Asteroid Mining Company's 1st Satellite Launches from Space Station

Arkyd 3 Reflight
The Arkyd 3 Reflight spacecraft, shown here with Planetary Resources employees, was successfully launched from the International Space Station July 16 to begin its 90-day mission. The satellite will test technology for future asteroid mining spacecraft. (Image credit: Planetary Resources)

A private spaceflight company took one small step for asteroid mining this week with the launch of its first spacecraft to test technology that may one day help tap into the riches of the solar system.

The Arkyd 3 Reflight spacecraft, a small satellite built by the space-mining company Planetary Resources, launched from the International Space Station on Thursday (July 16), beginning a 90-day mission to test the avionics, control systems and software needed to make asteroid mining possible.

Planetary Resources first tried to launch a version of the satellite into orbit last October, but that spacecraft was lost when the commercial Antares rocket carrying it and supplies for the space station exploded shortly after liftoff. But a new incarnation, Arkyd 3 Reflight, made it up to the station earlier this year and is now set to begin testing the technology that will be needed on mining spacecraft. [Asteroid Mining: Planetary Resources' Plan in Pictures]

Arkyd 3 Reflight, or A3R as its builders call it, was delivered to the space station in April on a commercial Dragon spacecraft launched by SpaceX. It is the first in a chain of test satellites Planetary Resources plans to send skyward.

"Our philosophy is to test often, and if possible, to test in space," Chris Lewicki, president and chief engineer at Planetary Resources, said in a statement. "The A3R is the most sophisticated, yet cost-effective, test-demonstration spacecraft ever built. We are innovating on every level from design to launch."

The spacecraft is small, but mighty: At just 12 by 4 by 4 inches (30 by 10 by 10 centimeters), it will test key systems and control schemes that will allow later craft to land on asteroids to extract water and minerals. Eric Anderson, co-founder and co-chairman of Planetary Resources, said in the statement that the mining technologies could also help monitor and manage Earth's valuable resources.

The Arkyd 6 satellite will launch later this year to test control, power, communication and avionics systems for asteroid mining. (Image credit: Planetary Resources)

Later this year, once the satellite completes its 90-day mission, Planetary Resources will send up another satellite: the Arkyd-6, which will be twice as large and will test even more systems needed for the asteroid-mining process, representatives said.

The new satellite will bring along an infrared imaging system to measure temperatures and help identify and measure water and water-bearing minerals. Researchers will test the system out by measuring areas on Earth to see how it would perform analyzing an asteroid. Eventually, it could be a key step to finding water-rich asteroids. Water extracted from the asteroids could potentially be manufactured into propellant on the fly, because the key components of rocket fuel are hydrogen and oxygen.

"The successful deployment of the A3R is a significant milestone for Planetary Resources as we forge a path toward prospecting resource-rich asteroids," Peter Diamandis, Planetary Resources' other co-founder and co-chairman, said in the statement. "Our team is developing the technology that will enable humanity to create an off-planet economy that will fundamentally change the way we live on Earth."

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Sarah Lewin
Associate Editor

Sarah Lewin started writing for in June of 2015 as a Staff Writer and became Associate Editor in 2019 . Her work has been featured by Scientific American, IEEE Spectrum, Quanta Magazine, Wired, The Scientist, Science Friday and WGBH's Inside NOVA. Sarah has an MA from NYU's Science, Health and Environmental Reporting Program and an AB in mathematics from Brown University. When not writing, reading or thinking about space, Sarah enjoys musical theatre and mathematical papercraft. She is currently Assistant News Editor at Scientific American. You can follow her on Twitter @SarahExplains.