Lockheed Martin Reveals New Human Lunar Lander Concept
Reusable lander could take astronauts from the lunar Gateway to the surface of the Moon and advance technology needed to explore Mars
DENVER, Oct. 3, 2018 /PRNewswire/ — Today, at the International Astronautical Congress (IAC) in Bremen, Germany, Lockheed Martin (NYSE: LMT) experts revealed the company’s crewed lunar lander concept and showed how the reusable lander aligns with NASA’s lunar Gateway and future Mars missions.
Concept video: https://vimeo.com/293133933
The crewed lunar lander is a single stage, fully reusable system that incorporates flight-proven technologies and systems from NASA’s Orion spacecraft. In its initial configuration, the lander would accommodate a crew of four and 2,000 lbs. of cargo payload on the surface for up to two weeks before returning to the Gateway without refueling on the surface.
“NASA asked industry for innovative and new approaches to advance America’s goal of returning humans to the Moon, and establishing a sustainable, enduring presence there,” said Lisa Callahan, vice president and general manager of Commercial Civil Space at Lockheed Martin Space. “This is a concept that takes full advantage of both the Gateway and existing technologies to create a versatile, powerful lander that can be built quickly and affordably. This lander could be used to establish a surface base, deliver scientific or commercial cargo, and conduct extraordinary exploration of the Moon.”
The unique orbit of the lunar Gateway provides global lunar access for a lander. Having the ability to visit multiple sites with a reusable lander supports many international, commercial, and scientific communities, in addition to NASA’s sustainable exploration of the Moon. After a surface mission, it would return to the Gateway, where it can be refueled, serviced, and then kept in orbit until the next surface sortie mission.
“The Gateway is key to full, frequent and fast reusability of this lander,” said Tim Cichan, space exploration architect at Lockheed Martin Space, who presented the lander concept at IAC. “Because this lander doesn’t have to endure the punishment of re-entering Earth’s atmosphere, it can be re-flown many times over without needing significant and costly refurbishment. That’s a major advantage of the Gateway and of a modular, flexible, reusable approach to deep space exploration.”
The investments made in technology developed for Orion can be re-used to reduce the cost, complexity and development timeline. Some of the human-rated, flight-proven systems used in the design include avionics, life support, communications and navigation systems, and a light-weight version of its crew module pressure vessel.
Reusable landers are enabled by the lunar Gateway and are important for sustainable exploration. Additionally, landed human lunar missions and a lunar orbiting outpost are valuable to prepare for sending humans to Mars. While the Moon doesn’t have an atmosphere, there are still many lessons that apply to a future crewed Mars lander, such as: operations experience in a challenging and dynamic environment, operating and refueling out of orbit, long-duration cryogenic propulsion, and terminal descent navigation, guidance and control.
To learn more about the Lockheed Martin’s crewed reusable lunar lander concept, visit:
- Lander animation: https://vimeo.com/293133933
- Lander illustrations: https://www.flickr.com/photos/lockheedmartin/albums/ 72157671935059557
- Lander white paper: https://www.lockheedmartin.com/content/dam/lockheed-martin/space/documents/ahead/LM-Crewed-Lunar-Lander-from-Gateway-IAC-2018-Rev1.pdf
About Lockheed Martin
Headquartered in Bethesda, Maryland, Lockheed Martin is a global security and aerospace company that employs approximately 100,000 people worldwide and is principally engaged in the research, design, development, manufacture, integration and sustainment of advanced technology systems, products and services. This year the company received three Edison Awards for ground-breaking innovations in autonomy, satellite technology and directed energy.