this post was submitted on 16 Nov 2024
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Slow, expensive, riddeled with corruption, long ago surpassed by renewables. Why should we use it?
only antimatter could provide more energy density, it's insanely powerful.
produces amounts of waste orders of magnitude lower than any other means of energy production
reliable when done well
it shouldn't be replaced with renewables, but work with them
But it's not done well. Just look at the new built plants, which are way over budget and take way longer to build then expected. Like the two units in Georgia that went from estimated 14bn to finally 34bn $. In France who are really experienced with nuclear, they began building their latest plant in 2007 and it's still not operational, also it went from 3.3bn to 13.2bn €. Or look at the way Hinkley Point C in the UK is getting developed. What a shit show: from estimated 18bn£ to now 47bn£ and a day where it starts producing energy not in sight.
Do you know WHY they went over budget?
That's for the nuclear industry to figure out. But the fact that companies from different companies originating in entirely different countries suggest that it's a problem with the tech itself.
The hard truth many just don't want to admit is that there are some technologies that simply aren't practical, regardless of how objectively cool they might be. The truth is that the nuclear industry just has a very poor track record with being financially viable. It's only ever really been scaled through massive state-run enterprises that can operate unprofitably. Before solar and wind really took off, the case could be made that we should switch to fission, even if it is more expensive, due to climate concerns. But now that solar + batteries are massively cheaper than nuclear? It's ridiculous to spend state money building these giant white elephants when we could just slap up some more solar panels instead. We ain't running out of space to put them any time soon.
The same problems faced the oil industry too, with their drilling rigs & refineries (over budget and over schedule, with gov money grants and subsidies), it's just less in the media & more spread out (more projects).
Also 10s of billions is still insignificant for any power, transport, or healthcare infrastructure in the scheme of things - we have the money, we just don't tax profit enough. And we don't talk about how the whole budget gets spent (private or public), where all the money actually goes, instead we get the highlighted cases everyone talks about. But not about the shielded industries when they fuck up.
Bullshit. If you can get the same amount of reliable power by just slapping up some solar panels, wind turbines, and batteries, then obviously the cost is not insignificant.
That sentence shows that you really aren't thinking about this as a practical means of power generation. I've found that most fission boosters don't so much like actual nuclear power, but the idea of nuclear power. It appeals to a certain kind of nerd who admires it from a physics and engineering perspective. And while it is cool technically, this tends to blind people to the actual cold realities of fission power.
There's also a lot of conspiratorial thinking among the pro-nuclear crowd. They'll blame nuclear's failures on the superstitious fear of the unwashed ignorant masses or the evil machinations of groups like Greenpeace. Then, at the same time, they'll ignore the most bone-headedly obvious cause of nuclear's failure: it's just too fucking expensive.
I'm thinking in practical terms how that still doesn't happen that often, humans allocate assets, humans don't behave logically (behavioural economics).
Nothing ever is going to be perfect and efficient, solar panels might get through vast price volatilities as well, installation costs hand already soared.
So why did we subsidised so much expensive oil infrastructure. And at higher cost of life.
Oil rigs can go into billions of dollars (and thats not even the total cost), nuclear plants tend to have the total running cost up-front (with decommission costs after the planned decades).
Humans don't make economic decisions rationally.
Well if we had no alternative I would agree with you and I would be okay if we had to subsidize nuclear (which isn't emissions free due to the mining and refining of uranium bye the way). But if a country like France, which has a pretty high rate of acceptance regarding nuclear, can't get it to work, who will? Apart from maybe authoritarian countries. Just think about the amount of plants we have to build to create a significant impact, if hardly any plant has been built in a relative short timeframe. I'd say put money in research yeah but focus on renewable, network, storage and efficiency optimization for now.
Nuclear energy indeed has very high energy per mass of fuel. But so what? Solar and wind power doesn't even use fuel. So the energy density thing is a bit of a distraction.
Yes, but energy density doesn't matter for most applications and the waste it produces is highly problematic.
85% of used fuel rods can be recycled to new fuel rods. And there's military uses for depleted uranium too. So, essentially every bit of the waste can be recycled. Can't say the same for fossil fuels.
It's a solved problem. https://www.youtube.com/watch?v=4aUODXeAM-k https://www.youtube.com/watch?v=lhHHbgIy9jU
If something is Nuclear enough it can generate heat, its just the reactors make use of an actual reaction that nuclear waste can't do anymore. Yever watch the Martian, he has a generator that's fuel is lead covered beads of radioactive material, it doesn't generate as much as reactors but it's still a usable amount.
That's an extreme oversimplification. RTGs don't use nuclear waste. Spent reactor fuel still emits a large amount of gamma and neutron radiation, but not with enough intensity to be useful in a reactor. The amount of shielding required makes any kind of non-terrestrial application impossible.
The most common RTG fuel is plutonium (^238^Pu, usually as PuO~2~), which emits mostly alpha and beta particles, and can be used with minimal shielding. It can't be produced by reprocessing spent reactor fuel. In 2024, only Russia is manufacturing it. Polonium (^210^Po) is also an excellent fuel with a very high energy density, but it has a prohibitively short half-life of just over a hundred days. It also has to be manufactured and can't be extracted.
^90^Sr (strontium) can be extracted from nuclear fuel, and was used by early Soviet RTGs, but only terrestrially because the gamma emission requires heavy shielding. Strontium is also a very reactive alkaline metal. It isn't used as RTG fuel today.
Right now we probably use more energy to produce antimatter than getting it back
Nuclear energy as a bridge technology is incompatible with renewables.
Sometimes the sun doesn't shine, sometimes the wind doesn't blow. Renewables are great and cheap, but they aren't a complete solution without grid level storage that doesn't really exist yet.
Solar with Battery grid storage is now cheaper than nuclear.
If the demand goes up I have some doubt, also, mining for Lithium is far from being clean, and then batteries are becoming wastes, so I doubt you would replace nuclear power with this solution
I guess in some regions it could work, but you're still depending on the weather
You don't need lithium. That's just the story told to have an argument why renewables are allegedly bad for the environment.
Lithium is fine for handhelds or cars (everywhere where you need the maximum energy density). Grid level storage however doesn't care if the building houising the batteries weighs 15% more. On the contrary there are a lot of other battery materials better suited because lithium batteries also come with a lot of drawback (heat and quicker degradation being the main ones here).
PS: And the materials can also be recycled. Funnily there's always the pro-nuclear argument coming up then you can recycle waste to create new fuel rod (although it's never actually done), yet with battery tech the exact same argument is then ignored.
They're currently bringing sodium batteries to market (as in "the first vendor is selling them right now"). They're bulky but fairly robust IIRC and they don't need lithium.
If you're thinking of the portable battery marketed as 'solid state' then that was a scam - a teardown revealed it was just lithium cells
Nah, I'm thinking of sodium-ion batteries. That's 1990s tech and is currently in use for grid storage. Several manufacturers are currently bringing car-ready Na-ion batteries to market and there seems to be one production car using them in China (a version of the JMEV EV3, which I hav enever heard about before).
Now, Na-ion is still less mature than Li-ion and that Chinese car gets about 17% less range compared do the Li-ion version.
Would love to see a source for that claim. How many 9's uptime do they target? 90%, 99%
This is old news now! Here's a link from 5 years ago. https://www.forbes.com/sites/jeffmcmahon/2019/07/01/new-solar--battery-price-crushes-fossil-fuels-buries-nuclear/
This is from last year: https://www.lazard.com/research-insights/2023-levelized-cost-of-energyplus/
As to uptime, they have the same legal requirements as all utilities.
I was pro nuke until finding out solar plus grid battery was cheaper.
Source (1)
The project is 1 GW of solar, 500MW of storage. They don't specify storage capacity (MWh). The source provides two contradicting statements towards their ability to provide stable supply: (a)
And (b)
Source (2) researches "Levelized cost of energy", a term they define as
It looks at the cost of power generation. Nowhere does it state the cost of reaching 90% uptime with renewables + battery. Or 99% uptime with renewables + battery. The document doesn't mention uptime, at all. Only generation, independant of demand.
To the best of my understanding, these sources don't support the claim that renewables + battery storage are costeffective technologies for a balanced electric grid.
Uptime is calculated by kWh, I.E How many kilowatts of power you can produce for how many hours.
So it's flexible. If you have 4kw of battery, you can produce 1kw for 4hrs, or 2kw for 2hrs, 4kw for 1hr, etc.
Nuclear is steady state. If the reactor can generate 1gw, it can only generate 1gw, but for 24hrs.
So to match a 1gw nuclear plant, you need around 12gw of of storage, and ~~13gw~~ 2gw of production.
This has come up before. See this comment where I break down the most recent utility scale nuclear and solar deployments in the US. The comentor above is right, and that doesn't take into account huge strides in solar and battery tech we are currently making.
Thats a chicken/egg peoblem. If enough renewables are build the storage follows. In a perfect world goverments would incentivice storage but in an imperfect one problems have to occure before somebody does something to solve them. Anyway, according to lazard renewables + storage are still cheaper than NPPs.
https://www.theguardian.com/environment/2024/oct/24/power-grid-battery-capacity-growth
Not sure I get what you mean by "slow".
And it's not entirely shocking that we have more of the power source we've been building and less of the one we stopped building.