Nuclear fission is actually by definition the least renewable energy source. Even coal and oil are renewable on long enough time scales. But there will never be more uranium than there is right now.
We actually don’t have that much of it if we consider the long term future, only a thousand years or so. So nuclear is intended to be a bridge to eventual full renewable power generation and storage, an essential component in the present day but it’s still a bridge.
Another thing to consider is that nuclear is the only power source that works in deep space away from the Sun. So if we’re serious about exploring the solar system or further, we’d be best not to burn up all of our fissionable material right away.
A bit of a stretch maybe, but I’m considering us to be discussing whether an energy source is renewable on Earth. The Sun is not renewable, but by the time that it’s no longer viable the Earth will be long gone as well! So as long as the Earth exists, I would say that solar PV and other solar driven processes like wind and hydro are renewable.
By these standards yes, deep geothermal and tidal are “not renewable” either.
“It wouldn’t have bankrupted every program that tried if you’d just let us fill every body of water with lethal levels of Pu240, Cs137 and Tc99” isn’t a great counter argument.
I think we both agree on fertile material as discussed in another comment, the longevity issue is mostly with conventional LWRs burning up our fuel rapidly.
mostly with conventional LWRs burning up our fuel rapidly
Well, yes, the obvious counter argument being that, you will never build more advanced reactors on scale (some are already available), or develop new fuel cycle if you stunt the evolution process and block the technology we already have.
Imagine saying to be favourable to installing solar panels but only when they will be 100% recyclable and with efficiency close to the theorical maximum
The production of the uranium fuel, the gigantic building itself, the transport (the fule gets shipped around the world), the storage after its depleted.
Its definitely better than any Combustion fuels, but not at all better than actual renewables.
When considering these externalities for nuclear, you have to do the same for renewables as well. i.e. scrap turbine blades, concrete in dams, weathered PV panels, land use taken up by panels and turbines.
Remember that the materials used in most renewable generation are also shipped around the world and many have very dirty refining processes.
I’m a firm renewable energy supporter but you have to be fair to both processes.
You neglect the problem that the stuff from a nuclear reactor is literally unusable forever and becomes Special waste while the remains of renewables are recyclable, yes even turbine blades, there is just not enough market for it to attract a business so far, that will change of course with time, also the stuff is not toxic or radioactive…
Remember that the materials used in most renewable generation are also shipped around the world and many have very dirty refining processes.
Depends, newer version of the stuff don’t need rare earths, or much less, meaning the dirtiest of it falls out of the equation.
I am fair, nuclear is just not future proof for large scale usage. It also takes to long to be “effective” 10 years to build one powerplant, and is waaaay to expensive. you could build more actually renewables for less money in the same time and the electricity from it is basically free as there are almost no operational costs.
The problem is reliability, Europe sees more and more droughts building energy facilities that turn useful water into useless steam makes little sens when there are other options.
Also nuclear makes Sweden dependant on a country thaz exports nuclear fule.
And for solar the costs are shrinking and shrinking, the newest and most efficient panels don’t even need rare earths anymore and are recyclable. Btw Sweeden would be better suited for Hydroelectric dams and Wind wich have even less such problems.
Anyway I’m not a civil engineer or geologist or renewable energy engineer or anything, so I won’t pretend to know what the best path is. I’m just hoping they did their studies correctly and are picking the best option.
But even if they’re not, it’s good they’re moving away from fossil fuels, whichever direction they move in.
Might be a problem for landlocked countries like Switzerland or so but all swedish reactors are cooled with sea water which is not in short supply any time soon.
Seaside reactors have other problems like rising Sea levels… Just putting some wind turbines up would not lead to another Chernobyl when something bad happens…
Fukushima had structural risks and wasn’t compliant with international standards. Modern reactors don’t carry runaway reaction risks. They just shut down in the event of a power loss. There is zero risk of another Chernobyl with modern reactors.
if you want to be like that nothing is. Solar requires vast amounts of rare earths to be mined and wind requires huge amount of unrecylable blades and generators to be produced. On total lifecyle damage to the environment all three are very low but non zero.
Huh, i thought they did require rare earths in construction, but apparently not. They do require silicon wafers boron and phosporus, and small instalations typically come with large li-ion bateries which clearly do require lithium. But the panels themselves dont. Still my point stand that ANY method of generation requires industrial activity which has downsides, pretending nuear is unique in this is dishonest.
Please dont call people trolls just because you disagree with them, this isnt reddit.
Lithiun is also not a rare earth, and is not required (doubly so in sweden). Even if you do choose to use it, you need it in significantly smaller quantities than uranium, and mining it is significantly lower impact.
The mining impact of PV and onshore wind is acceptably small (although should still be reduced further), the orders of magnitude worse impact of digging up or leeching uranium ore with lower energy density than coal, poisoning indiginous communities with the milling waste and then never cleaning it up is not.
You’re sharing praeger U propaganda talking points. This is trolling.
Solar requires vast amounts of rare earths to be mined
Not true, the newest solar panels don’t need rare earths at that scale.
and wind requires huge amount of unrecylable blades and generators to be produced.
Both are recyclable and even if they were not they are not radioactive, poisonous or otherwise hazardous… The blades are from a Artificial resin And glas fiber and the generators are from normal industrial materials like iron aluminum and copper.
Over all actual renewables are much more environmentally friendly and have less emissions. But yes they are also not absolutely zero emission (even though that being possible)
Because renewables don’t change at all in a decade, and the ever-decreasing quality of uranium ore doesn’t involve higher emissions than the benchmark of ranger and cigar lake from 2014. /s
Data isnt milk, it doesnt go bad just because its old. This was on the front of a well maintained wiki article and is from a credible source. If you have more recent data from a credible source showing something fundamentally different please share it.
Incredibly well quantified emissions that are in total lower than the emissions from mining uranium (except for two or three cherry picked mines which are supposed to be representative), or the emissions from building and decomissioning a nuke if you take real lifetimes and load factors.
The emissions from nuclear are primarily from mining (this is huge in some cases, enough to not consider it as low carbon, or negligible in others), enrichment, conversion, and fuel fabrication (these last three have no trustworthy data, but from the few steps that are public knowledge, are enough to put it higher than PV or wind).
Transport, and the building are negligible enough they’re not worth considering.
In either case, it’s largely irrelevant. The main harm is to the local environment of the mines (this is devistating) as well as the main reason the astroturfers come out in force, which is that it delays decarbonization due to being an ineffective use of resources.
Coal exist in the earth because back then the bacteria who could break down lignin and cellulose hadn’t evolved, so dead trees had the time they needed to compress.
There are such bacteria around now, though, and that means there will never be any new natural coal.
I wouldn’t necessarily say never, it could potentially happen that a dead tree ends up in an environment that isn’t conducive to lignin-eating bacteria getting to it, and I would not be at all surprised if it has happened and may continue to happen somewhere in the world since those bacteria evolved, though they would certainly be exceptional cases and almost definitely not happening at any significant scale.
It’s also possible for those bacteria to go extinct one way or another. Again, not very likely. And if it did happen it would probably be due to some absolutely catastrophic disaster absolutely wrecking the Earth’s ecosystem completely in which case we’re probably not going to make it either, but hey, new coal!
The process to produce coal is known for 100 years now. Its just not feasible, because no one needs coal. But its reversible. No one knows how to fuse uranium.
A thousand years is a massive over-estimate. Providing the 6TW or so of final energy with the stuff assumed to exist that’s vaguely accessible for costs that don’t exceed renewables’ total cost is well under a decade.
No breeding program has ever done a full closed cycle and even if it were to happen, the currently proposed technologies only yield about 50 years.
how is it not renewable? If we build modern nuclear plants those plants can use the spent nuclear fuel that is just…currently sitting around in piles of storage. Sounds like the ultimate win to me!
Just because you can use the same fuel twice (or even 3, 10, 100, 1000 times) doesn’t mean it’s renewable. You can’t do that ad infinitum, at a certain point there will simply not be fissile material left in the spent fuel to use, and no more will ever be formed on earth (at least not in any meaningful quantities, I’m sure eventually fusion experiments or something may start spitting out uranium, but by the point we can do that at any meaningful scale we’d clearly have fusion pretty well figured out so fission would be a moot point.) What is here is what we have to work with until we start mining asteroids or what have you.
And on a much bigger timescale (and I’m talking the absolute mind-breaking cosmic sort of timescale that’s really kind of not worth mentioning because it’s so far out from our human frame of reference so I’m only mentioning it because it’s really cool to think about,) eventually all of the fissile material that exists in the universe today will cease to be all on its own whether or not we do anything with it as it decays into more stable elements. A bit more will be created along the way thanks to neutron stars and supernovae and such, but even that slows down and stops as we inch closer to the heat death of the universe.
On the other hand, given enough time and the right conditions, every ounce of carbon on this planet- plants, animals, plankton, plastic happy meal toys, could potentially become fossil fuels, coal, oil, natural gas, etc. and can keep going around the carbon cycle. Unfortunately that’s a process that can take thousands or millions of years and we use fossil fuels much faster than they can be replenished. Even if earth becomes uninhabitable and we have to all up and leave, the carbon in our bodies and whatever we take with us will end up in a new carbon cycle on whatever new rock we end up on, and can potentially keep going as long as we do.
Nuclear is cleaner than fossil fuels but is in no way renewable, no matter what tricks we use to get the most use out of it, there is a finite supply.
Fossil fuels are dirty and not really renewable on a useable timescale for us.
Renewables like solar, wind, and hydro will be a viable option as long as the sun is shining, the earth has an atmosphere, and there is liquid water. Technically there will come a day when those also run out on us but those are also kind of prerequisites for us to live here, so kind of a moot point.
And geothermal will potentially be an option as long as the Earth’s core stays hot, so hundreds of millions if not billions or tens of billions of years, which puts us in the sort of timescale where we have to worry about things like the sun turning into a red giant and engulfing the inner planets, so we’ll have bigger things to worry about than keeping the lights on.
You are probably refering to thorium-based nuclear power plants. Until this day, there isn’t such a power-plant in a production-ready state. Because it’s far from simple, not only because of technical challanges, but also potentially catastrofic environmental impact. I encourge you to read more if you are intrested.
No, it’s zero emission but not renewable.
Nuclear fission is actually by definition the least renewable energy source. Even coal and oil are renewable on long enough time scales. But there will never be more uranium than there is right now.
We actually don’t have that much of it if we consider the long term future, only a thousand years or so. So nuclear is intended to be a bridge to eventual full renewable power generation and storage, an essential component in the present day but it’s still a bridge.
Another thing to consider is that nuclear is the only power source that works in deep space away from the Sun. So if we’re serious about exploring the solar system or further, we’d be best not to burn up all of our fissionable material right away.
Will have more when the sun explodes.
But if you go according the strict physical principle every energy source is non-renewable
The sun fuses a finire amount of hydrogen, earth has a finire amount of latent heat, the moon a finire amount of gravitational inertia etc.
And there’s a little paradox if you think about it, how can fusion be non-renewable but solar, that use radiation from the sun fusion, be renewable?
Fission and fusion are two different things.
A bit of a stretch maybe, but I’m considering us to be discussing whether an energy source is renewable on Earth. The Sun is not renewable, but by the time that it’s no longer viable the Earth will be long gone as well! So as long as the Earth exists, I would say that solar PV and other solar driven processes like wind and hydro are renewable.
By these standards yes, deep geothermal and tidal are “not renewable” either.
That’s look like not renewable, but like “smaller resources cost”.
But that’s exactly the “problem”, there’s enough fertile material for potential millions of years of consumption, and that’s for fission alone.
I think the debacle is more because the definition of “renewable” is a little arbitrary than the dilemma if nuclear is renewable or not
This would be relevant if any reactor had ever gotten its energy from primarily from fertile material. None have so it is not.
We would if ecologist weren’t shutting down any research on this subject.
“It wouldn’t have bankrupted every program that tried if you’d just let us fill every body of water with lethal levels of Pu240, Cs137 and Tc99” isn’t a great counter argument.
I think we both agree on fertile material as discussed in another comment, the longevity issue is mostly with conventional LWRs burning up our fuel rapidly.
I’m just being pedantic about the sun, lol
Well, yes, the obvious counter argument being that, you will never build more advanced reactors on scale (some are already available), or develop new fuel cycle if you stunt the evolution process and block the technology we already have.
Imagine saying to be favourable to installing solar panels but only when they will be 100% recyclable and with efficiency close to the theorical maximum
Its not even zero emission…
What are the emissions, aside from waste heat?
The production of the uranium fuel, the gigantic building itself, the transport (the fule gets shipped around the world), the storage after its depleted.
Its definitely better than any Combustion fuels, but not at all better than actual renewables.
Renewables need all of that too plus they generate SHITLOADS of waste.
When considering these externalities for nuclear, you have to do the same for renewables as well. i.e. scrap turbine blades, concrete in dams, weathered PV panels, land use taken up by panels and turbines.
Remember that the materials used in most renewable generation are also shipped around the world and many have very dirty refining processes.
I’m a firm renewable energy supporter but you have to be fair to both processes.
Okay.
Make a PV system out of a strict subset of the materials in the reactor.
Put the PV system over top of Inkai mine.
Get more power than the uranium from the mine would produce for longer.
The 40 year guaranteed lifetime of the panels is longer than the 30 year lifetime of the average nuclear plant at shutdown.
Your materials can be recycled after.
The ground around the mine isn’t poisoned with heavy metals permanently,
This all assuming everything goes perfectly for the nuclear plant and waste disposal.
You neglect the problem that the stuff from a nuclear reactor is literally unusable forever and becomes Special waste while the remains of renewables are recyclable, yes even turbine blades, there is just not enough market for it to attract a business so far, that will change of course with time, also the stuff is not toxic or radioactive…
Depends, newer version of the stuff don’t need rare earths, or much less, meaning the dirtiest of it falls out of the equation.
I am fair, nuclear is just not future proof for large scale usage. It also takes to long to be “effective” 10 years to build one powerplant, and is waaaay to expensive. you could build more actually renewables for less money in the same time and the electricity from it is basically free as there are almost no operational costs.
Most of those costs are similar for renewables…rather than a building it’s the production and installation of fields of solar panels, for example.
In both cases I’m pretty sure it’s a negligible fraction of the lifecycle emissions compared to energy generated.
The problem is reliability, Europe sees more and more droughts building energy facilities that turn useful water into useless steam makes little sens when there are other options.
Also nuclear makes Sweden dependant on a country thaz exports nuclear fule.
And for solar the costs are shrinking and shrinking, the newest and most efficient panels don’t even need rare earths anymore and are recyclable. Btw Sweeden would be better suited for Hydroelectric dams and Wind wich have even less such problems.
Sweden?
Drought?
Anyway I’m not a civil engineer or geologist or renewable energy engineer or anything, so I won’t pretend to know what the best path is. I’m just hoping they did their studies correctly and are picking the best option.
But even if they’re not, it’s good they’re moving away from fossil fuels, whichever direction they move in.
Well no, that’s the thing. They’ve replaced moving away from fossil fuels now with promising they’re going to in 2045
Might be a problem for landlocked countries like Switzerland or so but all swedish reactors are cooled with sea water which is not in short supply any time soon.
Seaside reactors have other problems like rising Sea levels… Just putting some wind turbines up would not lead to another Chernobyl when something bad happens…
Fukushima had structural risks and wasn’t compliant with international standards. Modern reactors don’t carry runaway reaction risks. They just shut down in the event of a power loss. There is zero risk of another Chernobyl with modern reactors.
if you want to be like that nothing is. Solar requires vast amounts of rare earths to be mined and wind requires huge amount of unrecylable blades and generators to be produced. On total lifecyle damage to the environment all three are very low but non zero.
Solar requires 0 rare earths, troll.
Huh, i thought they did require rare earths in construction, but apparently not. They do require silicon wafers boron and phosporus, and small instalations typically come with large li-ion bateries which clearly do require lithium. But the panels themselves dont. Still my point stand that ANY method of generation requires industrial activity which has downsides, pretending nuear is unique in this is dishonest.
Please dont call people trolls just because you disagree with them, this isnt reddit.
iirc earlier solar panel construction required rare earths
In the last 10-15 years they’ve moved to more abundant materials
Lithiun is also not a rare earth, and is not required (doubly so in sweden). Even if you do choose to use it, you need it in significantly smaller quantities than uranium, and mining it is significantly lower impact.
The mining impact of PV and onshore wind is acceptably small (although should still be reduced further), the orders of magnitude worse impact of digging up or leeching uranium ore with lower energy density than coal, poisoning indiginous communities with the milling waste and then never cleaning it up is not.
You’re sharing praeger U propaganda talking points. This is trolling.
Not true, the newest solar panels don’t need rare earths at that scale.
Both are recyclable and even if they were not they are not radioactive, poisonous or otherwise hazardous… The blades are from a Artificial resin And glas fiber and the generators are from normal industrial materials like iron aluminum and copper.
Over all actual renewables are much more environmentally friendly and have less emissions. But yes they are also not absolutely zero emission (even though that being possible)
these things are easy to look up, eg this is from the ipcc https://en.m.wikipedia.org/wiki/File:CO2_Emissions_from_Electricity_Production_IPCC.png nuclear is on a par or better than most renewable sources.
Because renewables don’t change at all in a decade, and the ever-decreasing quality of uranium ore doesn’t involve higher emissions than the benchmark of ranger and cigar lake from 2014. /s
This data is old as hell… Especially regarding technology that changes twice a year…
Data isnt milk, it doesnt go bad just because its old. This was on the front of a well maintained wiki article and is from a credible source. If you have more recent data from a credible source showing something fundamentally different please share it.
Oh so exactly like renewables that actually produce more co2 during their life cycle?
have you seen how large wind turbines are ?
I have like 20 in visible range from my window, yes, whats your point?
how did they got there is my point. to build anything there are emissions.
Read the other comments explaining it.
Incredibly well quantified emissions that are in total lower than the emissions from mining uranium (except for two or three cherry picked mines which are supposed to be representative), or the emissions from building and decomissioning a nuke if you take real lifetimes and load factors.
wait per energy output? that seems wrong. also what about nukes?
The emissions from nuclear are primarily from mining (this is huge in some cases, enough to not consider it as low carbon, or negligible in others), enrichment, conversion, and fuel fabrication (these last three have no trustworthy data, but from the few steps that are public knowledge, are enough to put it higher than PV or wind).
Transport, and the building are negligible enough they’re not worth considering.
In either case, it’s largely irrelevant. The main harm is to the local environment of the mines (this is devistating) as well as the main reason the astroturfers come out in force, which is that it delays decarbonization due to being an ineffective use of resources.
Coal exist in the earth because back then the bacteria who could break down lignin and cellulose hadn’t evolved, so dead trees had the time they needed to compress. There are such bacteria around now, though, and that means there will never be any new natural coal.
I wouldn’t necessarily say never, it could potentially happen that a dead tree ends up in an environment that isn’t conducive to lignin-eating bacteria getting to it, and I would not be at all surprised if it has happened and may continue to happen somewhere in the world since those bacteria evolved, though they would certainly be exceptional cases and almost definitely not happening at any significant scale.
It’s also possible for those bacteria to go extinct one way or another. Again, not very likely. And if it did happen it would probably be due to some absolutely catastrophic disaster absolutely wrecking the Earth’s ecosystem completely in which case we’re probably not going to make it either, but hey, new coal!
The process to produce coal is known for 100 years now. Its just not feasible, because no one needs coal. But its reversible. No one knows how to fuse uranium.
We actually know how. It’s the cycle of thorium. You make U233 from Th232.
“Renewable” typically means renewable on human time scales, so fossil fuels don’t count.
Biofuel would be renewable.
If you consider fusion to be “nuclear”, that’s renewable. But yeah, not fission.
It is zero emission though.
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A thousand years is a massive over-estimate. Providing the 6TW or so of final energy with the stuff assumed to exist that’s vaguely accessible for costs that don’t exceed renewables’ total cost is well under a decade.
No breeding program has ever done a full closed cycle and even if it were to happen, the currently proposed technologies only yield about 50 years.
how is it not renewable? If we build modern nuclear plants those plants can use the spent nuclear fuel that is just…currently sitting around in piles of storage. Sounds like the ultimate win to me!
Just because you can use the same fuel twice (or even 3, 10, 100, 1000 times) doesn’t mean it’s renewable. You can’t do that ad infinitum, at a certain point there will simply not be fissile material left in the spent fuel to use, and no more will ever be formed on earth (at least not in any meaningful quantities, I’m sure eventually fusion experiments or something may start spitting out uranium, but by the point we can do that at any meaningful scale we’d clearly have fusion pretty well figured out so fission would be a moot point.) What is here is what we have to work with until we start mining asteroids or what have you.
And on a much bigger timescale (and I’m talking the absolute mind-breaking cosmic sort of timescale that’s really kind of not worth mentioning because it’s so far out from our human frame of reference so I’m only mentioning it because it’s really cool to think about,) eventually all of the fissile material that exists in the universe today will cease to be all on its own whether or not we do anything with it as it decays into more stable elements. A bit more will be created along the way thanks to neutron stars and supernovae and such, but even that slows down and stops as we inch closer to the heat death of the universe.
On the other hand, given enough time and the right conditions, every ounce of carbon on this planet- plants, animals, plankton, plastic happy meal toys, could potentially become fossil fuels, coal, oil, natural gas, etc. and can keep going around the carbon cycle. Unfortunately that’s a process that can take thousands or millions of years and we use fossil fuels much faster than they can be replenished. Even if earth becomes uninhabitable and we have to all up and leave, the carbon in our bodies and whatever we take with us will end up in a new carbon cycle on whatever new rock we end up on, and can potentially keep going as long as we do.
Nuclear is cleaner than fossil fuels but is in no way renewable, no matter what tricks we use to get the most use out of it, there is a finite supply.
Fossil fuels are dirty and not really renewable on a useable timescale for us.
Renewables like solar, wind, and hydro will be a viable option as long as the sun is shining, the earth has an atmosphere, and there is liquid water. Technically there will come a day when those also run out on us but those are also kind of prerequisites for us to live here, so kind of a moot point.
And geothermal will potentially be an option as long as the Earth’s core stays hot, so hundreds of millions if not billions or tens of billions of years, which puts us in the sort of timescale where we have to worry about things like the sun turning into a red giant and engulfing the inner planets, so we’ll have bigger things to worry about than keeping the lights on.
You are probably refering to thorium-based nuclear power plants. Until this day, there isn’t such a power-plant in a production-ready state. Because it’s far from simple, not only because of technical challanges, but also potentially catastrofic environmental impact. I encourge you to read more if you are intrested.