NASA Supporting U.S. Companies To Develop Exploration Technologies

Saturday - May 6 2023, 23:15 UTC - 1 year ago

NASA has selected 16 proposals from 12 U.S. companies under the 2022 Announcement of Collaboration Opportunity (ACO) to advance capabilities and technologies related to NASA’s Moon to Mars Objectives. The companies will utilize NASA’s facilities and expertise without financial exchange to advance these technologies. Since the inaugural ACO in 2015, STMD has supported more than 75 ACO projects, with the total estimated value of agency resources to support the agreements being approximately $14.5 million.

NASA has chosen 16 projects from 12 U.S. companies to push forward capabilities for Moon and Mars missions. The projects will focus on developing a lunar rover tire, a robotically assembled power system, and an in-space propellant transfer device. The companies will utilize NASA’s facilities and expertise without financial exchange to advance these technologies.

NASA has selected 16 proposals from 12 companies under the 2022 Announcement of Collaboration Opportunity (ACO) to advance capabilities and technologies related to NASA’s Moon to Mars Objectives. The cadre of U.S. industry-led teams will test a new lunar rover tire design, develop a robotically assembled power system, build an electrically actuated device to join in-space propellant transfer lines, and more.

Under unfunded Space Act Agreements, NASA will provide access to its unique facilities and technical expertise, allowing the agency to directly support continued development of promising technologies without the transfer of funds.

"By sharing our knowledge and facilities with U.S. companies, NASA helps mature capabilities that promise to benefit our objectives and the entire aerospace industry," said Jim Reuter, associate administrator for the Space Technology Mission Directorate (STMD) at the agency’s headquarters in Washington. "These awards allow us to work with both small and large companies to advance some of the most crucial technologies for future exploration." .

The selected proposals, grouped by company, and the respective partnering NASA centers are: .

Aerojet Rocketdyne in El Segundo, California (two selections) .

Blue Origin in Kent, Washington (two selections) .

The Boeing Company in Arlington, Virginia .

Canopy Aerospace in Denver .

Lockheed Martin Corporation in Bethesda, Maryland (three selections) .

Maxar in Westminster, Colorado .

Phase Four in El Segundo, California .

Psionic, LLC in Hampton, Virginia .

Roccor, LLC (Redwire) in Erie, Colorado .

Sierra Space in Louisville, Colorado .

Stratolaunch in Mojave, California .

Venturi Astrolab in Hawthorne, California .

Since the inaugural ACO in 2015, STMD has supported more than 75 ACO projects, including the new awards. The period of performance will be negotiated for each agreement, with an expected duration of between 12 and 24 months. The total estimated value of agency resources to support the agreements is approximately $14.5 million.

The selected proposals will be led by a diverse array of companies including small and large businesses and will develop a broad range of technologies.

Venturi Astrolab will work with NASA’s Glenn Research Center in Cleveland and Johnson Space Center in Houston to demonstrate a durable lunar rover tire that can tolerate extremely cold temperatures. The design could allow mission planners to consider more lunar locations for rover exploration and longer traverses.

Psionic seeks to expand a well-tested landing technology called Navigation Doppler Lidar to make wind measurements. The small business will work with NASA’s Langley Research Center in Hampton, Virginia, to adapt the technology for new potential applications such as real-time air traffic management using a satellite constellation and providing better data for studying the climates of both Earth and Mars.

Lockheed Martin will advance in-space manufacturing technologies, utilizing agency expertise from Langley, Johnson and Marshall Space Flight Center in Huntsville, Alabama, to develop a novel robotic pre-assembly system for ground-to-space power systems. The project could enable faster, easier and less expensive assembly of large spacecraft in LEO and GEO to help with the development of low-Earth-orbit commercial networks and other complex mission architectures.