There is no possible way the cleanup ship will get more delta-v from expelling the debris, than would be consumed by the mass and complexity of the equipment needed to handle such forces. Current engineering will leave an energy/efficiency gap of *several* magnitudes between them. We haven't managed to make this work with small, carefully-machined uniform masses. Debris will be in wildly varying shapes, sizes and materials....Cool idea, but it runs headlong into engineering capability at our current ability.
There is no posible way the cleanup ship will get more delta-v from expelling the debris, than would be consumed by the mass and complexity of the equipment needed to handle such forces. Current engineering will leave an energy/efficiency gap of *several* magnitudes between them. We haven't managed to make this work with small, carefully-machined uniform masses. Debris will be in wildly varying shapes, sizes and materials.
Also:VASIMR propulsion and Solar power are incompatible, also by magnitudes. It can be very efficient, yes, but requires HUGE power input, or HUGE patience for maneuvers. More patience than anything on Earth orbit will have.
This is actually a form of ISRU, recycling available ambient mass into usable reaction mass.
My main concern is what happens to the reaction mass. I'm not sure if the expelled particles can safely whiz around on their new vectors without becoming collision problems themselves unless they've been reduced to molecular dimensions. It could also be that it would make more sense to have separate specialized spacecraft for each function, rather than a Swiss Army knife version to do it all.
Remember that this does not give you any 'free' propulsion. You need to use on-board deltaV to match velocities with the target debris to start with, and once you have done that you need to expend additional energy to modify the delta-V of both the debris and your 'catcher' craft (and this will be a combination of the deltaV added to the debris and the deltaV added to the catcher). It changes what mechanism you can use for propulsion (e.g. linear EM accelerator; attach a tether, spin up, then detach in opposing vectors; mechanically compress a spring between objects then release to impart opposing impulses; etc) but TANSTAAFL.
BTW: is it possible to spin up two tethered spacecraft without using rocket propulsion (thrusters)?
And that without spinning the one putting the energy into the process? (This free falling, zero G mechanics is funny sometimes.) Without rocketry the sum of the impulse, spin will not vary for the whole system. It may work, right?
Quote from: jee_c2 on 11/01/2019 02:31 pmBTW: is it possible to spin up two tethered spacecraft without using rocket propulsion (thrusters)?Only by spinning an internal device (reaction wheel) up in the opposite direction. If you include the reaction wheel as a part of your two=spacecraft system, then no*.Quote And that without spinning the one putting the energy into the process? (This free falling, zero G mechanics is funny sometimes.) Without rocketry the sum of the impulse, spin will not vary for the whole system. It may work, right?No free lunches, you cant spin up without inputting momentum. * barring mechanisms like the YORP effect which act over very long periods with very low forces.
I haven't seen deorbiting methods yet, which use the momentum, the moving energy of the debris itself for the repeated process.My idea is to make a bigge r - could be refuelable - space craft, which is using electric propukion (VASIMR could be nice), and is equipped by a longer railgun, or similar device(*), which can generate linear moving energy from electric energy.The deorbiting would look like:1. Approach debris (ie non functioning sat /like StarLink or similar/2. Capture it somehow, there are many proposals for that3. Accelerate it with the help of the railgun* mostly backwards, but also calculating the orbit change necessary for the next target. This will put the debris sat to an orbit, which leads it to denser layers, and so the objective is accomplished. If more is needed, some sort of cross section grower can be attached to the debris, so that fasten the work of the atmospheres top layers.4. RepeatSolar panels should gather energy for the next action. Some sort of reusable energy storage is needed to store the energy. And this is not so easy - ie batteries can be too heavy. But since it is a multi mission orbit sweeper, that also could be an option.Also an engineering challange is the "shooting" of the sat. How to grab it, where the rail should be, how long? Positioning is critical, so center of mass also relative to the gun. And so on.
So, I don't think it is very practical to capture a piece of debris and then accelerate it using a rail gun because your rail gun won't be very long, and thus you won't impart much momentum.
On the other hand, you could use the debris momentum in another way. Attach a tether, and unspool it slowly. Your garbage collector goes up, and the debris goes down. This orbital maneuver has already been proven out in actual space missions. https://en.wikipedia.org/wiki/Space_tether#Momentum_exchange_tethers,_rotating
... Besides, they can just use one of the Psyche based ore guns in a few years.
Quote from: edzieba on 11/01/2019 03:40 pmQuote from: jee_c2 on 11/01/2019 02:31 pmBTW: is it possible to spin up two tethered spacecraft without using rocket propulsion (thrusters)?Only by spinning an internal device (reaction wheel) up in the opposite direction. If you include the reaction wheel as a part of your two=spacecraft system, then no*.Quote And that without spinning the one putting the energy into the process? (This free falling, zero G mechanics is funny sometimes.) Without rocketry the sum of the impulse, spin will not vary for the whole system. It may work, right?No free lunches, you cant spin up without inputting momentum. * barring mechanisms like the YORP effect which act over very long periods with very low forces.Actually, it is common for satellites to use torque rods (basically electromagnets) to exchange angular momentum with the Earth through the magnetic field. This can be used in combination with gyros or reaction wheels to desaturate them if they accumulate too much angular momentum. This can happen for example if a spacecraft is shaped such that atmospheric drag tends to torque it in one direction.https://en.wikipedia.org/wiki/Magnetorquer
People might be underestimating railguns. Check out some of the specs for navy research. Besides, they can just use one of the Psyche based ore guns in a few years.
Actually, I thought a longer rail, which could be assembled in an automated way in orbit (sequential, gradual assembling), after the launch.
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 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.The spacecraft would harness the momentum exchanged during both of these actions to cruise over to the next piece of space junk on its list, minimizing fuel use and extending its operational life to the point that such a mission might be practical.
A notional concept:This concept uses a solar sail to do gradual orbital adjustments to re-target to next debris after pushing off previous debris. Final approach would have to use conventional consumable-fuel thrusters to be practical. The main problem would be balancing the need for a DD/Sail with a mass adequate to accelerate the debris, against low enough mass DD/Sail required to make solar sailing work. Each kick might also prang the sail!
Quote from: Nomadd on 11/01/2019 06:07 pm... Besides, they can just use one of the Psyche based ore guns in a few years.You mean plasma rail gun? I could not find "Psyche based ore guns" on the net.
Quote from: BeamRider on 11/02/2019 08:23 pmA notional concept:This concept uses a solar sail to do gradual orbital adjustments to re-target to next debris after pushing off previous debris. Final approach would have to use conventional consumable-fuel thrusters to be practical. The main problem would be balancing the need for a DD/Sail with a mass adequate to accelerate the debris, against low enough mass DD/Sail required to make solar sailing work. Each kick might also prang the sail!That addresses a key point with most of these concepts. They are only good for a few pieces of debris before they run out of fuel, hence my suggestion about using ion thrustersSince you have control of the approach to the debris object the logical approach would be to allow time to fold up the solar sail so its it's able to handle the shock load when the compressed spring is released. An alternative would be to build the sail capable of resisting the load but I suspect that would make it too heavy.BTW this principle of using a compressed spring was used in a British WWII anti tank weapon called the PIAT AKA a "recoiless mortar"