Getting rid of nuclear is stupid but so is adding new nuclear. Firmed renewables with lithium ion batteries and pumped hydro makes the most financial sense since the 2020s, especially in the US which has less seasonal solar resources than Europe.
I’d love to know how it’s possible to supply peak demand in the UK on a still day in January purely from renewables and storage. Especially if you consider that demand is also going to have to increase massively to decarbonise heating, transport etc
Europe is more challenging than US due to lower average solar irradiance per sqm combined with more seasonal variability in solar availability. Probably overbuilding wind in diversified locations since the correlation drops off with the square of distance I believe. Denmark's grid would be a template of what to expect. Transmissions with neighbors would help a lot given the decorrelation.
This is extremely dishonest unless you carefully and methodically link that high cost to renewables. Iowa is a 60% wind grid with cheaper prices than the national average. Does that one data point make wind energy good, by your logic? This is a serious topic that deserves more than silly internet debate tactics.
The short answer is trivially, but the longer answer is renewables include hydro and biomass not just wind both of which inherently provide long term storage. Having excess solar or wind on Monday means you curtail biomass and hydro for Tuesday. Excess power on Monday through Friday and you have a great deal ready to ramp op over the weekend. 0.01% edge cases don’t need to have anything special just as long as the general case is oversupply.
At the same time Solar is always going to produce some power and the more excess generation you have to charge batteries and curtail hydro etc the higher that minimum worst case generation becomes.
Net result is you don’t need to build some huge battery bank to store energy from sunny days in the summer, you just ‘over build’ cheap generation and eventually you have no need for seasonal storage.
Solar still generates power on cold days. But also, wind and hydro work great even on cold days. And of couse, storage. C'mon. This is a solved issue. "Renewables don't work because it's cold/dark/etc." has been answered for decades.
Are you talking about the typical nuclear plant which is often bespoke, or also considering modular reactor units which have (finally!) seen recent development?
> lithium ion batteries... makes the most financial sense
Correct me if I'm wrong but li-ion is still cost prohibitive for large scale energy storage on the grid. Things like V2G etc can help but those are owned by the drivers/consumers and not the state/electricity corps.
This is the thing about nuclear: the promise of "cheap" power has been made since the 1960s, but very rarely delivered on, and it is not coming down yet, while everyone can see the massive cost collapse for renewables that has already happened and more reasonably project it into the future.
Modular units are firmly in the "I'll believe it when I see it, meanwhile keep the renewables building as fast as possible" category.
(also, everyone has forgotten about proliferation. The fighting around Zhaprozhia did remind a few people about the security risks, though)
> This is the thing about nuclear: the promise of "cheap" power has been made since the 1960s, but very rarely delivered on, and it is not coming down yet, while everyone can see the massive cost collapse for renewables that has already happened and more reasonably project it into the future.
Part of this is because of how absolutely f-ed up research in fission has been over the decades.
There is this graph if you can find it showing how much money was estimated to be spent on R&D, vs how much was actually spent. Basically by the 1980s or 90s, if investments were made, nuclear would've been much cheaper today. There's a bunch of things more, but it's not that nuclear is inherently expensive more than the fact that you need to spend money first to save it.
Modular reactor units only cover the least expensive part of nuclear power plants. They still need fuel enrichment, cooling towers, turbines, complex plumbing, containment buildings, huge workforces, security perimeters, spent fuel pools, dry casks, etc.
People play on the words ‘reactor’ but modular reactors themselves don’t actually solve any pressing issues and at least currently just cost more.
It's a pretty large world. I'm okay with some entities putting time into making nuclear cheaper and more viable and adding a few new plants to add to our general power grid resilience. I think that could be worthwhile.
But yeah, the people who are trying to claim that nuclear is the only viable renewable energy solution to climate change haven't been paying attention to renewable energy advances in the past 10-15 years, and/or have been ignoring the massive budget and time overruns pretty much all nuclear plants have had in the past couple of decades, especially in developed nations that are trying to make sure they're built in a safe way.
You are choosing to completely ignore reality. Many entire countries are moving to entirely renewable. My home and EVs are powered almost entirely by our home solar and batteries, and I live in Michigan.
We would be powered 100% by solar but our laws here allow the utility to limit the size of our system.
Sorry but you're stuck in the past and have failed to update with new information. Pull up a graph of renewables levelized cost of electricity, and lithium ion grid scale storage cost per kWh, over the last 20 years, and note change. Renewables are contributing massively today, look at ERCOT or CAISO today. CAISO has about 15 GWh of storage deployed already and will deploy more soon. It's not theoretical. And this contribution of renewable to the grid will grow exponentially as costs keep declining and funding keeps increasing. You were absolutely correct 20 years ago where renewables used to be more expensive and grid scale storage didn't exist, but costs have changed.
