Some key insights from the article:
Basically, what they did was to look at how much batteries would be needed in a given area to provide constant power supply at least 97% of the time, and the calculate the costs of that solar+battery setup compared to coal and nuclear.
I think Lazard’s LCOE methodology looks at the entire life cycle of the power plant, specific to that power plant. So they amortize solar startup/decommissioning costs across the 20 year life cycle of solar, but when calculating LCOE for nuclear, they spread the costs across the 80 year life cycle of a nuclear plant.
Nuclear is just really, really expensive. Even if plants required no operating costs, the up front costs are so high that it represents a significant portion of the overall operating costs for any given year.
The Vogtle debacle in Georgia cost $35 billion to add
2 MW2GW (edit to fix error) of capacity. They’re now projecting that over the entire 75 year lifespan the cost of the electricity will come out to be about $0.17 to $0.18 per kilowatt hour.Subsidize it like you do oil, there, solved.
Vogtle’s numbers are incredibly biased considering they made an entire design and then had to redo it halfway through that’s not a realistic cost that can be expected for future projects. We also have vogtles design be approved now so that new plants can be built for a fraction of the cost. Also where did you see they did amortization of solar?
I’m just familiar with Lazard’s LCOE methodology. The linked paper talks about LCOE, so that’s just how that particular cost analysis works.
2gw, but yes, before any operational/maintenance costs that is $17.5/watt. Solar is under $1/watt, and sunny AF.