Easy to say "send robotic satellites out to mine". How does that work? Six or seven insoluble problems there. How to get the robots a billion feet to the mine site? How to concentrate enough energy to actually do any effective mining? Where does the energy come from? You didn't drag a gas can that whole way.
Spare parts - the store is a billion feet away. How to install them - robots? Who fixes the robots? How many robots does it take to keep the whole machine running? It takes 70 tents to get to the top of Mt Everest - a trivial endeavor in comparison. 70 tents - to get 1 tent to the last base camp with oxygen bottles enough to make the final ascent. All the other tents are to hold the tents and oxygen bottles to get you to the next base camp.
What about dust? Mining is dirty. The dust isn't going to 'blow away', or even settle. Its just going to collect in an ever-denser fog directly around the mining site. Grit particles from sand-sized down to microscopic. Getting into everything. Clogging up every joint and piston. Got to address that.
How to boost the ore back to earth? Or smelt in on-site - with what energy? Maybe drag the asteroid back to earth - again, with what energy? Maybe just drag it halfway back (or 2/3?) - now the ore/spare parts trip is half as long. Huge optimization problem there - must be solved.
Ok, solve all that - robots repairing robots, parts shuttling back and forth, smelting and hauling... finally we have pure metal in orbit around Earth. Yay! Oh...how do we get it down? Drop it in a lake? Not my lake! Make landers out of it? With what factories? Another entire industry just to get the damned stuff on the ground so we can make those palladium pop cans or whatever.
Each problem is an entire industry, requiring problem solving on a stellar scale. Lots of mistakes, lots of money down the drain, all for metal that we already have lots of a few thousand feet away already - in the earth's core.
Hey! Why not just do deep-core mining - the robots are only a few milliseconds away, not millions. The ore need only be hauled feet, not parsecs. Spare parts are down the road.
Anyway, yes, its completely far-fetched to do asteroid mining. All the engineering we have done as a race is small compared to the obstacles to be overcome. The concentrated effort requires a century of focus and probably trillions of dollars or rupees or whatever.
You've made a lot of arguments along the line of "it's difficult difficult difficult" but haven't given a specific example of why it can't be done. What do you think of self-driving cars? That was difficult too, and basically the same kind of problem (autonomous navigation). In fact, it's probably easier than robocars since it's much emptier up there.
The hardest part is building satellites in space, which they haven't said they will do (but I think is possible, as described in the 1980 study).
Start from fundamentals I guess. One hard issue is energy density. Boosting significant energy to distant reaches of the solar system is prohibitively expensive (we've never done it in human history). Generating it there is unlikely - the solar energy density is miniscule because of the distance (asteroid belt is 3 times more distant than earth; energy density is 1/9th per square).
Spare parts - the store is a billion feet away. How to install them - robots? Who fixes the robots? How many robots does it take to keep the whole machine running? It takes 70 tents to get to the top of Mt Everest - a trivial endeavor in comparison. 70 tents - to get 1 tent to the last base camp with oxygen bottles enough to make the final ascent. All the other tents are to hold the tents and oxygen bottles to get you to the next base camp.
What about dust? Mining is dirty. The dust isn't going to 'blow away', or even settle. Its just going to collect in an ever-denser fog directly around the mining site. Grit particles from sand-sized down to microscopic. Getting into everything. Clogging up every joint and piston. Got to address that.
How to boost the ore back to earth? Or smelt in on-site - with what energy? Maybe drag the asteroid back to earth - again, with what energy? Maybe just drag it halfway back (or 2/3?) - now the ore/spare parts trip is half as long. Huge optimization problem there - must be solved.
Ok, solve all that - robots repairing robots, parts shuttling back and forth, smelting and hauling... finally we have pure metal in orbit around Earth. Yay! Oh...how do we get it down? Drop it in a lake? Not my lake! Make landers out of it? With what factories? Another entire industry just to get the damned stuff on the ground so we can make those palladium pop cans or whatever.
Each problem is an entire industry, requiring problem solving on a stellar scale. Lots of mistakes, lots of money down the drain, all for metal that we already have lots of a few thousand feet away already - in the earth's core.
Hey! Why not just do deep-core mining - the robots are only a few milliseconds away, not millions. The ore need only be hauled feet, not parsecs. Spare parts are down the road.
Anyway, yes, its completely far-fetched to do asteroid mining. All the engineering we have done as a race is small compared to the obstacles to be overcome. The concentrated effort requires a century of focus and probably trillions of dollars or rupees or whatever.