this post was submitted on 07 Aug 2023
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[–] [email protected] 1 points 1 year ago* (last edited 1 year ago) (32 children)

@Ardubal @MattMastodon @BrianSmith950 @Pampa @AlexisFR @Wirrvogel @Sodis As I already mentioned, California has 2.5GW of batteries today. And credible half hourly models suggest that you only need hours of storage to get up to approximately 98%.

There are lots of ways to solve intermittency. Nuclear is one strategy that potentially works, but still needs short term storage - modern designs can vary load, but not quickly.

3x renewables plus a few hours storage is likely fine. So is a lot of nuclear. Hydrogen or iron-air *might* make the whole thing much cheaper, but indeed are immature technologies. More interconnectors are mature technology that always makes it easier, but are not enough on their own; dynamic demand is helpful and semi-proven.

But building "too much" renewables while we wait for nuclear is fine. Because most likely that nuclear will never be delivered. At least not in the UK. And as I understand it the supply chains don't really overlap. But above all because *it's the total carbon emitted that matters*. We're on a deadline.

I see no obvious reason to expect that the UK can build large amounts of nuclear quickly, even if there was the political will to do so. Successive governments have tried and failed. On recent progress, by 2050, if we're lucky, we might have 3 more 3GW plants running, which is nowhere near current demand, let alone future demand with electrification.

Even if the government meets its own target of 24GW by 2050, which seems extraordinarily unlikely given the slow progress so far, that will be a lot less than the total peak demand given electrification. So you still need storage.

So I'm not going to campaign to stop building renewables on the basis that one day we *might* build more nuclear.

Having too much renewables is *NOT* a problem, especially when compared to nuclear that will probably never materialise. Worst case, switching off wind and solar farms is much easier than switching off nuclear reactors. Best case, we can export that energy, use it for intermittent energy intensive industrial processes, or store it.

[–] [email protected] 0 points 1 year ago (14 children)
[–] [email protected] 1 points 1 year ago (13 children)

@Ardubal @MattMastodon @BrianSmith950 @Pampa @AlexisFR @Wirrvogel @Sodis Sure, 80s French reactors can. As I understand it, modern PWRs can vary load but relatively slowly.

And in any case it is highly unlikely that we will be able to match *peak* demand with nuclear capacity.

You at least need significant intra-day storage.

[–] [email protected] 0 points 1 year ago (1 children)

@matthewtoad43 @MattMastodon @BrianSmith950 @Pampa @AlexisFR @Wirrvogel @Sodis

Nuclear is faster at load following than everything but pumped hydro and (very dirty) gas peakers. It was even a design requirement for the german Konvoi type in the 70s and 80s.

[–] [email protected] 0 points 1 year ago (1 children)

@Ardubal @MattMastodon @BrianSmith950 @Pampa @AlexisFR @Wirrvogel @Sodis Do you have figures for a modern PWR? Any modern PWR, and specifically EPR1000, since we're likely stuck with that?

In any case, you still need storage, because you won't be able to build capacity to peak demand.

[–] [email protected] 0 points 1 year ago (1 children)

@matthewtoad43 @MattMastodon @BrianSmith950 @Pampa @AlexisFR @Wirrvogel @Sodis

https://en.wikipedia.org/wiki/Load-following_power_plant#Nuclear_power_plants

For a grid of 100 GW peak demand, you either need

- 100 GW nuclear plants, or

- 100 GW storage output, plus (100 GW Γ— storage loss factor) storage input (volatiles or whatever), plus additional transmission capabilities, or

- a combination of 60% nuclear plus, say 10% hydro, plus 30% volatiles

I'd say some variation on the last looks most plausible to me.

[–] [email protected] 1 points 1 year ago* (last edited 1 year ago) (1 children)

@Ardubal @MattMastodon @BrianSmith950 @Pampa @AlexisFR @Wirrvogel @Sodis Well if we're ruling out long term storage (iron-air batteries and hydrogen), maybe 30-40% nuclear, 80% renewables (intentionally over 100%), and a fair bit of lithium storage?

Ultimately this is determined by how much we can build of each technology by the deadline (which ideally is 2030 or 2035). If we can scale up iron-air fast, that'd be great, but there's a lot of uncertainty there. But this also applies to nuclear: How much new nuclear we can build by 2035 is probably quite limited. Whether hydrogen can be significant on that timescale, and whether leaks can be managed, is another big question.

It's worth trying all the plausible technologies (i.e. other than biofuels and fossil+CCS).

PS "volatiles" *already* make up over 30% of the UK's generated kWh. πŸ˜€ So I expect a higher figure.

IMHO the only thing that matters more than the ecological impact of the transition is the *speed* of the transition. Because that determines total carbon emitted. And it determines the carbon intensity of the rest of the transition.

[–] [email protected] 0 points 1 year ago (1 children)

@matthewtoad43 @MattMastodon @BrianSmith950 @Pampa @AlexisFR @Wirrvogel @Sodis

Yes, but I'd like to add that we need to think about lifetimes.

Let's imagine having built all we need in 30 years, through sometimes extreme efforts.

Current solar panels, wind turbines, and batteries have a lifetime of (a bit generously) 30 years. So we'd have to immediately start again with the entire effort just to keep it up. I'm worrying that this might not be … sustainable.

[–] [email protected] 1 points 1 year ago (1 children)

@Ardubal @MattMastodon @BrianSmith950 @Pampa @AlexisFR @Wirrvogel @Sodis Fortunately we will have time to work on that. There is plenty of existing renewable plant coming to the end of its service life for us to work on recycling.

Also, hopefully longer term we move towards more rooftop solar rather than farm scale, though of course the amount of land used by solar is insignificant. Short term, farm scale is easy to install; long term, rooftop could be a requirement of construction.

Just as important, once we reach 95%+ renewable electricity, the ecological cost of building new stuff, whether recycled or not, drops dramatically.

Do we want to move towards more nuclear in the long run? Maybe so. On the other hand, the cost of renewables will continue to come down, and it's reasonable to expect the same is true of storage.

[–] [email protected] 1 points 1 year ago (2 children)

@Ardubal @MattMastodon @BrianSmith950 @Pampa @AlexisFR @Wirrvogel @Sodis Also I expect demand to drop somewhat in the long term. Unfortunately the more serious degrowth measures will take decades, and the peak demand from heating and EVs means we will need a lot more electricity in 2040 than we have today.

[–] [email protected] 1 points 1 year ago* (last edited 1 year ago) (1 children)

@Ardubal @MattMastodon @BrianSmith950 @Pampa @AlexisFR @Wirrvogel @Sodis There is also the near-absolute worst case scenario where outdoor agriculture becomes untenable due to wildly inconsistent post-climate weather and the "land sharing vs land sparing" debate is forced down the land sparing route, i.e. if most food can only be grown in heated greenhouses, we'll need vast amounts of energy. In that scenario we may well need more nuclear. But if it's that bad that fast I have my doubts that civilisation can survive the transition; that sort of agriculture is very capital intensive as well as energy intensive, although it is higher yield and makes space for rewilding, and potentially could be our only option if things get really bad.

PS I am not endorsing climate controlled indoor agriculture here. I don't have a clear view on the land sharing vs land sparing thing. I know which side most "degrowth" people would take though.

[–] [email protected] 0 points 1 year ago (1 children)

@matthewtoad43 @MattMastodon @BrianSmith950 @Pampa @AlexisFR @Wirrvogel @Sodis

I think you do not realize how much of our population only exists because of Haber and Bosch.

[–] [email protected] 1 points 1 year ago

@Ardubal @matthewtoad43 @BrianSmith950 @Pampa @AlexisFR @Wirrvogel @Sodis

This is a very important observation.

We have the luxury of debate over #renewables vs #nuclear. If we could meet 100% of our energy need through nuclear that would at least be a problem solved.

We have many other problems - eg food production

Whether is it fertiliser production, replacing dirty tractors and oil based transport & shipping. Or coping with increased #climate volatility.

We need solutions here fast.

[–] [email protected] 0 points 1 year ago (1 children)

@matthewtoad43 @MattMastodon @BrianSmith950 @Pampa @AlexisFR @Wirrvogel @Sodis

Sorry, but the term Β»degrowthΒ« is a red flag for me.

Sure, we are getting more efficient over time. That's why even Germany's emissions fell over the last two decades.

But cutting power that is actually needed means poverty, and that will immediately end support for long-term thinking as well as severely limit our technical options.

There are too many people for romantic visions of rural self-sufficiency.

[–] [email protected] 1 points 1 year ago

@Ardubal @matthewtoad43 @BrianSmith950 @Pampa @AlexisFR @Wirrvogel @Sodis

'#degrowth is a red flag for me' - seems an odd thing to say.

It is not a new idea that humanity is meeting it's natural limits and will have to cut it's cloth & that the #climatecrisis challenge should be shouldered equally.

In some ways degrowth has already happened in #energy where we are using less energy than was predicted through demand side measures.

Degrowth sounds interesting to me.

https://donellameadows.org/

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