It is more like being a firefighter and being opposed to airlifting icebergs to drop on fires.
Sure, you'll get water eventually and you might even extinguish a fire; but how long does it take to organise and deliver, what can go wrong in the process, what are the consequences of a mistake like dropping it prematurely, and why are we ignoring the honking great big cheap river right next to the house fire we are fighting?
So this myth is what you need to tell yourself we need nuclear?
https://www.sciencedirect.com/science/article/pii/S036054422...
It uses 8% discount rate for nuclear vs 5% for VRE
It uses the most expensive nuclear reactor costs instead of Korean and Chinese reactors delivered at 3,500–5,000 USD/kW
80% capacity factor for nuclear is very low and should be over 90% for new reactors.
It's least cost mix intentionally excludes nuclear power which is absurd. Standard practice would let the optimizer choose nuclear's share in a hybrid mix. Sepulveda et al. (MIT, Joule 2018; Nature Energy 2021) using exactly this approach repeatedly find firm low-carbon resources (including nuclear) reduce total system cost under deep decarbonization. https://www.eavor.com/wp-content/uploads/2021/11/The-role-of... "Availability of firm low-carbon resources reduces costs 10%–62% in zero-CO2 cases"
They intentionally ignore inter-annual variability which is where dispatchable nuclear is most needed.
It generalizes based on Denmark's unique situation of having some of the best off-shore wind in the world and access to cheap hydro power and storage in Norway and no domestic nuclear supply chain.
The authors are editors of the journal this was published in.
Lund is the creator of EnergyPLAN and cites himself a lot.
This paper just repeats Aalborg group and Breyer's LUT group's anti-nuclear opposition.
Like I said. The costs are 40% lower than Flamanville 3 and 70% lower than Hinkley Point C.
Imaginary cheap and fast to build nuclear power is amazing. It also does not exist. In South Korea those costs are from before the corruption scandal.
In China they are barely building nuclear power. It peaked at 4.7% of their grid mix in 2021 and is now down to 4.3%. For every plan they release the nuclear portion shrinks and is pushed further into the future.
Then I just see you trying to handwave the study away. The entire point is literally to prove that Denmark does not need to rely on its neighbors, and still get a cheaper result.
And like I said. Denmark is the hard case due to the winter sun being awful. As soon as you go south in latitude the problem becomes vastly easier. We’re talking like 99% of the worlds population having more sunlight than Denmark.
It isn't imaginary. Korea and China prove it is possible to build nuclear reactors for reasonable cost when you don't have endless irrational legal opposition that makes them take much longer to build. What IS imaginary is multi-day grid scale storage. All BES are designed with at most 4 hour capacity.
I didn't handwaved away the study I carefully pointed out how it is systematically biased against nuclear which isn't surprising considering how anti-nuclear the authors are.
Denmark isn't nearly as hard of a case as you think because it has some of the most reliable off shore wind power available.
And it's conclusion about Denmark, if correct, cannot be generalized to the rest of the world. You have to have dispatchable power in an electrical grid and that has to come from gas, coal, or nuclear.