BY ALAN BOYLE
July 25, 2023
Synopsis
NASA awarded $34.7 million to Blue Origin for the Blue Alchemist project, aiming to produce solar cells on the moon from local materials. The project is part of NASA's Tipping Point program supporting long-term space exploration technologies. Blue Origin's lunar regolith-based process would extract oxygen, iron, silicon, and aluminum for solar cells and electrical transmission wire. Blue Origin is also involved in the $15 million Project Harmonia with Zeno Power, working on a radioisotope power supply for the Artemis moon program. NASA's investment in the latest Tipping Point round totals $150 million spread over four years, supporting various innovative projects.
Jeff Bezos’ Blue Origin space venture has won $34.7 million in funding from NASA to support the development of a system that could produce solar cells on the moon from materials that are available on site.
The Blue Alchemist project is one of 11 proposals winning support from the space agency’s Tipping Point program, which partners with commercial ventures to back technologies that could contribute to long-term space exploration.
“Harnessing the vast resources in space to benefit Earth is part of our mission, and we’re inspired and humbled to receive this investment from NASA to advance our innovation,” Pat Remias, vice president for Blue Origin’s Capabilities Directorate, Space Systems Development, said today in a news release. “First we return humans to the moon, then we start to ‘live off the land.’”
Blue Alchemist would use lunar regolith — the dust and crushed rock that covers the moon’s surface — as the raw material for solar cells and electrical transmission wire. Oxygen, iron, silicon and aluminum would be extracted through a process known as molten regolith electrolysis, and fed into the manufacturing process. The oxygen could be used for life support or for rocket propulsion.
Kent, Wash.-based Blue Origin has been working on the technology over the past couple of years, with Earth-produced simulants taking the place of lunar regolith.
Blue Origin is also on the team for another Tipping Point project, led by Washington, D.C.-based Zeno Power Systems. Zeno was awarded $15 million for Project Harmonia, which aims to create a new type of radioisotope power supply for the Artemis moon program that uses americium-241 as fuel.
Other partners on Project Harmonia include Intuitive Machines, NASA Glenn Research Center, NASA Marshall Flight Center, Sunpower and the University of Dayton Research Institute. Zeno plans to have its technology ready for a lunar surface demonstration in 2027. Theoretically, the team’s Stirling generators could provide continuous power to lunar bases for years, using radioactive material that’s currently classified as nuclear waste.
“Project Harmonia will provide the technology to transform the moon from a location darkened by night and shadow to one enlightened by science and exploration, ultimately for the good of the nation and humankind,” Tyler Bernstein, CEO and co-founder of Zeno Power, said in a news release.
This is NASA’s sixth round of Tipping Point grants. Each company receiving a grant is expected to cover a minimum percentage of the total project cost — at least 10% to 25%, based on company size. NASA’s investment in this newest round is expected to amount to $150 million over the course of a period lasting up to four years.
“Partnering with the commercial space industry lets us at NASA harness the strength of American innovation and ingenuity,” NASA Administrator Bill Nelson said in a news release. “The technologies that NASA is investing in today have the potential to be the foundation of future exploration.”
In addition to Blue Origin and Zeno Power, the newly announced Tipping Point awardees include:
Astrobotic Technology of Pittsburgh, $34.6 million – Astrobotic will demonstrate the robotic deployment of one kilometer of cable, and power transmission through that cable across the lunar surface. A CubeRover delivered by Astrobotic’s Griffin lander will deploy the power line. The demonstration will advance power generation and distribution technologies, including a high-voltage power converter and cable, plus a cable reel system.
Big Metal Additive of Denver, $5.4 million – The company will advance materials, manufacturing processes, equipment and facilities for metal hybrid additive manufacturing. The project aims to increase technology readiness and reduce lead time, material waste and cost to enable a range of structural products, including space habitats.
Freedom Photonics of Santa Barbara, California, $1.6 million – Freedom Photonics will develop a new tyupe of direct diode laser source that could enable more efficient lidar systems. The system could better detect methane in Earth’s atmosphere and improve scientists’ understanding of climate change.
Lockheed Martin of Littleton, Colorado, $9.1 million – The company will demonstrate in-space component joining and inspection technologies for structural, electrical and fluid systems. The capability would reduce risk and advance the maturity and reliability of in-space assembly architectures.
Redwire of Jacksonville, Florida, $12.9 million – The company will develop a grader, compactor and microwave emitter into a scalable platform that removes rocks, compacts loose regolith, and melts or sinters regolith into a solid surface. This technology could enable dust mitigation areas, habitat foundations, roads and landing pads.
Protoinnovations of Pittsburgh, $6.2 million – Protoinnovations will advance modular, flight-ready mobility control software for lunar rovers and robots
Psionic of Hampton, Virginia, $3.2 million – Partnering with Draper Laboratory, Psionic will conduct a flight demonstration of its Navigation Doppler Lidar and terrain contour matching system. Crewed and robotic missions could utilize the high-precision navigation system to land at various planetary destinations, including the moon.
United Launch Alliance of Centennial, Colorado, $25 million – The company will continue to evolve a proven Hypersonic Inflatable Aerodynamic Decelerator (HIAD) technology design. ULA will develop a larger 10-meter HIAD that leverages a two-piece structure to enable effective load distribution for even larger inflatable decelerators.
Varda Space Industries of El Segundo, California, $1.9 million – Varda will mature Conformal Phenolic Impregnated Carbon Ablator (C-PICA), a cost-effective and mass-efficient thermal protection system material developed by NASA. The project will put C-PICA through a flight test and start commercial production of the material.
Source: www.geekwire.com
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