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This Texas chemical plant could get its own nuclear reactors
Nuclear reactors could someday power a chemical plant in Texas, making it the first with such a facility onsite. The factory, which makes plastics and other materials, could become a model for power-hungry data centers and other industrial operations going forward. The plans are the work of Dow Chemical and X-energy, which last week applied…
Nuclear reactors could someday power a chemical plant in Texas, making it the first with such a facility onsite. The factory, which makes plastics and other materials, could become a model for power-hungry data centers and other industrial operations going forward.
The plans are the work of Dow Chemical and X-energy, which last week applied for a construction permit with the Nuclear Regulatory Commission, the agency in the US that governs nuclear energy.
It’ll be years before nuclear reactors will actually turn on, but this application marks a major milestone for the project, and for the potential of advanced nuclear technology to power industrial processes.
“This has been a long time coming,” says Harlan Bowers, senior vice president at X-energy. The company has been working with the NRC since 2016 and submitted its first regulatory engagement plan in 2018, he says.
In 2020, the US Department of Energy chose X-energy as one of the awardees of the Advanced Reactor Demonstration Program, which provides funding for next-generation nuclear technologies. And it’s been two years since X-energy and Dow first announced plans for a joint development agreement at Dow’s plant in Seadrift, Texas.
The Seadrift plant produces 4 billion pounds of materials each year, including plastic used for food and pharmaceutical packaging and chemicals used in products like antifreeze, soaps, and paint. A natural-gas plant onsite currently provides both steam and electricity. That equipment is getting older, so the company was looking for alternatives.
“Dow saw the opportunity to replace end-of-life assets with safe, reliable, lower-carbon-emissions technology,” said Edward Stones, an executive at Dow, in a written statement in response to questions from MIT Technology Review.
Advanced nuclear reactors designed by X-energy emerged as a fit for the Seadrift site in part because of their ability to deliver high-temperature steam, Stones said in the statement.
X-energy’s reactor is not only smaller than most nuclear plants coming online today but also employs different fuel and different cooling methods. The design is a high-temperature gas-cooled reactor, which flows helium over self-contained pebbles of nuclear fuel. The fuel can reach temperatures of around 1,000 °C (1,800 °F). As it flows through the reactor and around the pebbles, the helium reaches up to 750 °C (about 1,400 °F). Then that hot helium flows through a generator, making steam at a high temperature and pressure that can be piped directly to industrial equipment or converted into electricity.
The Seadrift facility will include four of X-energy’s Xe-100 reactors, each of which can produce about 200 megawatts’ worth of steam or about 80 megawatts of electricity.
A facility like Dow’s requires an extremely consistent supply of steam, Bowers says. So during normal operation, two of the modules will deliver steam, one will deliver electricity, and the final unit will sell electricity to the local grid. If any single reactor needs to shut down for some reason, there will still be enough onsite power to keep running, he explains.
The progress with the NRC is positive news for the companies involved, but it also represents an achievement for advanced reactor technology more broadly, says Eric Cothron, a senior analyst at the Nuclear Innovation Alliance, a nonprofit think tank. “It demonstrates real-world momentum toward deploying new nuclear reactors for industrial decarbonization,” Cothron says.
While there are other companies looking to bring advanced nuclear reactor technology online, this project could be the first to incorporate nuclear power onsite at a factory. It thus sets a precedent for how new nuclear energy technologies can integrate directly with industry, Cothron says—for example, showing a pathway for tech giants looking to power data centers.
It could take up to two and a half years for the NRC to review the construction permit application for this site. The site will also need to receive an operating license before it can start up. Operations are expected to begin “early next decade,” according to Dow.
