The ‘geothermal moonshot’

Geothermal is just as likely to run into legal challenges as other forms of underground energy recovery. The article below is part of ‘a special feature on the hazards and potential of geothermal energy’, featuring the habitat of Nevada’s tiny and endangered Dixie Valley toad.
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From his home office in Carson City, Nevada, Paul Schwering monitors an old gold mine in the Black Hills of South Dakota, approximately 1,000 miles away and a mile underground.

What was once the Homestake Gold Mine has been repurposed as a research station for enhanced geothermal systems, also known as engineered geothermal systems, a technology that could increase the United States’ geothermal power generating capacity 40-fold, says the Bulletin of the Atomic Scientists.

Energy experts estimate that geothermal energy could contribute up to 10 percent of US electricity generation, but only if researchers can figure out how to make enhanced geothermal systems work on a large scale.

Enhanced geothermal systems have been called the “geothermal moonshot.”

“This is probably decades away,” James Faulds, the Nevada state geologist and director of Nevada Bureau of Mines and Geology, says.

The idea is simple, even if implementation is not: If the perfect conditions for geothermal energy production don’t exist, make them.

While a natural geothermal system has high heat, water, and permeability—the three ingredients needed to make electricity from the Earth’s energy—an enhanced or engineered geothermal system will often just be very hot. Humans must intervene to add water and permeability.

That starts with fracturing the rock, also known as “stimulating,” a process not unlike the oil and gas industry using hydraulic fracturing, or fracking, to extract oil and gas from shale rock.

That’s what Schwering is studying in South Dakota, at the Sanford Underground Research Facility, where researchers are using hydraulic fracturing to break apart crystalline rock deep underground. The researchers then inject water and observe what happens.

They are hoping to prove that it is possible to artificially create an underground system where water can be injected from the surface, flow through the broken rock—becoming heated in the process—and subsequently be pumped out at temperatures hot enough to generate electricity, as at geothermal plants built on naturally occurring geothermal systems.

The process is not without risks, most notably the possibility of induced seismicity, or earthquakes. Hydraulic fracturing can sometimes increase seismic or microseismic activity.

In 2017, an enhanced geothermal systems project in South Korea caused a 5.5 magnitude earthquake in Pohang, the largest-ever earthquake linked to an enhanced geothermal system. In that case, reinjected water activated a previously unknown fault line, triggering the earthquake. Dozens of people were injured and over 1,700 residents had to move into emergency housing.

Full article here.
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Special feature: Showdown in Dixie Valley

via Tallbloke’s Talkshop

November 7, 2022 at 06:37AM

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