The United States plans to test a spacecraft engine powered by nuclear fission by 2027 as part of a long-term NASA effort to demonstrate more efficient methods of propelling astronauts to Mars in the future, the space agency’s chief announced on Tuesday.
NASA will partner with the U.S. military’s research and development agency, DARPA, to develop a nuclear thermal propulsion engine and launch it to space “as soon as 2027,” NASA administrator Bill Nelson said during a conference in National Harbor, Maryland.
The U.S. space agency has studied for decades the concept of nuclear thermal propulsion, which introduces heat from a nuclear fission reactor to a hydrogen propellant in order to provide a thrust believed to be far more efficient than traditional chemical-based rocket engines.
NASA officials view nuclear thermal propulsion as crucial for sending humans beyond the moon and deeper into space. A trip to Mars from Earth using the technology could take roughly four months instead of some nine months with a conventional, chemically powered engine, engineers say.
That would substantially reduce the time astronauts would be exposed to deep-space radiation and would also require fewer supplies, such as food and other cargo, during a trip to Mars.
Applications that spinoff from the planned 2027 demonstration – part of an existing DARPA research programme that NASA is now joining – would also fit into the U.S. Space Force’s space mobility and logistics segment, said Tabitha Dodson, DARPA’s programme manager for the test programme.
DARPA in 2021 awarded funds to General Atomics, Lockheed Martin and Jeff Bezos' space company Blue Origin to study designs of nuclear reactors and spacecraft. By around March, the agency will pick a company to build the nuclear spacecraft for the 2027 demonstration, programme's manager Dodson said in an interview.
The joint NASA-DARPA effort’s budget is USD 110 million for the fiscal year 2023 and is expected to be hundreds of millions of dollars more through 2027.