It's "mindless" to point out that grid scale energy storage doesn't exist in a discussion about solar + wind + storage being "a compelling alternative to nuclear" which "can be built faster?" GP is making a simple point that these back of the napkin calculations are exactly that; they don't take some factors into account - one being that grid scale energy storage doesn't exist. Where does GP say that "nothing can happen for the first time?" Where in that post is "tendentious and mindless reactionary conservatism?" I don't see any argument at all in GP. That comment is only saying that the calculation relies on technology that doesn't exist. Also, if GP is making an argument with that statement, why is it necessarily that one? Couldn't it be that the argument is that since the time needed to create this technology is either too long or unknown, it may be better to focus or at lest not withdraw from nuclear? If not that argument, why specifically does the argument have to be "nothing can happen for the first time?"
It's mindless in that it doesn't actually point out any specific obstacle. It's just "it hasn't been done yet", as if that means that it can't be done. This is especially annoying when large numbers of people have been looking at the issue and have concluded that there is no such obstacle that would prevent it from scaling out.
And no, the technologies do exist. There is nothing new that has to be invented. They need to be run down their experience curves, but aside from that maturation everything is there.
You've set a new record for absurdity of an HN comment.
No, grid storage does not require violating the laws of physics. Indeed, it doesn't even need 20th century science to be done in a scalable way (see pumped thermal storage). The main problem with grid storage is trying to figure out which of the many possible solutions will come out on top.
For context, suppose Vogtle 3 & 4 generates 2200 MW during 16 hours of winter darkness. That's 35.2 GWh. If you had to replace that with Tesla Powerwalls you'd need 2.6 million of them or 22 copies of Moss Landing Energy Storage Facility (the world's largest). And that's back of the envelope numbers assuming a 100% duty cycle for the batteries and no degradation.
1) grid connections fail sometimes. Do you want people freezing to death in NY when the Texas interconnect goes down for a day or two, or vice versa?
2) regional storms (Florida hurricanes, NY ice storms, etc), periodically take out large swathes of grid and would take out grid interconnections too.
Currently, the scope of the impact of these things is quite limited because everyone also has regional capacity.
But if you’re in a giant storm, you’d be super screwed and the whole region would be blacked out for awhile, because renewables also are impacted by these storms - far more than a gas turbine, for instance.
And that’s not even counting demand spikes and the like due to weather issues (longer than usual hot or cold, etc.)
I was pointing out the real risks involved, and asking them if they were ok with them. Statistically, such a plan would result in that outcome pretty quickly.
Personally I just assumed they had no idea, not that they didn’t care.
Roughly 0% of experts behind more renewables and storage agree with you. But maybe you don't realize that, given that you'd driven them away with this style of argument.
Tell me where those two statements you quoted are materially different (keeping in mind I was including the 0% of experts reply later), if you’d like to continue. Or don’t.
I don't see the difference either*. I would also appreciate you elaborating.
* The parts describing the grid look the same to me, and the percent of experts came from you, when you said 0% of experts agreed with their skepticism.
The referenced plan was to explicitly not do so. And ‘happens every decade or so in the US’ is a lot more frequent than meltdowns, and not very far down the tail as far as such things go.
The hydrogen storage facility at Delta Utah has enough space in the salt formation for 100 caverns, each storing 150 GWh of energy. That's about 30 hours worth (well, maybe less, if that 150 GWh is before conversion to electrical energy, but still this is just one location.)
Combined cycle power plants cost about $1/W; simple cycle, about $0.50/W. Combustion turbines are cheap. A nuclear plant, $10/W.
We could back up the entire damned grid with these things at a cost small compared to the cost of powering that grid with nuclear power plants.
As for "not actually existing yet", that's not anything close to a valid argument. Also, hydrogen storage doesn't require anything new -- all the component technologies exist, they just have to be integrated. This is the easiest and surest kind of innovation. It would be nice if higher demand drive electrolysers down their experience curve some more, I will admit. Cheaper is always nice.
The cost of combustion turbine power plants is well established since so many have been built. The cost of nuclear plants built recently in the west is also readily available.
Given that, it gives me pause that you don't actually know that information, given how eager you are to represent your "knowledge" on this subject.
The costs of creating 100 of those hydrogen storage caverns is completely unknown. You also have to add the cost of power lines to distribute the power to the rest of the country.
What? Creation of storage caverns is certainly well costed, because that's a standard way natural gas is stored. There are 36 such storage caverns for natural gas in the US. The estimated per energy capacity cost of creating such caverns is as little as $1/kWh (when storing hydrogen).
Hydrogen could also be stored in aquifers and depleted natural gas fields, just as natural gas is stored in those.
Hydrogen has already been stored in underground caverns, so it's clearly acceptable.
Geological storage like this involves very thick layers (hundreds or thousands of feet), so the leakage will be low in any case. If geological formations can trap methane for millions of years, they can trap hydrogen for much shorter times.
They're not? I mean, combined cycle plants have been built out the wazoo, so there's good data on that (replacing natural gas with hydrogen causes only minor changes, mostly in the combustor, and there are already industrial combustion turbines burning fuel gases that are mostly hydrogen.) Cost data on recent nuclear builds in the west are also widely available.
I suppose you may be meaning there's no good upper bound on how bad the expected unexpected cost overruns in nuclear can be.
Grid scale energy storage doesn't exist.