The Scarab lunar rover is one of the next generation of autonomous robotic rovers that will be used to explore dark polar craters at the lunar south pole. The rover is powered by a 100-watt fuel cell developed under the Space Power Systems Project under Game Changing Development program. Supported by NASA, the rover is being developed by the Robotics Institute of Carnegie Mellon University. Image Credit: Carnegie Mellon University
NASA has selected four proposals for advanced energy storage technologies that may be used to power the agency’s future space missions.
Development of these new energy storage devices will help enable NASA’s future robotic and human-exploration missions and aligns with conclusions presented in the National Research Council’s “NASA Space Technology Roadmaps and Priorities,” which calls for improved energy generation and storage “with reliable power systems that can survive the wide range of environments unique to NASA missions.” NASA believes these awards will lead to such energy breakthroughs.
“NASA’s advanced space technology development doesn’t stop with hardware and instruments for spacecraft,” said Michael Gazarik, associate administrator for Space Technology at NASA Headquarters in Washington. “New energy storage technology will be critical to our future exploration of deep space — whether missions to an asteroid, Mars or beyond. That’s why we’re investing in this critical mission technology area.”
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