NASA has awarded a $6.9 million contract to Seattle-based Interlune for the development of a system that can extract gases such as helium-3 and hydrogen from lunar soil and rocks.
The system will be developed and tested on Earth under the terms of an 18-month Small Business Innovation Research Phase III grant, and then launched to the moon on a commercial robotic lander in 2028. Interlune says the project meshes with its plan to extract and market lunar helium-3 for applications on Earth ranging from quantum computing and medical imaging to neutron detection and commercial nuclear fusion.
“We’re gathering data and advancing technologies that serve multiple purposes across industry and government,” Rob Meyerson, co-founder and CEO of Interlune, said today in a news release. “NASA’s continued investment in space technology enables technology development projects like this one to ensure America’s leadership in building the lunar economy.”
Interlune’s payload will include a robotic arm and scoop to gather up moon dirt (technically known as regolith), a particle-sorting device, hardware for heating up lunar material and harvesting the gases that are given off, a multispectral camera capable of determining helium-3 concentrations, and a mass spectrometer that can analyze the gases.
“For the first time ever, we will measure volatile gases by heating lunar regolith while on the moon, dramatically advancing the scientific community’s understanding of its properties,” Interlune chief scientist Elizabeth Frank said. “The data we collect will also tell us how much power is needed to extract resources like helium-3.”
