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U.S. tests nuclear power system to
sustain astronauts on Mars
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 [January 19, 2018]
By Will Dunham
WASHINGTON (Reuters) - Initial tests in
Nevada on a compact nuclear power system designed to sustain a
long-duration NASA human mission on the inhospitable surface of Mars
have been successful and a full-power run is scheduled for March,
officials said on Thursday.
National Aeronautics and Space Administration and U.S. Department of
Energy officials, at a Las Vegas news conference, detailed the
development of the nuclear fission system under NASA's Kilopower
project.
Months-long testing began in November at the energy department's Nevada
National Security Site, with an eye toward providing energy for future
astronaut and robotic missions in space and on the surface of Mars, the
moon or other solar system destinations.
A key hurdle for any long-term colony on the surface of a planet or
moon, as opposed to NASA's six short lunar surface visits from 1969 to
1972, is possessing a power source strong enough to sustain a base but
small and light enough to allow for transport through space.
"Mars is a very difficult environment for power systems, with less
sunlight than Earth or the moon, very cold nighttime temperatures, very
interesting dust storms that can last weeks and months that engulf the
entire planet," said Steve Jurczyk, associate administrator of NASA's
Space Technology Mission Directorate.
"So Kilopower's compact size and robustness allows us to deliver
multiple units on a single lander to the surface that provides tens of
kilowatts of power," Jurczyk added.
Testing on components of the system, dubbed KRUSTY, has been "greatly
successful -- the models have predicted very well what has happened, and
operations have gone smoothly," said Dave Poston, chief reactor designer
at the Los Alamos National Laboratory.
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Mars fission power system concept in the Kilopower project is shown
in this undated NASA handout photo released on January 9, 2018.
Courtesy NASA/Handout via REUTERS
Officials said a full-power test will be conducted near the middle
or end of March, a bit later than originally planned.
NASA's prototype power system uses a uranium-235 reactor core
roughly the size of a paper towel roll.
President Donald Trump in December signed a directive intended to
pave the way for a return to the moon, with an eye toward an
eventual Mars mission.
Lee Mason, NASA's principal technologist for power and energy
storage, said Mars has been the project's main focus, noting that a
human mission likely would require 40 to 50 kilowatts of power.
The technology could power habitats and life-support systems, enable
astronauts to mine resources, recharge rovers and run processing
equipment to transform resources such as ice on the planet into
oxygen, water and fuel. It could also potentially augment
electrically powered spacecraft propulsion systems on missions to
the outer planets.
(Reporting by Will Dunham; Editing by Tom Brown)
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