This article was originally published by Canary Media.
Eavor, an advanced-geothermal startup, says it has significantly reduced drilling times and improved technologies at its nearly online project in Germany—milestones that should help it drive down the costs of harnessing clean energy from the ground.
In late October, the Canadian company released results from two years of drilling activity at its flagship operation in Geretsried, Germany, giving Canary Media an exclusive early look. Eavor said the data validates its initial efforts to deploy novel “closed-loop” geothermal systems in hotter and deeper locations than conventional projects can access.
“Much like wind and solar have come down the cost curve, much like unconventional shale [oil and gas] have come down the cost curve, we now have a technical proof-point that we’ve done that in Europe,” Jeanine Vany, a cofounder and executive vice president of corporate affairs at Eavor, said from the Geothermal Rising conference in Reno, Nevada.
Eavor is part of a fast-growing effort to expand geothermal energy projects beyond traditional hot spots like California’s Salton Sea region or Iceland’s lava fields. The company and other firms—including Fervo Energy, Sage Geosystems, and XGS Energy—are adapting tools and techniques from the oil and gas industry to be able to withstand the harsh conditions found deep underground.
The industry wants to produce abundant amounts of clean electricity and heat virtually anywhere in the world, and it could serve as an ideal, around-the-clock pairing to solar and wind power. But geothermal companies are only just starting to put their novel technologies to the test.
Eavor’s Geothermal Breakthrough in Germany
Eavor began drilling in Geretsried in July 2023, shortly after winning a $107 million grant from the European Union’s Innovation Fund. For its first “loop,” the company drilled two vertical wells reaching nearly 2.8 miles below the surface, then created a dozen horizontal wells—like tines of a fork—that each stretch 1.8 miles long. Once in place, the wells are connected underground and sealed off so that they operate like radiators: As water circulates within the system, it collects heat from the rocks and brings it to the surface.
Operations on the first of four loops are nearly complete, and the startup plans to begin construction on its second loop in March 2026. All told, the system will supply 8.2 megawatts of electricity to the regional grid and 64 MW of district heating to nearby towns, operating flexibly to provide more heat during chilly winter months and produce more electricity in summer.
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