Oh wow, so even more radioactive waste that will afflict thousands of future generations and the environment for a tiny amount of produced energy now :(
Yeah sure, coal plants obviously have to go. But why not invest in sustainable energy production?
Nuclear waste cannot just be buried, unless you don’t care about polluting huge areas with radioactivity. In Germany, there have been decades long debates where to store nuclear waste and even to this day there hasn’t been found a good storage for the waste we produced in the 70ies. And this shit costs billions of euros that the company profiting of the plant doesn’t have to pay but that in turn society has to pay.
That is simply not true, storage is a solved problem, and the reason for not having locations is a political problem. NIMBY (Not in my back yard) keeps the world from having permanent storage locations, not science.
Can you show me any evidence for that? I’m really curious how we could develop a technology to safely store nuclear waste for millions of years. I mean, on that time scale you’d even factor in changes in geology and all kinds of other factors. Sure, there are definitely people who say that “it should be fine”. But how can you reliably model geology on that time scale? You simply cannot. So I would definitely disagree with your statement that storage is a solved problem.
So here are a few general video’s along with a few interesting papers regarding storing HLW as/in glass-ceramics. The academic research and discussion of this mobilization methods is very robust so lots of stuff you can read on that subject.
BUT we dont have to store Fission HLW if we reprocess it and run it in conjunction with other reactor types like LIFTR. Much of the remaining waste produced in currently operating reactors is still mostly unused and at most 5-10% of the total material is used up. We can pass that through a breeder reactor and convert U238 to P239 which turns “useless” naturally occurring non fissile uranium into fissile plutonium.
So, my point is that assuming we keep using low enrichment uranium to power current BWR/PWR reactors we have an existing solution for the waste (which if ALL of the worlds HLW was combined would not even fill a professional stadium) that easily takes care of all the waste created since we started production.
BUT all that waste is actually fuel if we recycle/reprocess it and we can burn up another large percentage of that waste and its remaining elements are generally shorter lived forms of waste.
Thanks for all the informative sources. First of all, I think you are probably right that it is a political or rather economic problem, not necessarily a scientific one. Capitalism doesn’t give any incentive to care for the environment or to recycle anything if it isn’t profitable. And politics are heavily influenced if not driven by capitalism.
But then, seeing the various articles you provided about nuclear waste storage, I didn’t really get the impression that it is a solved problem. Sabine Hossenfelder spends a very long time talking about what nuclear waste is but only mentions problems with storage for hundreds of thousands of years for a very short time. And also Elina Charatidsou doesn’t even mention potential problems of geological changes etc. And the facility she is presenting is still in the research stage. So where are the solutions for a long-term storage that guarantees safety? Nuclear waste may not be as problematic as it is made out, but real solutions look different to me.
Very interesting also the point about recycling nuclear waste. I haven’t even heard of it and it sounds like a really good thing to do. We’d still have very high costs handling and storing it, but only for a few hundreds of years at least. Although it seems like actually applying this is still not really planned by most countries and even then the problem of nuclear waste doesn’t go away fully.
Wyoming is investing heavily in wind even with the understanding that current turbine designs ultimately cost money to repair and operate as opposed to being a solution that pays for itself. The conversion of a coal plant to nuclear is part of a long term strategy to reduce environmental impact. They’re taking a long view approach that solar and wind can’t in the short term do what they need it to do but that continued use of coal, at all, even just for the short term, is untenable. Meanwhile, Wyoming is ALSO investing in research on using nuclear byproducts to generate electricity. I have a lot of complaints about Wyoming and how chill they are with the alt-right but I have to commend them that their energy strategy for their state basically reflects what we all need to be doing
Oh wow, so even more radioactive waste that will afflict thousands of future generations and the environment for a tiny amount of produced energy now :(
Coal plants spread radioactive waste into the air.
Fission plants leave a hot turd behind, but at least it can be buried in one spot out of reach instead of everyone breathing it.
Yeah sure, coal plants obviously have to go. But why not invest in sustainable energy production?
Nuclear waste cannot just be buried, unless you don’t care about polluting huge areas with radioactivity. In Germany, there have been decades long debates where to store nuclear waste and even to this day there hasn’t been found a good storage for the waste we produced in the 70ies. And this shit costs billions of euros that the company profiting of the plant doesn’t have to pay but that in turn society has to pay.
That is simply not true, storage is a solved problem, and the reason for not having locations is a political problem. NIMBY (Not in my back yard) keeps the world from having permanent storage locations, not science.
Can you show me any evidence for that? I’m really curious how we could develop a technology to safely store nuclear waste for millions of years. I mean, on that time scale you’d even factor in changes in geology and all kinds of other factors. Sure, there are definitely people who say that “it should be fine”. But how can you reliably model geology on that time scale? You simply cannot. So I would definitely disagree with your statement that storage is a solved problem.
Honestly yes! I made a strong bold statement its only fair to ask for references.
https://www.youtube.com/watch?v=aDUvCLAp0uU
https://www.youtube.com/watch?v=F8x_E1pMSHE
https://www.cambridge.org/core/journals/mrs-bulletin/article/abs/glassceramics-for-nuclearwaste-immobilization/6C69A3D12C516F1B98DE91A9675F9411
https://www.cambridge.org/core/journals/mrs-bulletin/article/abs/studies-of-ancient-glass-and-their-application-to-nuclearwaste-management/B11A67361CE124E7A8A84415545A112A
https://www.lyellcollection.org/doi/abs/10.1144/GSL.SP.2004.236.01.04
https://www.ingentaconnect.com/content/sgt/gt/2000/00000041/00000006/4106186
So here are a few general video’s along with a few interesting papers regarding storing HLW as/in glass-ceramics. The academic research and discussion of this mobilization methods is very robust so lots of stuff you can read on that subject.
BUT we dont have to store Fission HLW if we reprocess it and run it in conjunction with other reactor types like LIFTR. Much of the remaining waste produced in currently operating reactors is still mostly unused and at most 5-10% of the total material is used up. We can pass that through a breeder reactor and convert U238 to P239 which turns “useless” naturally occurring non fissile uranium into fissile plutonium.
https://en.wikipedia.org/wiki/Plutonium-239
https://www.youtube.com/watch?v=IzQ3gFRj0Bc
https://www.youtube.com/watch?v=TaC2pvDMPc0&t=603s
So, my point is that assuming we keep using low enrichment uranium to power current BWR/PWR reactors we have an existing solution for the waste (which if ALL of the worlds HLW was combined would not even fill a professional stadium) that easily takes care of all the waste created since we started production.
BUT all that waste is actually fuel if we recycle/reprocess it and we can burn up another large percentage of that waste and its remaining elements are generally shorter lived forms of waste.
https://www.sciencedirect.com/science/article/abs/pii/S0301421510007263
Thanks for all the informative sources. First of all, I think you are probably right that it is a political or rather economic problem, not necessarily a scientific one. Capitalism doesn’t give any incentive to care for the environment or to recycle anything if it isn’t profitable. And politics are heavily influenced if not driven by capitalism.
But then, seeing the various articles you provided about nuclear waste storage, I didn’t really get the impression that it is a solved problem. Sabine Hossenfelder spends a very long time talking about what nuclear waste is but only mentions problems with storage for hundreds of thousands of years for a very short time. And also Elina Charatidsou doesn’t even mention potential problems of geological changes etc. And the facility she is presenting is still in the research stage. So where are the solutions for a long-term storage that guarantees safety? Nuclear waste may not be as problematic as it is made out, but real solutions look different to me.
Very interesting also the point about recycling nuclear waste. I haven’t even heard of it and it sounds like a really good thing to do. We’d still have very high costs handling and storing it, but only for a few hundreds of years at least. Although it seems like actually applying this is still not really planned by most countries and even then the problem of nuclear waste doesn’t go away fully.
Wyoming is investing heavily in wind even with the understanding that current turbine designs ultimately cost money to repair and operate as opposed to being a solution that pays for itself. The conversion of a coal plant to nuclear is part of a long term strategy to reduce environmental impact. They’re taking a long view approach that solar and wind can’t in the short term do what they need it to do but that continued use of coal, at all, even just for the short term, is untenable. Meanwhile, Wyoming is ALSO investing in research on using nuclear byproducts to generate electricity. I have a lot of complaints about Wyoming and how chill they are with the alt-right but I have to commend them that their energy strategy for their state basically reflects what we all need to be doing
It is a lot harder to get wind to turn a coal power plant turbine.
I see fission as a transitional technology, like CFL light bulbs vs LED lighting.
The transition has been struggling for 60 years for political reasons.
You forgot all the heavy metals too! Lots of brutal heavy metals in coal emissions and waste, which we dont get even in low level fission waste.