Three Mile Island was the worst nuclear accident in US history. Was mainly caused by poor design of human feedback systems which caused operational confusion and lead to a catastrophic failure.
Three Mile Island was the worst nuclear accident in US history. Was mainly caused by poor design of human feedback systems which caused operational confusion and lead to a catastrophic failure.
If you hate nuclear energy because you think it’s dangerous or polluting, that is as dumb as choosing to drive instead of taking the train for the same reasons.
Nuclear energy is one of the methods of generating electricity with the smallest environmental impact and also much, much safer than the alternatives. The number of nuclear accidents can be counted on one hand, while the number of people who have died from cancer from coal power plants is conservatively estimated to be in the millions.
We are installing gobs of distributed, cheap, safe solar and batteries to smooth load and nuclear proponents will still be running around advocating for expensive centralized nuclear reactors that generate either long-lasting radioactive waste or nuclear bombs.
🤷♂️
Just create cheap RTGs with the radioactive waste. Invent the process and give humanity the best of both worlds. All you have to do is increase the power generation from a few hundred watts up an order of magnitude using garbage instead of actual purpose engineered materials. Simple.
Nuclear has its advantages, but there is hardly anything as cheap and maintenance free as solar+batteries. Anyone can set it up, and it just runs all by itself for years and years.
In Europe, the price for electricity on the spot market regularly goes in the negative. Jep, you can get paid money to consume electricity because it’s so abundant.
Look at France, their new NPP is taking 12 years and 12 billion euros more than planned. Is it really worth all that financial and environmental risk building something poisonous and explodey that needs constant attention?
The number of kille people by coal is orders of magnitude higher over the same period (lets say 60 years) per GW generated.
Any other arguments?
Uranium is a heavy metal and of course its poisonous. Just like lead, but radioactive. Why aren’t we using uranium glassware or uranium paint anymore if it’s supposedly not poisonous?
When was the last time a solar farm or a wind park had a catastrophic accident leading to large parts of land being uninhabitable for decades, even centuries?
Of course they are explodey. It’s a fission reaction that has to be constantly modulated and cooled to not go critical.
The other argument is the cost of properly storing waste and decommissioning the plant, which is often conviently ignored. Not much of a NPP can be recycled, unlike solar.
Wait, so you think nuclear reactors spew out uranium?
While coal powerplants don’t spew out radioactive coal ash??
Lets just say only one of these is true… and it is not the former.
They are not explodey, because they are by design not. The non RBMK (i.e. not cheap Russian, lied-about-safety-by-government) reactors are designed to literally cool off without any power or control, if all went to shit. You can try with all your expertise to make it explode, and short of rebuilding it you will fail. Even if you were to add explosives. At that point, just making your own nuclear bomb is cheaper and faster.
I think it is quite optimistic to think they will even recycle 5% of a solar powerplant. The silicon is not useful, hard to dismantle from metal. Additives make it unusable without special centrifuge processes. Take the easy metals, scrap the rest, use easy, cheap raw materials for controlled process. Most of the NPP can be recycled if you cared, apart from the irradiated reactor, which is a very tiny part of it. It’s all wires, steel and other useful electric constructions. Nobody cares to recycle concrete.
I wont talk about storing waste, because I dont know why it is marketed as prohibitively expensive. Apart from it just being lead lined barrels in say an empty mineshaft (which there are an exceptional volume of everywhere). Literally enough space for forever, no need to put anything in the air.
Didn’t say that. But I also don’t think that it magically appears in the plant.
Please stop this whataboutism.
Not true. Making concrete creates huge amounts of CO2 during production. Sand is becoming a valuable resource. Recycling concrete for aggregate absolutely is a thing, but that’s a different topic.
Convenient. Then I will because I’m not finished. You have to ensure containment of the barrels for decades, if not centuries. The mine has to be in geologically inactive area, and you have to be certain that no ground water will seep into the mine in the foreseeable future. We don’t want ground water in the mine, its cold and wet and seeps through everywhere.
And you have to figure out how to keep idiots from breaking into the mine in 150 years and using spent rods to heat their homes. If you think that’s far fetched I encourage you to read about the Goiânia accident , one of the world’s worst nuclear disasters. Some kids found the radioactive source of an abandoned xray machine while playing around.
It’s not whataboutism: https://www.epa.gov/radtown/radioactive-wastes-coal-fired-power-plants
You said yourself that concrete is not recycled, and it is upcycled only for aggregate, can use any rocks for that. Nobody is converting cement to cement clinker.
Keep idiots from breaking in to the mine that has “radioactive” signs is quite far fetched. You dont just accidentally stumble on an opened mineshaft and accidentally have keys to the lift to go down 100m.
It’s worse than stumbling into a mine. Look up RTGs. They’re nuclear batteries that have half lives of ~90 years that the USSR loved to sprinkle all over the woods when they couldn’t be assed to maintain their own infrastructure for more than a few years. They were largely abandoned during the collapse, but hunters and scavengers still find these things and even drag them back to the village from time to time. Kills a few dumb villagers pretty bad every time it happens. There are more than 1000 of these things still out there, mostly unaccounted, and very few if any even have warning signs, let alone high security like a fence.
I mean, comparing that to coal isn’t a very impressive feat. Nuclear power is very expensive, fission material is limited and sourced from dodgy countries, storage is difficult etc. The emissions are the only good thing about it. There are good alternatives to that. I guess using the existing ones until they need to be decommissioned is still a good idea though.
Nuclear only has one caveat is the price.
It’s the safest, bar none. More people died constructing the Hoover Dam than died in relation to Chernobyl and Fukushima combined.
It uses the least amount of land per megawatt produced. This applies both in raw terms of reactor size to generators, turbines or solar panels, or if you include all land needed to mine, process, refine, construct and decommission a form of energy. Cadmium based roof top solar is the only thing that comes close, which is not just niche use as no single building footprint can hope to produce enough power for a single floor, let alone high density structures, but cadmium based solar is also ridiculously expensive. And this metric fails to mention how inefficient battery storage for things like solar is, which further inflates the land use.
In terms of greenhouse gas emissions, be it carbon, methane and other climate devastating, Nuclear is the lowest in terms of emissions, and those emissions are all front loaded as part of the construction and mining process, which can theoretically be lowered with more RnD into greener practices for those industries.
So we have a source of power that is safe, efficient and proven that would allow us to put more land aside for conservation efforts which would help with carbon capture as well as lower emissions. And the only major downside is the higher upfront cost? Take a guess what’s going to happen to energy costs if we continue the current course and climate collapse continues to happen.
You’re glazing over a LOT of R&D accidents, not to mention the infrastructure that supports and facilitates nuclear power generation.
Yeah, the actual power generation plant is relatively small compared to a wind farm or solar plant, but you’re skipping the nuclear material refinement centers, the environmental challenges and risks posed by transportation and storage of nuclear material, and completely ignoring the storage of spent radioactive materials. Yucca mountain nuclear waste facility was constructed for a reason.
I’m all for nuclear power, but you need to get into the gritty if you’re going to make a good faith attempt at comparing it to other methods of power production. The entire process of producing fissionable materials is extremely expensive, power intensive, and uses incredibly toxic chemistry to get it done.
Fusion looks great on paper, but we’re still having a hell of a time figuring out how to capture energy from reactions that last millionths of a second.
https://ourworldindata.org/land-use-per-energy-source
Nuclear land use is still below all other forms of energy generation when you take the whole lifecycle, from mining to refinement to production and construction, lile I said in my above post.
Most nuclear plants contain all their nuclear waste during their lifetime operation and transport after decommissioning. Yucca mountain was designed as a backup and assumed 30 years to fill if fuel rods were not reprocessed.
Lolol really? Taking into account the whole life cycle? Did they factor in how long it’s going to take to decontaminate, say, Chernobyl? That’s unfair, because that was an accident. How about Lake Karachay?