They describe these as giant concrete spheres, but there are (obviously) pumps and turbines involved too, and that those are aimed at a 20-year partial part-replacement lifespan. There’s no indication as to how much these pumps/turbines will cost but I’m gonna guess probably more than the cost of the concrete since it’s relatively cheap in comparison, and that’s before you consider that the major wearing components (which is to say, the expensive stuff) will have to be replaced twice within the intended lifespan. And that’s not accounting for things that break and need to be replaced, inside of a giant concrete sphere on the bottom of the ocean where maintenance will be absurdly expensive. Needless to say I’m pretty skeptical of the economic viability of this project. I’d be happy to be proven wrong, but I’m not holding my breath.
i agree with all of this except, you know, when they will have to do maintenance … i guess they will be (they would be) more simply hauling the whole thing out to work at the surface of the sea … in this scenario the mechanical components would be at the top of the sphere and out of the water.
Yeah, so instead of sending down divers with equipment you’re hauling hundreds of tons of concrete out of the sea, which means aside from a ship and crew which you’d need anyway you’re still going to need specialized equipment (some big honkin’ chains and winches at a minimum) and tools and such, and that stuff isn’t cheap either. Also they’re aiming at a 20 year partial replacement cycle for parts that are going to be submerged in or otherwise exposed to sea water which is notoriously corrosive, some of which will be at fairly high pressure (otherwise the turbines will be less efficient), that seems optimistic at best, even if nothing breaks before the scheduled replacement time, and you certainly can’t count on that.
They describe these as giant concrete spheres, but there are (obviously) pumps and turbines involved too, and that those are aimed at a 20-year partial part-replacement lifespan. There’s no indication as to how much these pumps/turbines will cost but I’m gonna guess probably more than the cost of the concrete since it’s relatively cheap in comparison, and that’s before you consider that the major wearing components (which is to say, the expensive stuff) will have to be replaced twice within the intended lifespan. And that’s not accounting for things that break and need to be replaced, inside of a giant concrete sphere on the bottom of the ocean where maintenance will be absurdly expensive. Needless to say I’m pretty skeptical of the economic viability of this project. I’d be happy to be proven wrong, but I’m not holding my breath.
i agree with all of this except, you know, when they will have to do maintenance … i guess they will be (they would be) more simply hauling the whole thing out to work at the surface of the sea … in this scenario the mechanical components would be at the top of the sphere and out of the water.
Yeah, so instead of sending down divers with equipment you’re hauling hundreds of tons of concrete out of the sea, which means aside from a ship and crew which you’d need anyway you’re still going to need specialized equipment (some big honkin’ chains and winches at a minimum) and tools and such, and that stuff isn’t cheap either. Also they’re aiming at a 20 year partial replacement cycle for parts that are going to be submerged in or otherwise exposed to sea water which is notoriously corrosive, some of which will be at fairly high pressure (otherwise the turbines will be less efficient), that seems optimistic at best, even if nothing breaks before the scheduled replacement time, and you certainly can’t count on that.
I’d assume they’d put these pretty close to the surface, lowers the water pressure and makes it more accessible
If you read the article it includes this line:
The pressure is needed to drive the turbine, cause just gently-flowing water isn’t going to cut it.