Rise of the megaconstellations breathes life into active debris removal schemes – spacenews.com

For years, efforts to capture space debris and remove it from orbit faced a conundrum: Who would pay for the service? Little government funding is available. Insurers are not stepping up. And individual satellite operators showed little interest because while the problem is growing, the threat to any single spacecraft remains incredibly small.

Finally, entrepreneurs and space policy experts think they have an answer. The megaconstellations promising global broadband service are heightening concern about orbital debris and creating demand for space-based trash collection. Dan Ceperley, chief executive and co-founder of LeoLabs Inc.

“We are going through a once in a lifetime revolution,” said Dan Ceperley, chief executive and co-founder of LeoLabs Inc., a startup offering satellite operators collision avoidance and debris-mapping services.

“The number of active satellites is increasing dramatically and these large constellations with a lot of satellites in roughly the same altitudes have a different collision risk than prior users of space with fewer satellites more spread out,” Ceperley said in February at the SmallSat Symposium in Mountain View, California.

“The average failure rate of satellites launched is about 10 percent,” said Theresa Hitchens, senior research associate at the University of Maryland’s Center for International and Security Studies. “Ten percent of these constellations is a lot of dead things.”

First up is RemoveDEBRIS, an initiative led by the University of Surrey and 10 international partners, including Surrey Satellite Technology Ltd. (SSTL) and Airbus Defense and Space, and sponsored by the European Commission and the Surrey Space Center.

On April 2, a SpaceX Falcon 9 rocket and Dragon cargo capsule delivered the 100-kilogram RemoveDEBRIS satellite and two cubesats to the International Space Station, where they will be stored for weeks until the NaoRacks Kaber microsatellite deployer sends them into orbit.

Once in orbit, the RemoveDEBRIS spacecraft will demonstrate four technologies for debris removal. It will observe and approach the target cubesats using cameras and lidar. It will catch one cubesat with a net and send a harpoon through a plate made of satellite panel materials to demonstrate how that type of weapon would work in space. Then, the RemoveDEBRIS satellite will attach a large drag sail to a cubesat to reduce its orbital velocity and speed its reentry in Earth’s atmosphere, Guglielmo Aglietti, Surrey Space Center director, said by email. Astroscale

Astroscale, a startup based in Singapore that conducts research and development in Tokyo, plans to offer end-of-life services to large constellation operators who take steps before they launch satellites to make them easier to retrieve in orbit.

Satellite operators traditionally save fuel for the end of their space missions when they are ready to dispose of satellites. “But if that satellite fails in orbit and is not able to perform that end-of-life service, we think satellite operators should have a backup deorbit mechanism on all the satellites they launch,” Chris Blackerby, Astroscale chief operating officer, said at the SmallSat Symposium.

Astroscale plans to demonstrate its technology in late 2019 with its ELSA-d, or End of Life Service Astroscale-demonstration, mission. In that mission, Astroscale’s “chaser” satellite will launch attached to a small satellite built by SSTL. In orbit, the two satellites will separate and perform a series of demonstrations showing, for example, that the chaser can approach the small satellite and grab it with high-performance magnets.

After Astroscale begins serving constellation operators, the firm will tackle the more challenging job of picking up failed satellites and spent rocket stages for space agencies or intergovernmental organizations, Blackerby said. CleanSpace One

The leaders of CleanSpace One, the long-running campaign by the École Polytechnique Fédérale de Lausanne (EPFL) to capture and deorbit its own cubesat, SwissCube, are beginning to work with industrial partners who can turn their technology into a commercial product, said Muriel Richard, CleanSpace One project manager.

“We think the market will materialize in the coming three years and we should do a technical demonstration in 2021 of a commercially viable product, a product that can be replicated at low cost,” said Luc Piguet, an EPFL scientific adviser. “If there’s an affordable service on the market that makes it possible for operators to remove their failed satellites, it becomes much more difficult to justify not doing it.”

EPFL has been working on the CleanSpace One mission since 2012, “which gave us time to vet every possible capture mechanism,” Piguet said. In the end, they settled on the “Pac-man” approach, a conical structure resembling a net to envelope its target and place it on a path to atmospheric reentry. E.Deorbit

Until recently, ESA was planning the most ambitious debris removal demonstration: capturing its 8,000-kilogram Envisat environmental-monitoring satellite in 2023 and performing a controlled atmospheric reentry. Now, ESA is exploring synergies between on-orbit servicing and debris removal spacecraft.

“We did not receive the funding to continue [e.Deorbit] but we did get a little funding to study the synergy between e.Deorbit and space servicing vehicles,” said Luisa Innocenti, head of ESA’s Clean Space Office. “The question is if we modify it a bit, would this vehicle be more flexible and be able to do in-orbit servicing?”

In 2017, Siegfried Janson, an Aerospace senior scientist, won a two-year NASA Innovative Advanced Concepts award worth about $500,000 to continue developing Brane Craft, a flat, flexible spacecraft, measuring one square meter that is designed to envelope debris and remove it from orbit.