Meta, the parent company of Facebook and Instagram, will by 2027 power data centers using geothermal energy storage, according to a power purchase deal announced on Monday.
Meta’s partner in the deal, Sage Geosystems, is a company run by three former Shell Oil executives who have sought to use their experience in drilling and fracking wells to build out forms of energy storage based in using manmade cavities within the earth as a kind of battery that can store electricity for two to three times as long as lithium-ion.
For tech companies like Meta, clean baseload power is essential to keeping its climate commitments while also meeting the staggering power demands from their ambitions in training new artificial intelligence (AI) models.
Sage sees this form of energy storage as a key step toward next-gen geothermal energy, which relies on the technology of oil and gas fracking to tap the Earth’s buried heat for industrial or electric power.
Earlier in August, Sage announced a deal with the San Miguel Electric Cooperative, a South Texas coal mining and power company. The company agreed to host a 3 megawatt pilot project in exchange for a share of royalties with an eye toward potentially standing up a geothermal plant of its own in the coming years.
That deal, however, is far smaller than the one Sage just inked with Meta, which would commit the energy company to begin to provide an ultimate goal of 150 megawatts of power, or 50 times as much as it hopes to produce at San Miguel, within three years.
The method companies like Sage use is distinct from hydrothermal energy, the traditional form of geothermal energy seen across geologically active regions like the U.S. West Coast and the nations of Iceland and South Korea.
Hydrothermal energy relies on tapping existing underwater conduits of superheated water to run electric turbines — a form of power that is dependent on having, and finding, the right underground geology.
Next-generation geothermal power, by contrast, seeks to create that geology by drilling and hydraulic fracturing, and the Energy Department (DOE) has argued that it could soon begin to serve as a clean, on-demand bulwark to the more variable power offered by wind and solar energy.
A March study by the DOE found that next-gen geothermal energy could power the equivalent of 4 million households by 2030, largely by adapting existing off-the-shelf technology — and build to the equivalent of 80 to 260 million homes by midcentury.
That may be an underestimate, Energy Department Loan Programs Office (LPO) head Jigar Shah told The Hill at the time of the report launch. “The numbers could be quite a bit larger,” he said.
Getting a geothermal development snowball rolling, the LPO estimated, would cost up to $25 billion in investment within the next six years — a sum that is a little less than three-quarters of the $35 million required to complete a single nuclear complex, the Vogtle Electric Generating Plant.
Deputy Energy Secretary David Turk was also at the deal announcement on behalf of the Next Generation Geothermal Development workshop. In a statement, Turk pointed to the role geothermal could play in providing zero carbon, on-demand power to an ever-more-electrified economy.
“The U.S. has seen unprecedented growth in demand for energy as our economy grows, the manufacturing sector booms thanks to the Biden-Harris Administration’s Investing in America agenda, and new industries like AI expand,” Turk said.
With the increased demand pulling more clean energy onto the grid, Turk called geothermal “a game-changer as we work to grow our clean power supply.”