A proposed space-junk removal system would hop from one piece of debris to the next without burning much fuel, potentially making a de-clutter mission economically feasible with current technologiy.
The TAMU Space Sweeper with Sling-Sat, or 4S for short, would harness the momentum imparted by capturing and ejecting one object to slingshot on to the next chunk of space junk, its developers say.
“The goal of this mission is to remove as many pieces of debris with the minimum amount of fuel,” said Daniele Mortari of Texas A&M University.
Earth is surrounded by a huge and ever-growing cloud of orbital debris — stuff like spent rocket bodies, dead spacecraft and the fragments generated when these objects collide. [The Expanding Danger of Space Junk (Video)]
This cloud of junk poses a threat to the satellites and spacecraft circling our planet, including theInternational Space Station, and many researchers say humanity must act soon to prevent the problem from really getting out of hand.
“It is well understood that we are past the point of no return. Relying solely on improved tracking and avoidance is not enough … it is simply a technical form of sticking your head in the sand and crossing your fingers,” Texas A&M PhD student Jonathan Missel told SPACE.com. “We are at a point where the problem needs to be solved, with active removal, not just avoided.”
“While they are interesting to think about, they are often threatening to operating satellites, or need technological advances that are decades out,” Missel said of some of the more ambitious offerings.
The most technically and politically sound idea is a simple rendezvous mission, during which a clean-up craft would travel to and de-orbit debris objects one at a time, Missel said. But such a mission would burn loads of fuel to get between widely spaced targets, making it “fatally plagued by inefficiency,” he added.
The 4S system, which Missel and Mortari are developing, aims to correct this fatal flaw. It would snare debris at the end of a spinning satellite, then fling the object down to burn up in Earth’s atmosphere.
Work on 4S this year includes looks at hardware options, Mortari said, and further optimization of the idea.