teams to address the technical, operational and licensing challenges that they currently face. To help lower this technology development risk, we awarded $30 million to five U.S. Nuclear Regulatory Commission (NRC) that these reactors work as designed. ![]() Many companies don’t have access to the infrastructure, facilities and computer models needed to gather the data that’s required to prove to the U.S. And, although these designs may be further along in the technology development process at this time, we recognize that other domestic vendors need additional financial, technical, and regulatory support to mature their designs. Two ARDP demonstration projects are currently moving forward as TerraPower and X-energy aggressively work with their teams to plan for and ultimately deliver operational reactors within the next seven years. They range from advanced light-water-cooled small modular reactors to new designs that use molten salts and high-temperature gases to flexibly operate at even higher temperatures and lower pressures.Īll of them have the potential to compete globally once deployed and will offer consumers more access to a reliable, clean power source that can be depended on in the near-future to flexibly generate electricity, drive industrial processes and even provide potable drinking water to communities in water-scarce locations. ![]() The advanced reactors selected for risk-reduction awards are an excellent representation of the diverse designs currently under development in the United States. reactors that offer significant improvements over today’s technology. This will ultimately help us build a competitive portfolio of new U.S. Department of Energy's Advanced Reactor Demonstration Program, commonly referred to as ARDP, is designed to help our domestic nuclear industry demonstrate their advanced reactor designs on accelerated timelines.
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