this post was submitted on 04 Sep 2023
323 points (93.1% liked)
Asklemmy
43870 readers
1990 users here now
A loosely moderated place to ask open-ended questions
Search asklemmy ๐
If your post meets the following criteria, it's welcome here!
- Open-ended question
- Not offensive: at this point, we do not have the bandwidth to moderate overtly political discussions. Assume best intent and be excellent to each other.
- Not regarding using or support for Lemmy: context, see the list of support communities and tools for finding communities below
- Not ad nauseam inducing: please make sure it is a question that would be new to most members
- An actual topic of discussion
Looking for support?
Looking for a community?
- Lemmyverse: community search
- sub.rehab: maps old subreddits to fediverse options, marks official as such
- [email protected]: a community for finding communities
~Icon~ ~by~ ~@Double_[email protected]~
founded 5 years ago
MODERATORS
you are viewing a single comment's thread
view the rest of the comments
view the rest of the comments
Obligatory: we didn't stop.
There's also good reasons to have a fistful of generation plants with coal or natural gas.
To put it simply, nuclear is clean, far cleaner than just about anything else we have. If you compare the waste product with the energy produced... It's just not an argument that nuclear loses versus something like coal. Where coal puts out its waste mainly in the form of smoke, nuclear waste, like discarded nuclear power rods, are a physical and far more immediately dangerous thing. The coal waste kind of blends in, and lobbyists have been throwing around "clean coal" for a while... Although coal use has gotten a lot more efficient and produces less waste than before, it's still far more than what nuclear could do. "Clean" coal is a myth, it's just "less bad" coal, with good marketing.
Regardless, coal and natural gas fired plants can ramp up and down far quicker than nuclear possibly could. Where nuclear covers base demand and can usually scale up and down a bit to help with higher load times, to cover peak demand, coal and natural gas can fire up and produce power in a matter of minutes. With nuclear, they have to ramp up slowly to ensure the reaction doesn't run away from them, and to ensure all the safety measures and safeguards are working as intended as the load increases. It's just a fat more careful process.
The grid is hugely complex, and I'm simplifying significantly. But from the best of my understanding, nuclear can't react fast enough to cover spontaneous demand. So either coal or natural gas needs to exist for the grid to work as well as it does.
Wind is unpredictable and solar usually isn't helping during the hours where the grid would need help with the demand. The only viable option is with grid scale energy storage, which can hold the loads while the nuclear systems have a chance to ramp up.
There's still far more coal fired plants in the world than we need for this task alone, so there's still work to be done... But I suspect coal use will diminish, but not be eliminated from grid scale operation for a while.
Aren't most base-load nuclear plants typically paired with an energy storage solution like a gravity battery to habdle burst loads?
To my knowledge, apart from very new battery-based systems, the most common energy storage used for grid scale applications is pumped hydro, and even that is pretty rare... Either you need geographic features that make it viable, which is relatively rare in proximity to all the geographic features you would need for a nuclear plant, or you need to build such structures which is insanely expensive.
The main issue with grid scale anything, is that until very recently, most energy companies have been living on insanely long timelines, far longer than most industries. Infrastructure, when built, almost always has multiple decades of lifespan if not longer. Most energy storage tech that's old enough to be considered for the time that many of the nuclear were built, did not have multiple decade lifespans and would need full or at the least the majority of their working material replaced within a decade at best. For an industry where a new facility will last 50+ years, that's not a good investment. The only long term solution that would last is pumped hydro. This is changing and new grid-scale storage tech is reaching a high level of development, aka, almost ready for large scale production.
Simply put, if you think about the technology that was available when these facilities would have been built, around 50-80 years ago for many, energy storage wasn't something that people really thought about, you either had live delivery of energy (from generator to device in micro-seconds) or primary cell batteries, like alkaline. Without much in-between, and most of what was there wasn't grid-scale, not even close.
Sure, there are newer reactors than that, but a remarkable number of nuclear energy facilities are many decades old, most of the viable grid scale energy storage tech has been developed in the past decade or so.
To be clear, nuclear plants usually have conventional generators, often diesel, but that energy isn't for export (for sale to customers), it's used to restart the pumps and power the facility for a cold start of the nuclear generation systems. And that's about it. 50 years ago, you didn't have viable energy storage for the grid, everything was generated as it was used, when the load increases, fire up more generation capacity. So base load was handled by plants that needed to run 24/7 like nuclear, since it's difficult or impossible to turn them off, and they would ramp up when demand increased, and any gap would be filled by plants that can go from off to making energy in minutes, like coal and natural gas.
To summarize, with the exception of pumped hydro, nothing is capable of handling that much power for the grid. We're not talking a few minutes of energy storage, this is more like an hour+ as reactors heat up and more turbines come up to speed. The only energy generation that can meet that demand that quickly is coal/gas-based plants and pumped hydro, with pumped hydro being so difficult to build, coal and gas are used. Of the gas-powered plants, natural gas is the most economically viable.
This is changing, but the infrastructure in use is usually significantly older than the technology you're mentioning.