> We’re still more than a decade away from having enough batteries to make this shift.
A decade to have significant amounts of battery storage is actually a pretty optimistic timeline compared to nuclear. Nuclear plant construction times are on the order of a decade or (realistically) two decades in the West, if you include planning. In China they're managing 7 years, but their nuclear buildouts, while impressive, aren't trending an upward path when compared to renewables (see chart here [1].) SMRs might change this, but they're years from leaving "research" status and entering the mass-production/learning curves that could make them cost competitive.
This doesn't make me happy. If I thought nuclear was viable on the timelines we have to dampen climate change, I'd be 100% in favor of it. If we could assemble the political will to raise taxes and build nuclear at "wartime" speeds, I'd say go for it. I'm also very much in favor of SMR development, just not willing to bet the house on it.
As it stands, there isn't anywhere near enough nuclear power in the planning pipeline for nuclear to matter much on a 20 year timeline.
In any case, we are not going to a 100% renewable/battery grid in 10 years. The first goal is to get renewables to 90-95% or more of power generation, massively overbuilt with short-term battery storage backed by intermittent fossil fuels for the remaining 5-10%. This will represent a massive reduction in emissions. The last 5-10% will have to be completed over the next couple of decades, and the increasing battery production trend gives hope that it can be.
The worst problem with existing nuclear is that with a 15-20 year planning/construction timeline and the current molasses build rate, new nuclear plants will arrive right at the moment when cheap storage is eating the economic use-cases that make them financially viable.
> * Nuclear plant construction times are on the order of a decade or (realistically) two decades in the West, if you include planning*
Sure. Forecasting twenty years out is tough. But our forecasts out 10 years show the power crunch easing to almost no degree--we'll still likely be making the same tradeoff then as now. (And, I suspect, still filling the gap with gas in teh west.)
You're broadly correct: we need to build faster. There is no reason we can't build a large plant in under a decade and an SMR in a few years. The latter is what Google is experimenting with here. It's a long shot. But so is hoping battery production scales the orders of magnitude necessary for it to become a utlity backbone over the next decades.
> first goal is to get renewables to 90-95% or more of power generation, massively overbuilt with short-term battery storage
We don't have the battery pipeline. What we're repeatedly getting is renewables plus gas generators. There is no world in which you put down trillions of dollars of gas infrastructure and then poof it in a few years because it's no longer needed.
A decade to have significant amounts of battery storage is actually a pretty optimistic timeline compared to nuclear. Nuclear plant construction times are on the order of a decade or (realistically) two decades in the West, if you include planning. In China they're managing 7 years, but their nuclear buildouts, while impressive, aren't trending an upward path when compared to renewables (see chart here [1].) SMRs might change this, but they're years from leaving "research" status and entering the mass-production/learning curves that could make them cost competitive.
This doesn't make me happy. If I thought nuclear was viable on the timelines we have to dampen climate change, I'd be 100% in favor of it. If we could assemble the political will to raise taxes and build nuclear at "wartime" speeds, I'd say go for it. I'm also very much in favor of SMR development, just not willing to bet the house on it.
As it stands, there isn't anywhere near enough nuclear power in the planning pipeline for nuclear to matter much on a 20 year timeline.
In any case, we are not going to a 100% renewable/battery grid in 10 years. The first goal is to get renewables to 90-95% or more of power generation, massively overbuilt with short-term battery storage backed by intermittent fossil fuels for the remaining 5-10%. This will represent a massive reduction in emissions. The last 5-10% will have to be completed over the next couple of decades, and the increasing battery production trend gives hope that it can be.
The worst problem with existing nuclear is that with a 15-20 year planning/construction timeline and the current molasses build rate, new nuclear plants will arrive right at the moment when cheap storage is eating the economic use-cases that make them financially viable.
[1] https://cleantechnica.com/wp-content/uploads/2022/10/China-r...