Nuclear Plant Could Bring 1,600 Jobs to Kemmerer, Wyoming(cowboystatedaily.com)
cowboystatedaily.com
Nuclear Plant Could Bring 1,600 Jobs to Kemmerer, Wyoming
https://cowboystatedaily.com/2024/01/25/nuclear-plant-could-bring-1-600-jobs-for-kemmerer-pop-2-500/
37 comments
Aren’t these temporary construction jobs? Which seems like the worst kind of jobs for a small town… infrastructure , retail, housing, etc is built for the huge influx of workers and after 5 years or whatever they go away, and only a relatively few workers remain for operation of the plant.
They could extend the project and build a final depot for radioactive waste. Jobs for the next hundred thousand years.
Gosh, i hate the trend for NE. When will the public realize, that its the side effects of our waste products (like CO2) that cause us all the trouble? Or that we are depending on yet another finite resource?
Why not a project for fully renewable energy sources and storage with less delicate waste? Why letting big monopolistic coropratios externalize the cost of waste management to the public so NE appears affordable/profitable?
Its just short sighted, imo, to put it nicely.
Gosh, i hate the trend for NE. When will the public realize, that its the side effects of our waste products (like CO2) that cause us all the trouble? Or that we are depending on yet another finite resource?
Why not a project for fully renewable energy sources and storage with less delicate waste? Why letting big monopolistic coropratios externalize the cost of waste management to the public so NE appears affordable/profitable?
Its just short sighted, imo, to put it nicely.
Nuclear waste is dangerous.
Coal ash, tailings, hydrocarbon extraction byproducts; those are also dangerous. Look at cancer rates near refinery areas in Louisiana or Houston -- you might imagine a nuclear bomb went off in those areas based on the cancer rates.
Nuclear waste has the unique property that it is very easily detected. This is actually a good thing! It means we can isolate it, test for isolation, and stay away. The other upside is that there is less of it. Contrast that with something like the Kingston fly ash spill. There is not enough U-235 on earth to spill that much: https://en.wikipedia.org/wiki/Kingston_Fossil_Plant_coal_fly.... That is a single event (with a death toll similar to Chernobyl!) The picture for semiconductor manufacturing or battery manufacturing is not perfect either.
Short sighted? Removing a zero carbon clean energy source from the table when decarbonization is urgently needed -- that is short sighted.
Coal ash, tailings, hydrocarbon extraction byproducts; those are also dangerous. Look at cancer rates near refinery areas in Louisiana or Houston -- you might imagine a nuclear bomb went off in those areas based on the cancer rates.
Nuclear waste has the unique property that it is very easily detected. This is actually a good thing! It means we can isolate it, test for isolation, and stay away. The other upside is that there is less of it. Contrast that with something like the Kingston fly ash spill. There is not enough U-235 on earth to spill that much: https://en.wikipedia.org/wiki/Kingston_Fossil_Plant_coal_fly.... That is a single event (with a death toll similar to Chernobyl!) The picture for semiconductor manufacturing or battery manufacturing is not perfect either.
Short sighted? Removing a zero carbon clean energy source from the table when decarbonization is urgently needed -- that is short sighted.
"Clean" is the short sighted part, because waste does not only revolve around carbon. "Sustainable" is the only long term solution.
Your points seem to be correct, NE waste is less and better detectable but its also as long living like PFAS but much more dangerous compared to them.
As is said "i dont like the trend", not NE per se. This upcoming NE trend fosters an illusion, that competes with the with wind/solar power transition, which might not be the final but certainly is the better solution in terms of cost/waste/risk.
Your points seem to be correct, NE waste is less and better detectable but its also as long living like PFAS but much more dangerous compared to them.
As is said "i dont like the trend", not NE per se. This upcoming NE trend fosters an illusion, that competes with the with wind/solar power transition, which might not be the final but certainly is the better solution in terms of cost/waste/risk.
We have urgent problems and theoretical, future problems. CO2 levels are an urgent problem. NE can help here. Nuclear waste is not an urgent problem today and likely will never be as urgent as climate change.
The town’s existing coal plant is winding down in 2030, so there need not be any new permanent construction. One set of workers will replace another.
There will be an influx of construction jobs, but there are a few small towns about an hour away which could help accommodate. Banks will know better than to lend for outrageous expansion.
There will be an influx of construction jobs, but there are a few small towns about an hour away which could help accommodate. Banks will know better than to lend for outrageous expansion.
It is a nice idea, but just looking at some basic stats [0] I'd be a little surprised if it ever gets up and running. Let alone finished. Nuclear technology isn't really something a western country can handle under the current regulatory environment. At this point, the only real hope is in Asia. The west seems to be committed to an ongoing (if you check the energy availability stats) program of deindustrialisation.
[0] https://www.world-nuclear.org/information-library/current-an...
[0] https://www.world-nuclear.org/information-library/current-an...
Why build nuclear when solar and wind is cheaper and at worst the turbine catches on fire? There’s no waste to worry about for thousands of years. Did I mention it’s cheaper?
Most common assumptions about nuclear waste don't reflect the data - it is a solved problem in the industry and much less an issue than expected. A good collection of sources in https://zionlights.substack.com/p/everything-i-believed-abou...
Costs are lower in the long run, especially when considering lower system costs - the power grid has to be much more capable and more complex with variable generation from solar and wind, plus these energy sources always need a stable backup (like nuclear)
Costs are lower in the long run, especially when considering lower system costs - the power grid has to be much more capable and more complex with variable generation from solar and wind, plus these energy sources always need a stable backup (like nuclear)
If we held nuclear to a similar safety standard to the airline, coal or solar industry it'd probably be cheaper.
> There’s no waste to worry about for thousands of years.
The waste from solar and wind never decays. It is permanent. That is worse.
> There’s no waste to worry about for thousands of years.
The waste from solar and wind never decays. It is permanent. That is worse.
> The waste from solar and wind never decays. It is permanent. That is worse.
I’m not so sure I buy this argument. Nuclear waste is effectively permanent as it needs to be safely stored in large containers for as long as civilization has existed.
Solar panels are made of what? Silicon and aluminum mostly? The aluminum can be recycled. I wonder if old silicon can be reused somehow. We will certainly find out.
I’m not so sure I buy this argument. Nuclear waste is effectively permanent as it needs to be safely stored in large containers for as long as civilization has existed.
Solar panels are made of what? Silicon and aluminum mostly? The aluminum can be recycled. I wonder if old silicon can be reused somehow. We will certainly find out.
But, and this is the frustrating part, you're applying a terrible double standard there. With nuclear you're focusing on the tiny part that is hard to deal with. In solar you're ignoring the heavy metals [0]. By mass, there will be at least comparable heavy metals to the amount of dangerous nuclear waste. Probably more, given how fuel-lite nuclear can get.
And with nuclear a risk of cancer sees people believing that this stuff needs to be locked in containers for all of time while with solar panels if a few people get silicosis over that time frame you're going to do the rational thing, shrug and say "oh well". Over all of human history, the risk of solar panel waste killing a bunch of people indirectly is basically a certainty. It is a big world and, I repeat, this waste is with us forever. Or if we admit that it will be recycled as an argument ... so will the nuclear waste, in all likelihood. The stuff is an energy source. It'll be like when they figured out that oil was good for fuel back when it used to be a toxic waste product.
We don't need to isolate nuclear waste forever. We can cordon off a dump somewhere for the nasty stuff and make plans to deal with it for 300 years. Then move on with life. Odds are good it will be feedstock for a nuclear plant at some point in that timeframe.
To be clear, I don't mind that we're ignoring the negligible costs in solar. But they aren't a problem in nuclear either. If we agree to ignore negligible risks (like we do for literally every other industrial process), all of these objections start looking a bit silly. The opponents of nuclear are correct that the risks can't be reduced from where they are, but the risks are already lower than comparable sources of energy.
[0] https://www.abc.net.au/news/rural/2022-01-17/are-some-solar-...
And with nuclear a risk of cancer sees people believing that this stuff needs to be locked in containers for all of time while with solar panels if a few people get silicosis over that time frame you're going to do the rational thing, shrug and say "oh well". Over all of human history, the risk of solar panel waste killing a bunch of people indirectly is basically a certainty. It is a big world and, I repeat, this waste is with us forever. Or if we admit that it will be recycled as an argument ... so will the nuclear waste, in all likelihood. The stuff is an energy source. It'll be like when they figured out that oil was good for fuel back when it used to be a toxic waste product.
We don't need to isolate nuclear waste forever. We can cordon off a dump somewhere for the nasty stuff and make plans to deal with it for 300 years. Then move on with life. Odds are good it will be feedstock for a nuclear plant at some point in that timeframe.
To be clear, I don't mind that we're ignoring the negligible costs in solar. But they aren't a problem in nuclear either. If we agree to ignore negligible risks (like we do for literally every other industrial process), all of these objections start looking a bit silly. The opponents of nuclear are correct that the risks can't be reduced from where they are, but the risks are already lower than comparable sources of energy.
[0] https://www.abc.net.au/news/rural/2022-01-17/are-some-solar-...
Nuclear fuel can be reprocessed. Real waste should be stored for merely 300yrs
Merely 300 years. Jesus. That’s 10 generations.
yeah, storing some solid stuff underground for 300 yrs in a geologically stable region is soooo hard)
Let's phase out the Price-Anderson act as well so we do not socialize the accident insurance for nuclear plants.
https://en.wikipedia.org/wiki/Price%E2%80%93Anderson_Nuclear...
What waste from solar and wind is not recyclable?
https://en.wikipedia.org/wiki/Price%E2%80%93Anderson_Nuclear...
What waste from solar and wind is not recyclable?
Of the top of my head, cadmium and lead, low level radioactive waste from associated lithium extraction from spodumene concentrates, pools of acids as a result of rare earth processing, etc.
Solar, wind, batteries etc are growing but as yet are only a small percentage of the energy produced by coal - as coal is phased out and replaced the waste from renewables will grow.
To be absolutely clear, I am not anti renewable energy .. but there are some serious waste issues associated with all forms of rare earth and other concentrate pocessing. Pretending there isn't would be just head in the sand greenwashing of recycling issues.
The International Renewable Energy Agency (IRENA) did a 100 page report 8 years ago on the need to harvest solar panels to recover materials to form a closed cycle. To date we're still dominated by end-of-life e-waste going to landfill to be recoved "later".
https://www.irena.org/-/media/Files/IRENA/Agency/Publication...
That's one form of waste. The associated and often overlooked other form of waste is the byproducts from first creation, the processing of mined concentrates into useful materials comes with a slew of nasty by products that have yet to be comprehensibly dealt with.
These are material forms of renewable debt.
Solar, wind, batteries etc are growing but as yet are only a small percentage of the energy produced by coal - as coal is phased out and replaced the waste from renewables will grow.
To be absolutely clear, I am not anti renewable energy .. but there are some serious waste issues associated with all forms of rare earth and other concentrate pocessing. Pretending there isn't would be just head in the sand greenwashing of recycling issues.
The International Renewable Energy Agency (IRENA) did a 100 page report 8 years ago on the need to harvest solar panels to recover materials to form a closed cycle. To date we're still dominated by end-of-life e-waste going to landfill to be recoved "later".
https://www.irena.org/-/media/Files/IRENA/Agency/Publication...
That's one form of waste. The associated and often overlooked other form of waste is the byproducts from first creation, the processing of mined concentrates into useful materials comes with a slew of nasty by products that have yet to be comprehensibly dealt with.
These are material forms of renewable debt.
> > What waste from solar and wind is not recyclable?
> Of the top of my head, cadmium and lead,
Lead isn't recyclable?
> Of the top of my head, cadmium and lead,
Lead isn't recyclable?
Isn't being recycled ... which is the real issue.
Mining waste from copper, rare earth concentrates, minesite rehabilitation, safe tailing dams, etc are all things that in theory can be dealt with.
It's not Mission Accomplished!! until they are actually dealt with though .. until then it's just toxic lead free to leach into water.
Mining waste from copper, rare earth concentrates, minesite rehabilitation, safe tailing dams, etc are all things that in theory can be dealt with.
It's not Mission Accomplished!! until they are actually dealt with though .. until then it's just toxic lead free to leach into water.
https://leadsmart.nsw.gov.au/wp-content/uploads/2021/05/BHEL...
This is 1 lead mining region. This report would be enough to shut down uranium mining across an entire country if it was doing an equivalent amount of damage. And that is just the mining, not the dumping, where there will be further damage done.
But fortunately the damage lead does is done by chemical reactions rather than radiation so it is cool and we can handle it rationally.
People are crazy if they think any industrial process can be run without damaging the environment. The nuclear production chain may literally be the only place where we try.
This is 1 lead mining region. This report would be enough to shut down uranium mining across an entire country if it was doing an equivalent amount of damage. And that is just the mining, not the dumping, where there will be further damage done.
But fortunately the damage lead does is done by chemical reactions rather than radiation so it is cool and we can handle it rationally.
People are crazy if they think any industrial process can be run without damaging the environment. The nuclear production chain may literally be the only place where we try.
> if we held nuclear to a similar safety standard to the airline, coal or solar industry it'd probably be cheaper
No it would be much more expensive. Chernobyl and Fukushima are estimated to cost over 1000 billion usd each, and your suggestion would cause similar accidents every 4-6 years.
No it would be much more expensive. Chernobyl and Fukushima are estimated to cost over 1000 billion usd each, and your suggestion would cause similar accidents every 4-6 years.
You might have heard the funny story about a nuclear contamination incident where the workers had to dig a big trench to clear out contaminated material, then filled the trench in with local soil ... that was naturally higher in radiation than the stuff removed.
I'm not entirely happy with the premise that nobody has learned anything about plant design since 1970 when Fukushima & friends were designed. And it seems quite likely that this 1 trillion figure is not actually an amount of money that got spent. But what I'd really like to know is what exactly were the consequences if we just ignored the situation? Because with coal we more or less ignored the pollution from 1800 -> 2023 and that turned out well [0] for everyone involved for centuries. Is this money actually worth spending? What is it buying? The nuclear debate seems to be largely detached from what actually happens as routine. Lots of people just don't exercise and that is bad for all sorts of health outcomes - there is a level of risk that people ignore in favour of more comfort.
These arguments are like 1800s peasants deciding to kill off the industrial revolution because they were worried about global warming. I don't think people are looking at the multiple orders of magnitude improvement in fuel energy density and thinking logically about what the upside is. It might be high enough that a trillion every couple of years is chump change.
And, when I hear "trillion", we note that the US wasted that much in Afghanistan. It isn't like these sums are prohibitive - Japan is slowly restarting their nuclear programs as they work out that energy is required to live a comfortable life.
[0] Like, really well. As in, any attempt to deal with the pollution would have left the whole world a lot worse off. Our entire lifestyle in the present is built on the back of infrastructure built while ignoring pollution in the industrial revolution and follow up era.
I'm not entirely happy with the premise that nobody has learned anything about plant design since 1970 when Fukushima & friends were designed. And it seems quite likely that this 1 trillion figure is not actually an amount of money that got spent. But what I'd really like to know is what exactly were the consequences if we just ignored the situation? Because with coal we more or less ignored the pollution from 1800 -> 2023 and that turned out well [0] for everyone involved for centuries. Is this money actually worth spending? What is it buying? The nuclear debate seems to be largely detached from what actually happens as routine. Lots of people just don't exercise and that is bad for all sorts of health outcomes - there is a level of risk that people ignore in favour of more comfort.
These arguments are like 1800s peasants deciding to kill off the industrial revolution because they were worried about global warming. I don't think people are looking at the multiple orders of magnitude improvement in fuel energy density and thinking logically about what the upside is. It might be high enough that a trillion every couple of years is chump change.
And, when I hear "trillion", we note that the US wasted that much in Afghanistan. It isn't like these sums are prohibitive - Japan is slowly restarting their nuclear programs as they work out that energy is required to live a comfortable life.
[0] Like, really well. As in, any attempt to deal with the pollution would have left the whole world a lot worse off. Our entire lifestyle in the present is built on the back of infrastructure built while ignoring pollution in the industrial revolution and follow up era.
>You might have heard the funny story about a nuclear contamination incident
Here is just one of many actually documented stories about nuclear contamination, none of them are particularly funny. https://en.wikipedia.org/wiki/Goi%C3%A2nia_accident
>I'm not entirely happy with the premise that nobody has learned anything about plant design since 1970
The problem isn't plant design. The problem is that the fuel and waste from any nuclear plant is very dangerous and humans are often very sloppy, ignorant and greedy. This problem remains even if a plant would be entirely fault tolerant.
>But what I'd really like to know is what exactly were the consequences if we just ignored the situation?
If we ignored Chernobyl and nobody sacrificed their lives to stop the fire, my understanding is that it would still be burning and Europe would be mostly a uninhabitable hellhole today, with millions dead, immense numbers of birth defects and and a large percentage of the population would get cancers before age 30.
Since it was stopped relatively quickly we have only had to deal with sanitation for 40+ years, in areas as remote as Lapland and Bavaria. If the fallout areas were untreated, food from those areas would be classified as carcinogenic for decades.
Some might think that Wyoming is far away, but a Chernobyl accident in Wyoming could devastate agriculture in Kansas, California, Canada - this can't be ignored.
Surely it would be better for Wyoming to build hydrogen plants, photovoltaic panels and such. It will deliver as stable energy as nuclear but cheaper and with comparably no risk.
Here is just one of many actually documented stories about nuclear contamination, none of them are particularly funny. https://en.wikipedia.org/wiki/Goi%C3%A2nia_accident
>I'm not entirely happy with the premise that nobody has learned anything about plant design since 1970
The problem isn't plant design. The problem is that the fuel and waste from any nuclear plant is very dangerous and humans are often very sloppy, ignorant and greedy. This problem remains even if a plant would be entirely fault tolerant.
>But what I'd really like to know is what exactly were the consequences if we just ignored the situation?
If we ignored Chernobyl and nobody sacrificed their lives to stop the fire, my understanding is that it would still be burning and Europe would be mostly a uninhabitable hellhole today, with millions dead, immense numbers of birth defects and and a large percentage of the population would get cancers before age 30.
Since it was stopped relatively quickly we have only had to deal with sanitation for 40+ years, in areas as remote as Lapland and Bavaria. If the fallout areas were untreated, food from those areas would be classified as carcinogenic for decades.
Some might think that Wyoming is far away, but a Chernobyl accident in Wyoming could devastate agriculture in Kansas, California, Canada - this can't be ignored.
Surely it would be better for Wyoming to build hydrogen plants, photovoltaic panels and such. It will deliver as stable energy as nuclear but cheaper and with comparably no risk.
Much to get through. So,
You've linked one of worlds worst nuclear disasters there. Nothing to do with nuclear power though, and it certainly didn't cause anywhere near a trillion dollars in damage.
> The problem is that the fuel and waste from any nuclear plant is very dangerous
It isn't that dangerous. We've been at this for 50 years. If anything interesting had happened regarding waste we'd have the regressives up in arms about it and never hear the end of it. I'm not saying no risk, but I am saying negligible. Plenty of nasty stuff out there, and one more heap doesn't need serious attention.
> If we ignored Chernobyl ...
(1) Ok, so put the fire out. That isn't a half-trillion dollars in costs though. Where is this trillion dollars coming from, and what is it protecting against?
(2) Everything causes cancer. Including, famously, a suit to have Starbucks coffee in California labelled as carcinogenic [0]. And coal dust causes cancer, which we've put up with for literal centuries. What are the actual risks are here? Carcinogens aren't a rare thing, a lot of people already die of cancer, because we're surrounded by them. A few more in exchange for the sort of upside nuclear promises is, observing the actual state of things, a good trade. So what are the real numbers you're talking?
At any time from 1970 to today, reducing standards to allow more nuclear development would cause a net reduction in carcinogens because coal dust is deadly. Probably nat gas too.
(3) Nobody is building plants like Chernobyl in this century. That design was from last century.
(4) Bonus points, where are you getting this from? Because a lot of the scary post-Chernobyl modelling was done on a Linear-No-Threshold model that is a good case study in people applying excessive safety to nuclear, assuming that it is much more hazardous than we have any evidence for.
> It will deliver as stable energy as nuclear but cheaper and with comparably no risk.
Nuclear would be cheaper if it was held to sane safety standards that are comparable to what we're putting up with literally right now. I've lived next to coal plants. That is worse for my health than if I had been living in Fukushima when the plant melted down. Nobody in my town was particularly worried about the risk though because that would be remarkably stupid.
[0] https://www.newsweek.com/heres-why-everything-gives-you-canc...
You've linked one of worlds worst nuclear disasters there. Nothing to do with nuclear power though, and it certainly didn't cause anywhere near a trillion dollars in damage.
> The problem is that the fuel and waste from any nuclear plant is very dangerous
It isn't that dangerous. We've been at this for 50 years. If anything interesting had happened regarding waste we'd have the regressives up in arms about it and never hear the end of it. I'm not saying no risk, but I am saying negligible. Plenty of nasty stuff out there, and one more heap doesn't need serious attention.
> If we ignored Chernobyl ...
(1) Ok, so put the fire out. That isn't a half-trillion dollars in costs though. Where is this trillion dollars coming from, and what is it protecting against?
(2) Everything causes cancer. Including, famously, a suit to have Starbucks coffee in California labelled as carcinogenic [0]. And coal dust causes cancer, which we've put up with for literal centuries. What are the actual risks are here? Carcinogens aren't a rare thing, a lot of people already die of cancer, because we're surrounded by them. A few more in exchange for the sort of upside nuclear promises is, observing the actual state of things, a good trade. So what are the real numbers you're talking?
At any time from 1970 to today, reducing standards to allow more nuclear development would cause a net reduction in carcinogens because coal dust is deadly. Probably nat gas too.
(3) Nobody is building plants like Chernobyl in this century. That design was from last century.
(4) Bonus points, where are you getting this from? Because a lot of the scary post-Chernobyl modelling was done on a Linear-No-Threshold model that is a good case study in people applying excessive safety to nuclear, assuming that it is much more hazardous than we have any evidence for.
> It will deliver as stable energy as nuclear but cheaper and with comparably no risk.
Nuclear would be cheaper if it was held to sane safety standards that are comparable to what we're putting up with literally right now. I've lived next to coal plants. That is worse for my health than if I had been living in Fukushima when the plant melted down. Nobody in my town was particularly worried about the risk though because that would be remarkably stupid.
[0] https://www.newsweek.com/heres-why-everything-gives-you-canc...
>You've linked one of worlds worst nuclear disasters there.
Not at all, it was a mere 93 grams of misplaced material and just one of many many examples of this happening all over the world. The US generates 20 000 000 times as much high level waste every year, and luckily they spend the money required to keep it safe and not end up in the wrong places.
>It isn't that dangerous.
Think about it for a second - a nuclear fire during a few weeks in Ukraine has caused reindeer over 1000 miles away to be deemed unsuitable for human consumption for over 35 years. It really is mindboggling how far-reaching in both time and space that accident has been, and it wasn't even a worst-case scenario!
Ignoring the facts and just stating out of the blue that "It's not that dangerous" might be a good coping mechanism but it's not factual.
So, it's dangerous - and the danger should be weighed against the benefits compared to the options.
As of at least now in 2024 we get cheaper electricity from solar panels even after converting solar electricity to hydrogen gas and back to electricity. So nuclear is not cost-competitive even when we ignore the trillion dollar risks it carries (No estimates for the cost of nuclear includes the cost of a disaster, governments take that risk from the operators).
As we have seen the past few years in Europe it's also not very reliable. Plants in France, Finland and Sweden have gone offline several times during the year, taking with them a large percentage of the total electricity production of the countries they are in. Nuclear means many eggs in each basket so to speak.
Why should we aim to build electricity sources that are expensive and vulnerable in addition to carrying a proven risk to food production for decades in a 1000 mile radius, when we already have cheaper options in the form of renewables and storage?
If nuclear was 1/10th the cost of the safer options, I could see a point in debating the risks. But when it is actually MORE expensive? It makes absolutely no sense IMO.
Not at all, it was a mere 93 grams of misplaced material and just one of many many examples of this happening all over the world. The US generates 20 000 000 times as much high level waste every year, and luckily they spend the money required to keep it safe and not end up in the wrong places.
>It isn't that dangerous.
Think about it for a second - a nuclear fire during a few weeks in Ukraine has caused reindeer over 1000 miles away to be deemed unsuitable for human consumption for over 35 years. It really is mindboggling how far-reaching in both time and space that accident has been, and it wasn't even a worst-case scenario!
Ignoring the facts and just stating out of the blue that "It's not that dangerous" might be a good coping mechanism but it's not factual.
So, it's dangerous - and the danger should be weighed against the benefits compared to the options.
As of at least now in 2024 we get cheaper electricity from solar panels even after converting solar electricity to hydrogen gas and back to electricity. So nuclear is not cost-competitive even when we ignore the trillion dollar risks it carries (No estimates for the cost of nuclear includes the cost of a disaster, governments take that risk from the operators).
As we have seen the past few years in Europe it's also not very reliable. Plants in France, Finland and Sweden have gone offline several times during the year, taking with them a large percentage of the total electricity production of the countries they are in. Nuclear means many eggs in each basket so to speak.
Why should we aim to build electricity sources that are expensive and vulnerable in addition to carrying a proven risk to food production for decades in a 1000 mile radius, when we already have cheaper options in the form of renewables and storage?
If nuclear was 1/10th the cost of the safer options, I could see a point in debating the risks. But when it is actually MORE expensive? It makes absolutely no sense IMO.
> At any time from 1970 to today, reducing standards to allow more nuclear development would cause a net reduction in carcinogens because coal dust is deadly.
It's not a debate about coal vs nuclear. Nuclear is better than coal, but worse than renewables.
It's not a debate about coal vs nuclear. Nuclear is better than coal, but worse than renewables.
I suppose my point here is that if we should hold nuclear to a reasonable standard of harm - say an order of magnitude less harm then we are presently living under - then the economics of nuclear will likely crush solar.
Nuclear is uncompetitive but still in the conversation at the current absurdist standard. It'd be an easy winner on a realistic standard. The harm of nuclear and solar is similar (on average, about 0) but nuclear can deliver a lot more bang for buck.
There is a two pronged argument against nuclear, one prong the somewhat ignorant argument that the risk is excessive and the other argument that it costs too much. If we use evidence and handle the risk to a sane standard, it is reasonable to expect it'll be dirt cheap and the other argument falls away.
People say solar is cheaper but they seem to by lying. All the places that have heavily invested in solar have gut-wrenchingly high electricity prices. If nuclear was given a fair shot it's got a great chance of winning the fight for the power source with the best cost-benifit ratio.
Nuclear is uncompetitive but still in the conversation at the current absurdist standard. It'd be an easy winner on a realistic standard. The harm of nuclear and solar is similar (on average, about 0) but nuclear can deliver a lot more bang for buck.
There is a two pronged argument against nuclear, one prong the somewhat ignorant argument that the risk is excessive and the other argument that it costs too much. If we use evidence and handle the risk to a sane standard, it is reasonable to expect it'll be dirt cheap and the other argument falls away.
People say solar is cheaper but they seem to by lying. All the places that have heavily invested in solar have gut-wrenchingly high electricity prices. If nuclear was given a fair shot it's got a great chance of winning the fight for the power source with the best cost-benifit ratio.
>I suppose my point here is that if we should hold nuclear to a reasonable standard of harm - say an order of magnitude less harm then we are presently living under - then the economics of nuclear will likely crush solar.
You believe that nuclear is paying too much, but the truth is that it's paying too little. In France, the US and Sweden the money set aside to handle waste and decommissioning or restitution of old plants is underfinanced by as much as 50%, meaning half the money is missing.
In all countries operating nuclear power, there is a growing hidden debt. France recently paid over 50 billion euros on their debt when they nationalized EDF, but it's not enough.
These costs, and a myriad of other costs, are never included in estimates for nuclear power, because it's regulated in the contract for the operator that they don't have to pay it. Taxpayers pay it.
So when you are looking at the cost of nuclear power, you are often looking at the contracted price that the operator is liable for, but not the true, full cost of actually operating nuclear power.
Recently this arrangement has been reconsidered in many countries, so when you look at any estimates of what new nuclear will cost it has almost doubled in the past few years. This is entirely because a little bit more of the actual cost of nuclear has to be paid by the operators instead of the governments.
>People say solar is cheaper but they seem to by lying.
IEA has recently stated that Solar is the cheapest electricity ever: https://www.carbonbrief.org/solar-is-now-cheapest-electricit...
Here is a list of solar plants selling power for as little as 1 cent per kwh, 2 cents being common:
https://commercialsolarguy.com/lowest-solar-power-prices-in-...
So, no lies here.
One thing that needs to be kept in mind is that solar has fallen in price so fast that if you are looking at data from 5-6 years ago you're looking at bad data.
Also worth noting is that the average price of electricity in Germany, who has invested heavily in Solar, was lower than in France for all of 2023. Do you have an example of a place with lots of solar that has high electricity prices?
You believe that nuclear is paying too much, but the truth is that it's paying too little. In France, the US and Sweden the money set aside to handle waste and decommissioning or restitution of old plants is underfinanced by as much as 50%, meaning half the money is missing.
In all countries operating nuclear power, there is a growing hidden debt. France recently paid over 50 billion euros on their debt when they nationalized EDF, but it's not enough.
These costs, and a myriad of other costs, are never included in estimates for nuclear power, because it's regulated in the contract for the operator that they don't have to pay it. Taxpayers pay it.
So when you are looking at the cost of nuclear power, you are often looking at the contracted price that the operator is liable for, but not the true, full cost of actually operating nuclear power.
Recently this arrangement has been reconsidered in many countries, so when you look at any estimates of what new nuclear will cost it has almost doubled in the past few years. This is entirely because a little bit more of the actual cost of nuclear has to be paid by the operators instead of the governments.
>People say solar is cheaper but they seem to by lying.
IEA has recently stated that Solar is the cheapest electricity ever: https://www.carbonbrief.org/solar-is-now-cheapest-electricit...
Here is a list of solar plants selling power for as little as 1 cent per kwh, 2 cents being common:
https://commercialsolarguy.com/lowest-solar-power-prices-in-...
So, no lies here.
One thing that needs to be kept in mind is that solar has fallen in price so fast that if you are looking at data from 5-6 years ago you're looking at bad data.
Also worth noting is that the average price of electricity in Germany, who has invested heavily in Solar, was lower than in France for all of 2023. Do you have an example of a place with lots of solar that has high electricity prices?
> suggestion would cause similar accidents every 4-6 years
That seems like somewhat absurd speculation. Both of those events made future incidents significantly less likely. Also Chernobyl was totally avoidable and only happened because of extreme incompetence prevalent in the USSR.
That seems like somewhat absurd speculation. Both of those events made future incidents significantly less likely. Also Chernobyl was totally avoidable and only happened because of extreme incompetence prevalent in the USSR.
>That seems like somewhat absurd speculation.
A speculation for sure but I think it's realistic given the premise. Same safety standards as the Boeing 737 Max for nuclear power plants, same standards as coal power for storing the waste? If anything my speculation is optimistic!
A speculation for sure but I think it's realistic given the premise. Same safety standards as the Boeing 737 Max for nuclear power plants, same standards as coal power for storing the waste? If anything my speculation is optimistic!
> Same safety standards as the Boeing 737 Max for nuclear power plants
Not really though.
Not really though.
It does not say in the article but from looking at the project website, this plant is 5-10 years at minimum from completion and permitting, that's if there are no regulatory or environmental challenges. Given the onerous and lengthy process I am not optimistic this will ever come to fruition.
https://www.terrapower.com/natrium-project-update/
https://www.terrapower.com/natrium-project-update/
No way this gets commercialized in 10 years. The NRC page [1] states that the Natrium project is in the preapplication phase. In the case of NuScale, the approval took 6 years from the application time, and that was a pressurized water reactor, that the NRC has plenty of experience with. Compared to that, the NRC has virtually zero experience with sodium cooled reactors; one can claim that the precursor of the NRC, the AEC had such experience, but probably no employee from those times is still alive, let alone currently employed.
So the pre-application, application and approval process will be one of learning as much for the NRC as for Terrapower. If they get it done in the next 10 years, that's a stunning achievement. And only after that Terrapower will start working on the actual commercial reactors.
This is a very long haul enterprise.
But if they get it done, this can change the nuclear industry. Russia already has 2 such reactors working, and this month they started burning fuel derived from nuclear waste in one of them. These reactors achieve a lot of things: no need for pressure vessel, can burn U-238, so basically the uranium reserves become unlimited, produce much less waste, and can even burn waste. The first of these is by far the most important, because it means they can be made for much cheaper.
[1] https://www.nrc.gov/reactors/new-reactors/advanced/who-were-...
So the pre-application, application and approval process will be one of learning as much for the NRC as for Terrapower. If they get it done in the next 10 years, that's a stunning achievement. And only after that Terrapower will start working on the actual commercial reactors.
This is a very long haul enterprise.
But if they get it done, this can change the nuclear industry. Russia already has 2 such reactors working, and this month they started burning fuel derived from nuclear waste in one of them. These reactors achieve a lot of things: no need for pressure vessel, can burn U-238, so basically the uranium reserves become unlimited, produce much less waste, and can even burn waste. The first of these is by far the most important, because it means they can be made for much cheaper.
[1] https://www.nrc.gov/reactors/new-reactors/advanced/who-were-...
5-10 years nuclear time means 10-20 I real time, it's a simple conversion really. Of course that is if it's not cancelled...
I want to vote for whatever presidential candidate says they’ll help every state get a new nuclear project started and approved.