NASA is getting ready to send astronauts to explore more of the Moon as part of the Artemis program, and the agency has selected SpaceX to continue the development of the first commercial human lander that will safely carry the next two American astronauts to the lunar surface.
Any doubt on NASA’s decision, which was also considering the bids presented by the Blue Origin-Lockheed Martin partnership, was mainly just on paper. While Blue Origin has been making progress, SpaceX has clearly demonstrated that the company is much farther ahead in its development of landing systems, by both commercially landing dozens of Falcon 9 rockets and by rapidly progressing with the Starship program.
Now it’s time to test these systems on a Moon landing and take off with the delivery of humans to the Moon’s surface. At least one of those astronauts will make history as the first woman on the Moon. Another goal of the Artemis program includes landing the first person of color on the lunar surface. They will arrive to Earth’s natural satellite after a three-day trip aboard the Orion Capsule, which is going to be launched into space by the SLS (Space Launch System) rocket. All these systems, which are approaching the final stages of development and testing, make intensive use of AM for both development and final parts, as amply documented by this portal.
After they reach the Moon’s orbit, two crew members will transfer to the SpaceX human landing system (HLS) for the final leg of their journey to the surface of the Moon. After approximately a week exploring the surface, they will board the lander for their short trip back to orbit where they will return to Orion and their colleagues before heading back to Earth. The firm-fixed-price, milestone-based contract total award value is $2.89 billion.
“With this award, NASA and our partners will complete the first crewed demonstration mission to the surface of the Moon in the 21st century as the agency takes a step forward for women’s equality and long-term deep space exploration,” said Kathy Lueders, NASA’s associate administrator for Human Explorations and Operations Mission Directorate. “This critical step puts humanity on a path to sustainable lunar exploration and keeps our eyes on missions farther into the solar system, including Mars.”
SpaceX has been working closely with NASA experts during the HLS base period of performance to inform its lander design and ensure it meets NASA’s performance requirements and human spaceflight standards. A key tenet for safe systems, these agreed-upon standards range from areas of engineering, safety, health, and medical technology areas.
“This is an exciting time for NASA and especially the Artemis team,” said Lisa Watson-Morgan, program manager for HLS at NASA’s Marshall Space Flight Center in Huntsville, Alabama. “During the Apollo program, we proved that it is possible to do the seemingly impossible: land humans on the Moon. By taking a collaborative approach in working with industry while leveraging NASA’s proven technical expertise and capabilities, we will return American astronauts to the Moon’s surface once again, this time to explore new areas for longer periods of time.”
SpaceX’s HLS Starship, designed to land on the Moon, leans on the company’s tested Raptor engines and flight heritage of the Falcon and Dragon vehicles. Starship includes a spacious cabin and two airlocks for astronaut moonwalks. The Starship architecture is intended to evolve to a fully reusable launch and landing system designed for travel to the Moon, Mars, and other destinations.
NASA also intends to implement a competitive procurement for sustainable crewed lunar surface transportation services that will provide human access to the lunar surface using the Gateway on a regularly recurring basis beyond the initial crewed demonstration mission.
With NASA’s Space Launch System rocket, Orion spacecraft, HLS, and the Gateway lunar outpost, NASA and its commercial and international partners are returning to the Moon for scientific discovery, economic benefits, and inspiration for a new generation. Working with its partners throughout the Artemis program, the agency will fine-tune precision landing technologies and develop new mobility capabilities to enable exploration of new regions of the Moon. On the surface, the agency has proposed building a new habitat and rovers, testing new power systems and more. These and other innovations and advancements made under the Artemis program will ensure that NASA and its partners are ready for human exploration’s next big step—the exploration of Mars.