Very unlikely. Nuclear (in the West) hasn't been expanded in the last 30 years, partially due to overblown safety concerns but also due to cost issues. There has been no hugely successful nuclear build, all that tried took almost as long as the renewable industry has existed in any real sense and cost absurd amounts of money. Looking at other large german projects during that timeframe, it's unlikely there would have been more than one plant opening. The hope of nuclear advocates is that by increasing economies of scale in production and reducing it on the individual plant level the economics of NPP will work out in future. I'm highly doubtful but hope they're successful.
> Wind and solar themselves are highly volatile and require an additional stable energy source like coal or nuclear.
For wind and solar to make sense, you need complimentary power sources. Wind and solar do have very complimentary characteristics (night/day as well as winter/summer), but not perfectly. This means "base load" power sources which should run as much as possible like (lignite and somewhat black) coal or especially nuclear work very badly (economically), due to the high cost of the plant and low utilization factor. B
In a fully renewable grid, most of the day power will solely come from wind and solar, probably with batteries filling the gaps during morning and evening and some form of long term storage like P2G/Hydrogen/... will cover dunkelflauten (time spans without solar nor wind) during winter. There should be overproduction during most of the time.
In an almost fully nuclear grid, solar might be used during summer to cover ACs or similar things, but storage is still required to avoid needing build enough NPPs to supply peak power usage. France uses large amounts of hydrostorage on the alps and the european power grid to reduce the NPP overcapacity needed during the day.
This is in contrast to gas, most forms of hydroelectricity, batteries or (hopefully) P2G/Hydrogen, whose costs primarily scale with the amount of energy, not power.
Building an grid almost only based on nuclear and wind/solar without some form of flexible generation is economically nonsensical. Both can be used in the same grid to some amount, but don't complement each other well.
Very unlikely. Nuclear (in the West) hasn't been expanded in the last 30 years, partially due to overblown safety concerns but also due to cost issues. There has been no hugely successful nuclear build, all that tried took almost as long as the renewable industry has existed in any real sense and cost absurd amounts of money. Looking at other large german projects during that timeframe, it's unlikely there would have been more than one plant opening. The hope of nuclear advocates is that by increasing economies of scale in production and reducing it on the individual plant level the economics of NPP will work out in future. I'm highly doubtful but hope they're successful.
> Wind and solar themselves are highly volatile and require an additional stable energy source like coal or nuclear.
For wind and solar to make sense, you need complimentary power sources. Wind and solar do have very complimentary characteristics (night/day as well as winter/summer), but not perfectly. This means "base load" power sources which should run as much as possible like (lignite and somewhat black) coal or especially nuclear work very badly (economically), due to the high cost of the plant and low utilization factor. B
In a fully renewable grid, most of the day power will solely come from wind and solar, probably with batteries filling the gaps during morning and evening and some form of long term storage like P2G/Hydrogen/... will cover dunkelflauten (time spans without solar nor wind) during winter. There should be overproduction during most of the time.
In an almost fully nuclear grid, solar might be used during summer to cover ACs or similar things, but storage is still required to avoid needing build enough NPPs to supply peak power usage. France uses large amounts of hydrostorage on the alps and the european power grid to reduce the NPP overcapacity needed during the day.
This is in contrast to gas, most forms of hydroelectricity, batteries or (hopefully) P2G/Hydrogen, whose costs primarily scale with the amount of energy, not power.
Building an grid almost only based on nuclear and wind/solar without some form of flexible generation is economically nonsensical. Both can be used in the same grid to some amount, but don't complement each other well.
EDIT: https://jeromeaparis.substack.com/p/the-duck-in-the-room-the... explains the duck curve and the issues for base load power sources because of it nicely