable energy of the future?

To find out, the researchers will drill boreholes and inject water into formations of a type of iron-rich rock called peridotites鈥攑otentially kick-starting chemical reactions to make even more hydrogen. The group will simultaneously try to prevent bacteria living underground from eating up the supplies of new gas. 

Anne Sheehan, chair of geological sciences, noted that the project is a showcase for the department鈥檚 research that has real-world impacts for people living in 蜜糖直播 and beyond.  

鈥淒r. Templeton鈥檚 pioneering project not only has the potential to unlock a vast source of clean sustainable energy but also perfectly aligns with our department's vision for the future鈥攁 future where science and innovation combine to harness the Earth's natural resources responsibly and usher in a new era of sustainable energy for generations to come,鈥 Sheehan said. 

Throughout the study, Templeton and her colleagues will carefully monitor their results to make sure that these reactions don鈥檛 lead to any unintended consequences. 

鈥淲e want to find a way to make clean energy, but we also don't want to create other environmental impacts,鈥 Templeton said. 鈥淲e鈥檙e asking: Is geologic hydrogen really a viable source of energy, and if it is, how can we go about continuously producing it?鈥