De-nuclearization of other European countries is a long-held goal of the German environmentalist movement and the Green party. It's understandable that France doesn't want to go with that, as they don't want to be forced down the same ruinous path we're currently on here in Germany. And honestly, good for them.
It's just sad to see how little actual science is respected in Germany. I did my PhD at the French nuclear energy agency and my French colleagues would always be puzzled when I talked about German energy policies and our anti-nuclear sentiment. But here in Germany the Green party will probably never reverse it's stance on nuclear energy, as their rise to popularity was strongly fueled by the anti-nuclear movement from the 80s and it's the one thing they can't abandon without losing a large number of followers.
I partially blame the highly ideological stance on the way people rise to power in politics and administration in Germany. In France, top positions in the administration are usually filled by people that are technically excellent and have gone through the system of grandes écoles (ENS, ENA, X, ...), whereas in Germany most people rise through social engineering and party politics and most top positions in the administration are filled by people with law degrees that don't have a clue about technology. In my opinion that's also a reason why we completely fail in everything regarding digitalization, lawyers are simply not good technical problem solvers.
There are also many institutes (e.g IDW) constantly pumping out papers that conclude nuclear energy has highest costs, highest danger, will leave unsolvable toxic waste problems, renewable energy is extremely cheap, building enough storage is no problem etc.
These people are constantly invited to present these „Zukunftsenergien“ as opposed to the old bad nuclear in talk shows.
And yet Germany, after two decades and close to a trillion dollar in renewable energies, has one of the most expensive AND highest CO2 energy in Europe.
In 2021 the 6 remaining nuclear power plants produced more power than all installed solar capacity in Germany. 3 were closed at year end.
Now we are reliant on russian gas and the politicians still want to keep closing the remaining three nuclear power plants.
The same talk show people now talk about how we have a heat and not a power problem, so we don‘t need the nuclear power. We are still burning gas and restarted coal power plants.
> And yet Germany, after two decades and close to a trillion dollar in renewable energies, has one of the most expensive
Do you have any sources? Last time I checked, Germany and France weren't that far apart, if you remove taxes out of the costs. The thing is that Germany has a lot of Taxes that have nothing todo with how we generate the electricity. I.e. 90% of the electricity tax (Stromsteuer) goes into the government pension fund.
Technically, you're still not removing taxes from the equation, because the state owned nuclear plants in France are also funded by taxes, it's just not taxes that are added to the cost of units of electricity.
Which actually makes sense, if you have a high upfront cost, constant output source iike nuclear, taxing each individual unit makes no sense since the marginal cost is effectively zero up till you need to build a new plant. Whereas if you burn coal or gas, you want to incentivise people to cut back for cost, carbon and pollution reasons.
An even more sensible approach would be to tax the carbon directly and charge more for peak electricity since that contributes more to the infrastructure requirements, which I guess both countries will already be moving towards as is the current trend in most places.
Yes, taxes and subsidies distort the actual costs of energy production. But if you look at my example, 90% of the Stromsteuer (tax on your energy bill as a household) don't go into funding of energy production, but to stabilize the (very broken) german mandatory pension/retirment system. But yes, one could argue that it is just moving around taxes in the government spending household.
The Stromsteuer ist only 5% of the price. It depends on your definition of taxes. The EEG-Umlage alone reached 6.5ct/kwh and directly paid for renewables. It‘s now taken out of the price, so the real price of energy is higher than what is paid by the consumer. The EEG Umlage is now hidden in and paid for by a special fund („Energie- und Klimafonds“)
Jeez, I know electricity prices in Europe are higher than in the US generally, but a 6.5c per kwh tax would have been a rate of around 66% at the beginning of 2021 when it was 1.20 USD/EUR and the average US residential rate was ~13c/kwh.
Yes, rates can be much higher. We pay 37c for instance at the moment.
On the other hand: To have higher energy prices provides incentives for less use and must be part of an intermediate strategy to bring down CO2 emissions.
Or it's an incentive to use cheaper energy. In my area gas is cheaper than electricity, but policy tries to push folks to use electricity. It would make more sense to drive down the cost of electricity so that it is the economic choice as well as the environmental one.
You're saying that there is a transfer from nuclear to renewables of 6.5 cents/kWh for every kWh nuclear generates, or a net market distortion of 13c/kWh between the two (using the tenuous assumption of roughly equivalent capacities between the two sectors)?
That's more than I pay in the US in total per kWh for electricity, generated, distributed, and taxed.
Germany jumped into solar really early and it's very far north so it’s not that relevant when considering todays tradeoffs.
41.3 gigawatts (GW) by the end of 2016 was frankly excessive though it helped PV get much cheaper. Unfortunately, Germany now stuck with these huge agreed upon subsides for another decade.
They also "pulled out" of solar early. I have idea how anyone can make sense of German policies. They seem to be working solely on the basis of emotion. The outcome is a disastrous policy that created one of the highest energy prices for consumers for no good reason.
The Greens in Germany seem to be hell bent on de-industrializing Germany. They hate nuclear power and they hate all fossil fuels, but want to buy fracking LNG from the USA and fire up brown coal plants that were previously shut down to shove it to Putin. The outcome seems to be mass bankruptcies in what seems to be the social fabric of Germany, while getting a lot less energy for the same price.
For accusing others of being highly emotional, this post is incredibly biased and doesn't hold a fact check.
- the Greens are the party most opposed to brown coal out of all German parties.
- Gas is far less emissions intense than most other forms of fossil fuels, so it is a good transitional source of energy.
- Germanies nuclear plants were built around 40 years ago, with a lifetime in mind of 40 years. The idea of arguing they can run longer because nothing happened in the last 40 years is preposterous, and betrays a complete lack of understanding of how industry works. Not only are the designs lacking essential security features, every single part was produced with 40 year lifetime in mind.
- the three plants that where built in 87 are going to continue to run for now.
Facts are still facts and reality is still reality. The greens are calling for a reactivation of brown coal power plants[1]. Literally the dirtiest of all energy(including coal).
You can bring up your "facts" about Germany's nuclear power plants all you want. But the green policies are part of the reason why the investment in nuclear was halted and on top of that the German Taxpayer had to foot a massive payout to nuclear plant operators for the premature exit. [2]
> - Germanies nuclear plants were built around 40 years ago, with a lifetime in mind of 40 years. The idea of arguing they can run longer because nothing happened in the last 40 years is preposterous, and betrays a complete lack of understanding of how industry works. Not only are the designs lacking essential security features, every single part was produced with 40 year lifetime in mind.
It's normal to do a general maintenance (with upgrades to recent security standard) at the end of projected lifetime and then run it for another 40 years. It's absolute - economically speaking - bullshit to destroy a mostly-good nuclear power plant. It's not like the reactor core is the only thing there, anyways - even replacing it would be much better than tearing the place down.
The worst thing is - you lose experts, and they don't train new experts. And then there's no one to bring the nuclear power plant up again, or build a new one. Lost technology...
That's simply false, shutting down a nuclear power plant is extremely fucking expensive. Operators would love to cheaply extend the lifespan, but maintenance costs get so horrific over time it's simply not an option.
It's like trying to keep an old car on the road, except a few critical components are highly radioactive.
Sorry, but Die Grüne (The Greens) in Germany lost the plot a long time ago. Where they are in power for a long time, for example in BaWu, they are basically the CDU but greenwashed. "Sie kennen mich" anyone?
The subsidy was focused on developing a domestic manufacturing sector. Unfortunately rather than pay the subsidy at at instill they bound future customers with it which hid just how much money was involved.
> constantly pumping out papers that conclude nuclear energy has highest costs, highest danger, will leave unsolvable toxic waste problems, renewable energy is extremely cheap, building enough storage is no problem etc.
Isn't your choice of telling them false based purely on political agenda? Same happens on other side of the camp, both believe their science is actual science.
Flying is scientifically a well understood and safe thing. Still its the FAA that makes the rules, and engineering that needs to produce robust and reliable systems, and still planes fall out of the sky sometimes..
Scientifically we already proofed that fusion works, which would be the solution for a lot...
So what does "scientifically...much solavable problem" in practice really mean? Worlds apart..
> Scientifically we already proofed that fusion works, which would be the solution for a lot...
There is no evidence that fusion is a solution to any energy problems. The central problem of fusion power is that reactions consume more energy than they produce.
That's currently a problem, but I don't think it's the central problem. The central problem for DT is some combination of inherent complexity and very low volumetric power density.
> Scientifically, nuclear waste disposal is very much solvable problem.
No it is not.
There is no place on Earth that we know is geologically stable for the time periods required We have no way of knowing what society will be like ten thousand years from now, let alone 100,000 years. How do we communicate with those people bout the danger of what we left behind?
Tectonic plates don't move nearly quick enough to be a concern in the span of 100k years. A spot square in the middle of a plate is going to be safe from earthquakes for millions of years.
And not to mention, how does ground vibration bring sometimes buried under 500 meters of solid rock back onto the surface? Earthquakes shake the ground, they don't dig deep boreholes.
You’re incorrect about the middle of tectonic plates being safe from earthquakes by definition. Locating naively built skyscrapers in New Madrid, MO, for example, would be a bad idea. [1]
On a geological timescale, tectonic plates occasionally rift down the middle, both successfully (East Africa) and unsuccessfully (a failed plate rift produced the Great Lakes).
With that said, identifying strata that are going to remain seismically stable for a looooong time is a solved problem, and earthquakes generally damage only those things not attached to the (moving) earth.
Yet, all the attempts to store nuclear fuel underground in Germany proved so catastrophic that they had to scrap all of them and restart the selection process.
There are water around mines that will be toxic to human life until the sun collapse and the earth burns up. People will have to be aware of those dangers for as long human exist, unless humans mutate enough to tolerate lead and sulfur in their fresh water.
How should we communicate to those people of those dangers?
We can filter it out, but unless people know that the water is toxic then they might still be harmed. How do we inform the people of the future of the dangers that contaminated fresh water has, and how do we do that for billions of years into the future?
In some cases, yes, in other it seems that they are sink areas that are simply constantly being nurtured with migrant animals from the surroundings (Some birds for example). Is complex.
And we need to remember that some people was poisoned just a few months ago for digging trenches in Chernobyl in the middle of a war. The danger is still there forty years later.
Poisoned is a relative term. The rates of cancers and deaths from the Chernobyl disaster varies by an incredible amount depending on what source you look at.
Well no, we have plenty of data that shows in reality, nuclear is the safest (lowest deaths per TWh generated [1]), among the lowest-carbon intensity (lower than solar, higher than wind) [2] and with seawater extraction has the potential of being renewable.
Waste disposal is a solved problem: you put the spicy rocks back where they came from.
So-called environmentalists are advocating removing this capacity without accounting for the fact its replacement will be coal, oil and gas.
Besides this being studies for which other studiest exist the same, we also learned in the pandemic that "deaths" cannot be the sole metric (however you want to interpret that).
And seawater extraction is as renewable as CO2-scrubbing the atmosphere would allow us to go on with burnign coal - both would equally not scale to needs with current technology, so what?
Why wouldn't seawater extraction scale? There's 4 billion tons of uranium in the sea (a 60,000 year supply at current usage levels), and 100 trillion tons of uranium below that from which it's replenished as it is extracted.
Supplying a single 1 GW(e) burner reactor with seawater uranium would require a 170 square kilometer absorber field on the continental shelf. That's much worse power/area than solar, and just slightly higher than the power/area of an offshore wind field.
Of course use of breeder reactors could extend this, but with breeders terrestrial U resources are adequate for a very long time.
Sir. There's a practically unlimited quantity of uranium available to meet our energy needs now and for as long as humans wander this rock. To claim otherwise is disingenuous at best. A huge reason breeder reactors aren't used right now is that there's plenty of land-based uranium already and fuel is not a concern. So much so that stretching it with breeders doesn't really matter, and as a percentage of the cost of generated electricity the uranium input barely registers. By the time we need to dip into the renewable water-based sources, we'll long since have been carbon-free. It'll scale just fine. Stop worrying about problems that won't matter for 10-100,000 years. We've gotta clear the century first.
There is a pratically unlimited quantity if cost is no object. But for cost to be no object, breeder reactors are needed. For burner reactors, fuel cost will begin to be seriously affected rather quickly if we try to supply a 100% nuclear world economy with only terrestrial U sources. That economy would go through in excess of 1 million tonnes of natural uranium per year to supply the current world average primary energy demand of 18 TW (about 6000 3 MW(th) reactors.) This could exhaust known terrestrial uranium resources (not proven reserves) in less than a decade.
Breeders, as I said, would greatly extend the terrestrial U resource, both by getting 100x as much energy per unit of natural uranium, and by allowing resources 100x as dilute to be economically exploited.
The safety of nuclear assumes no nuclear accidents.
Also, at the low deaths/TWh of renewables and nuclear w.o. accidents, the "cost of deaths" (at the $9M/statistical life that the NRC uses) is swamped by the direct cost of the produced energy. So renewables continue to beat new nuclear on the cost front, w. cost of deaths added in.
The safety of any power source projects past performance onto future performance. This is a tautology, and not really relevant as we have 80 years of experience and nuclear provides 20% of US power. It provides almost 40% of Canada's electricity. 10% of the world's electricity. We have plenty of samples necessary to make an informed projection.
The direct cost of produced energy is very low with nuclear - super low. Just ask Ontario. [1] There is a large cap ex cost at the start, but you can amortize it over 80 years - whereas solar and wind has to be replaced every 20-30.
Nuclear prices in all externalities in its cost assessments due to the onslaught of attacks whereas other energy prices in almost nothing. Coal kills about 100 people per TWh, and at the same $9M NRC cost, coal should cost about $1/kWh.
> The direct cost of produced energy is very low with nuclear - super low.
Only if you ignore the amortization of the cost of financing and building the nuclear power plant. That's fine if the plant is provided by the Nuclear Fairy; not so fine in the real world if we're talking about building new nuclear plants that have to be paid for.
Some things are expensive - more expensive - but we should do them anyways because they're the right thing to do. Generally I refer to the 'nuclear fairy' as the government, whose job it is in my opinion, to make sure we do the right thing even when the market isn't interested.
You are engaging in the egregious fallacy of "if the government pays for it, it's free". That's true at the individual level. It's not true at the level of the whole society. And it's that latter level that matters when asking if nuclear power makes sense.
It's hard to see how wasting resources and, all else being equal, doing something the much more expensive way would be "the right thing to do". If nuclear is too expensive than a renewable solution, too bad so sad.
> You are engaging in the egregious fallacy of "if the government pays for it, it's free".
No, I'm not.
A role of government in my opinion is to facilitate providing services and creating infrastructure in the public interest which might not make market economic sense at the time we need it - if it is a better outcome for the citizenry. You're welcome to disagree but there's no fallacy there. I never said it was free, I said it was more expensive - but the government should do it anyways because it will make us better off. Like the post office and the EPA.
There's a reason in going to the moon, JFK never said that “we choose to go to the Moon in this decade and do the other things, not just because they are easy, but because they are the cheapest thing we can possibly do, and if it starts to look like it's cheaper or easier to be sitting on the couch then too bad so sad, to the couch we shall return!"
He said it was "because that goal will serve to organize and measure the best of our energies and skills, because that challenge is one that we are willing to accept, one we are unwilling to postpone, and one which we intend to win, and the others, too.”
> If nuclear is too expensive than a renewable solution, too bad so sad.
Right no. I don't believe in that. Again, nuclear is renewable, this much is basically indisputable. I believe that a better solution can be government funded in line with the charter of any world government, be it a western democracy or the PRC. I do not believe market viability is the be all and end all in this here world. I believe that attitude would have left us living as hunter-gatherers. I do not believe the cheapest solution is the only solution we should advocate for or pursue, period.
We deserve better and should demand better than your position.
They can beat nuclear right now -- you get more CO2 reduction per $ from adding renewables than you do from adding nuclear. And you get it sooner. Little or no storage is required. By the time storage becomes necessary, the economic environment (price as a function of time) on the grid will be so hostile to new nuclear that there will be no sense even trying to pretend nuclear makes sense.
You get more CO2 reduction until intermittency or geopolitical issues require you to bring coal plants back online to address energy shortfalls, like with Germany. You'd need an order of magnitude more renewables and a huge grid expansion to even remotely come close to solving energy unreliability in Germany, and even then you'll still have some issues. CO2 reduction is not the only goal, power stability is important.
When you need storage, the residual demand is highly intermittent. Coal would serve this rather poorly (and nuclear even more so). Gas would be more likely. However, at that point there are wild swings in the price of power across each day (and possibly across seasons), making storage quite attractive, and it would be rolled out.
If your objection is that storage would not be rolled out instantaneously, I will ask you to try to be more serious. Nuclear isn't rolled out even that fast.
You can make all the theoretical arguments you like, but the empirical data (California, Germany, and more) disagrees with your conclusion. Perhaps you should consider a more serious argument that actually agrees with the current evidence.
What? Experience in Germany and California is completely consistent with what I was saying. Of course natural gas without sufficient CO2 charges will continue to cover intermittency, especially when there's a great deal of already installed gas capacity whose capital cost is sunk.
Why is Germany reopening it's coal plants if not to make up for the intermittency problems of renewables?
If intermittency issues caused storage to be quite attractive, why hasn't storage already been rolled out across Germany and California?
Neither if these claims agrees with what happened in these two cases. Any electrical engineer could have told you storage is needed before decommissioning nuclear in favour of renewables.
> environmentalists are advocating removing this capacity without accounting for the fact its replacement will be coal, oil and gas.
Could you identify any broadly accepted environmental analysis that says this? It's easy to make accusaiont
> Waste disposal is a solved problem: you put the spicy rocks back where they came from.
The waste rocks are not at all like the ones removed from the ground, in critical ways (radioactivity). Who says anything about putting them back in the original mines? Why would the original mines happen to be suitable for nuclear waste storage?
I agree with more nuclear but blasting waste (at least highly radioactive) to space is a problem as there's always a risk the rocket explodes and spreads the radiation on earth. At least I've always understood that's the objection and seems to me reasonable. Yucca mountain type solutions seem more palatable.
If you can encapsulate the pellets to the point that they can survive getting blown out of orbit, catching fire and raining down over the human population without causing any harm - you can encapsulate them and throw them into Yucca Mountain and save the whole exiting earth step.
Except no, those are not the same thing. Stuff in the repository, for example, is exposed to a much higher cumulative radiation dose, which causes huge and unacceptable changes in many materials.
I'm not sure that's relevant to the broader argument I am making. Don't blast waste into space. It carries with it dramatically higher costs - and drastically higher risks. It's completely untenable according to every study and paper on the matter.
Again, selecting a geographic area away from humans and providing sufficient demarcation is dramatically safer than putting it into a rocket and flying it up into orbit over humans. If you disagree, cite a source on its feasibility - and one on the lack of feasibility of deep geological sequestration. Let's not shoot from the hip on this one. I know I haven't found any.
It's untenable with current launch vehicles. Do you think current launch vehicles are the sine qua non of launcher technology, for centuries into the future? We don't have to shoot stuff into space right this moment.
Despite his Twitter account, Musk is not the savior for everything. However, maybe he would like to be blasted into space on the first journey to Proxima Centuri? If anyone can do it, he can!
Still nuclear is finished everywhere (or on the way out except in China) and won't come back from the grave. It is like asking for cars from the 70ties to return.
Isn't that exactly what Tesla just did? The electric car was of course the 'car of the 70s' until it was the car of the 2020's.
Defeatism never solved everything, and China building hundreds of reactors might just be the shot in the arm to get things back on track. The big loss will be that it's these Chinese designs the world will use instead of Western designs.
You fell into the same trap. You linked 2 studies. Other side could link 2 studies with very different conclusion. We should understand it is fundamentally a political issue, and both side shouldn't hide behind 2 links to support them.
I didn't fall into the trap. Objective reality isn't political. The total number of people killed in nuclear accidents divided by TWh generated is pretty objective.
Unfortunately despite the track record nuclear won't make a revival. The planning cycles for new plants are just too long. Renewables will yet again half in price by the time you could just build another nuclear plant. That's why really nobody is trying anymore.
Is that still true for mass produced SMRs ('small' modular reactors)? That don't rely on special forges, of which we don't have much? Isn't that the promise of all those startups from the sector? Regardless of exact model and technology? True production lines like in shipyards, maybe more airplane-/carfactory like?
Instead of almost 'artisanal' 'one-offs', like it is now, even though they have common design elements?
When someone is exposed to radiation and dies of cancer many years later it’s impossible to know whether he’s a victim of radiation or just unlucky. As simple as that.
Do you think those aren't solved problems? First, fast reactors yield waste products that principally live only a couple of hundred years. [1] And even to answer your original question directly, there's a whole area of study that's fascinating on how to provide long-term warnings. [3]
Not necessarily in the Australian outback, Yucca Mountain is a great choice. [2] [edit](That area is adjacent to the Nevada Test Site which is already some of the most radioactive land on earth).
What greed exactly are you talking about? I've no financial interest in the success of nuclear power. I recognize it's more expensive than some competing options but it's a better solution.
As for hubris, again, you're not exactly coming to the table with data on the risks, especially since we've got 80 years of experience with nuclear power.
Exactly right. The goal with nuclear waste is basically to get it back down to levels similar the original ore. At that point, it isn't especially dangerous.
Many radioactive products are either very short lived, and will decay down to minimal levels within a few hundred years, or are very long lived, causing very low radioactivity.
The problem are the elements that are in between which is mostly the other actinides. Those are the ones that would require tens of thousands of years or more to reach safe activity levels. Fast reactor designs don't have significant amounts of such elements in the waste. The waste will decay to uranium ore-ore like levels within only hundreds of years.
The biggest issue is that they need relatively enriched uranium to operate at first. After they are started, they can be used as a breeder reactor that can take in natural uranium and convert it to the enriched uranium it needs to continue running.
Fast reactor inherently have more fissionable material in a smaller volume, and don't have a moderator that can either keep things separated or remove itself in an accident to kill the chain reaction. If a supercriticality on prompt neutrons alone occurs in a fast reactor the neutron population will increase orders of magnitude faster than in a thermal reactor, because the neutrons are moving so much faster.
Edward Teller in 1967 famously expressed his skepticism about fast reactors because of this safety issue.
That's not the argument I was making. I said anything of sufficient scale carries significant risk, and we can in time reduce that risk to acceptable levels via engineering practices and principles. As with airplanes, which are metal tubes full of humans we load up with kerosene and send into the atmosphere. A bad plane will crash, a bad reactor will melt down. We can overcome the risks to reap the rewards. That's like our whole thing, as humans.
Chernobyl happened for a very specific reason - you know, the late-night tests and the positive void coefficient. Do you think we haven't learned? Please cite sources. The thing is, we have learned. That's why reactors are so expensive. You're double-dipping by citing the risks and the costs. It's really one or the other if you're not being disingenuous.
It's not the argument you were making, but it's a point your argument is compelled to address. Yes, any system of sufficient scale carries risks. In the case of breeder reactors, one of those risks is the possibility of something approaching an actual nuclear explosion, with fast neutron physics similar to what happens in actual fission bombs, not pitiful low yield moderated explosions as happened in Chernobyl.
> fast reactors yield waste products that principally live only a couple of hundred years.
Hundreds of years is not acceptable. Humanity is not able to handle projects spanning hundreds of years time. Look at the Zaporizhia atomic energy site for an extreme example of what I mean.
The problem is not just the time scale either. There are other areas humanity fails at time and again.
P.S. Thank you nevertheless for pointing out several advantages of fast breeder reactors.
> The same talk show people now talk about how we have a heat and not a power problem, so we don‘t need the nuclear power.
Which is even more ridiculos because heat is the primary product of nuclear reactors. Their thermal rating of a nuclear reactor is about 3x the electrical rating.
Yes, for example Switzerland uses two of their nuclear power plants for district heating [1][2]. China has also started using it for district heating in Haiyang [3].
"Russia, Dec 1, 2019 — Unit 1 of the Leningrad 2 nuclear power station in western Russia has been integrated into the heat supply system of the city of Sosnovy Bor"
> The same talk show people now talk about how we have a heat and not a power problem, so we don‘t need the nuclear power. We are still burning gas and restarted coal power plants.
Heating problem IS a power problem given the high efficiency of heat pumps nowadays. And yes they work perfectly fine in Germany's relatively moderate winters.
Only in the most abstract sense, if you're willing to ignore actual installed capacity (and thus reality to some degree).
There are around 350k heat pumps in Germany right now, of 40 million households (ignoring offices, ignoring multi family homes etc).
There is no way Germany could install enough heatpumps to counteract the Russia induced gas crisis, not even over a timeframe of a decade or more. Optimistically you could fix this by 2050.
So yes, there's a heating crisis, not an electricity crisis.
EU has an yearly report of the state of the energy grid, and a common finding is that different country spend subsidies on different things. Germany spend most of any country, and they spend a bit half of that on production of renewable energy and the remaining split between fossil fuel and shared infrastructure like power lines. Very little of the subsidies goes to the consumer side.
There are however countries who focused on the infrastructure/consumer side of the equation. When communal or heath pump based heating is significant cheaper, suddenly people interest to invest into home improvements goes up. As the report describe, it not obvious which strategy is best in order to reduce pollution.
What's happening in Germany is unfortunate, But I feel that while rebutting the statements of Anti-Nuclear Energy institutions with science people often forget that in the end humans run the reactors and the safety/efficacy of a Nuclear reactor also depends upon the people who run it i.e. even the stringent of safety protocols & design choices can be rendered useless by corrupt imbeciles(As we've seen in the past).
So we should be careful in appropriating the overwhelming evidence of Nuclear Energy being safe and efficient to reactor in X vs Y.
Nice idea to shrink "Zukunftstechnologien" down to solar at the end of the argumentation...
The problem with nuclear is that companies will not have to pay for final storage of the waste. Tax payers will have to pay forever. Same shit with our german coal mines. Take this into your equation. Google "Ewigkeitskosten"
- LCOE of solar and wind beats the pants off of nuclear and coal currently. If it isn't in Germany, well, that's a political and management issue.
- maybe you keep the existing nuclear around for levelling, well, fine. But just be ready for it to get "nuked" once the battery/storage costs combined with wind/solar drop under everything. That day isn't today, and it isn't next year, but with cheap sodium ion and many other chemistries in active improvement... it will.
- nuclear waste disposal is solved... if you have a LFTR or similar tech to "burn" it. Otherwise, the usual handwave on nuclear waste is a telltale sign of "old nuclear", as are the people that say it is safe. Solid fuel rod designs are not safe.
I am not saying that LFTR should be the only path forward for nuclear, but the advantages of LFTR should be what a "real" nuclear solution has. LFTR is:
- scalable in size
- meltdown-proof (plug and pool where the liquid loses criticality)
- burns/breeds virtually all of its fuel, and IIRC can "burn" spend rod waste
- somewhat proliferation resistant
Again, I don't know if the LFTR design challenges are truly problematic, but the CAPABILITIES of LFTR should be a standard next-gen nuclear must be held to.
The Greens aren't correct generally in engineering or science, but what they are right about, indirectly, is the culture of nuclear power that grew up in the Cold War and attached to military needs for weapons isotopes.
Those political priorities overrode safety, good design, economic performance, and other concerns, and left us with the terrible solid fuel rod design.
LFTR got canned in the US in a backroom political power move, and the same nuclear establishment keeps it restricted from funds and research.
Again, I'm not saying LFTR is the "one true path". But its core abilities address the Green concerns: meltdown proof and virtually waste free. Those two aspects are the base table stakes a "next gen nuclear" would need. Maybe you have a combined reactor approach where one design produces from solid or pebble fuel, and then that gets fed to LFTRs for final burn off.
So I guess I would recommend Germany / France keep their nukes going for now, but view them as life support: these things are going away once battery/storage tech scales to meet the need, a virtually guaranteed proposition in the five year near future timeline.
For nuclear to be relevant long term you'll need the safety tablestakes mentioned, but all nuclear projects are 10 years out: you'll need a stable price to target/combat 10 years out from wind/solar, and you don't know that right now.
> - LCOE of solar and wind beats the pants off of nuclear and coal currently. If it isn't in Germany, well, that's a political and management issue.
LCOE isn't the only factor of relevance. That's partly how Germany got into its current situation, because LCOE doesn't account for intermittency.
To solve that you need a large interconnected grid and huge overcapacity of renewables (and even then you'll have some brown outs), or you need long-term grid storage, which still has limited options at this time. The LCOE of renewables is not so rosy after you include all of these considerations to achieve the same stable service as a nuclear plant. We might get there in 20 years, but we're not there yet.
Sorry but you and GP complaining about how policy prevented nuclear from being the backbone of energy supply, then totally ignoring the impact of policy on the supply of renewables, that is a pretty weak way to argue.
The politics in Germany have been pretty actively hostile to wind under the conservative governments. Check this graph I just compiled out of the stats from wikipedia:
Yeah, if you introduce legislation that "these people" tell you will stall the construction, then _exactly_ that tends to happen. The 10H rules and other BS from the conservatives were expressly and successfully introduced to stifle wind energy construction.
Whatever is coming, price is defined in Netherlands, look for Dutch TTF futures.
It is like price of oil - Brent futures minus some discount
> which leads to very high spot prices
Russian gas itself is not traded on spot place(s). It is long term contract, but price follow dutch futures. How this "price gouging" is done, could you describe mechanism?
I'm aware of that and it's summed up together with hydro etc. Why would you want to compare Nuclear with solar? I mean solar alone doesn't make much sense because it depends on daylight - which surely is great since most energy is used during the day and battery storage is getting increasingly deployed. But it's better to diversify and therefore rather consider the sum.
> 25% of the total was from coal, making coal the single largest but source for energy in Germany.
Well yeah but it's getting phased out on the long-term.
Edit: also it's worth considering that gas and bio gas (the renewable version) power plants can be used during peak times because they can be started and shutdown quickly. That's not possible for nuclear which provides base load - in fact they need to be shut down during heat waves
Actually, nuclear plants can be started and be shutdown quickly. Most countries don't do that because a large portion of the investment cost is in construction rather than fuels, so lifting the rods is just a cost center unless the grid is extremely over saturated.
> Well yeah but it's getting phased out on the long-term.
Who will take responsibility for the pollution of that. Saying that it will be phased out doesn't actually mean anything. Every technology and building will at some point in the future be phased out when the time is right, the investments has been repaid, and alternative technology can out compete the old. Current solar plants that is being built today will also be phased out on the long term.
I mean there's a law for coal power in Germany, already since decades but the new add-on codifies that. They might be doing worse than France in terms of CO2 emissions per capita but far better than the US.
Since cost is mentioned:
"The cost of generating solar power ranges from $36 to $44 per megawatt hour (MWh), the WNISR said, while onshore wind power comes in at $29–$56 per MWh. Nuclear energy costs between $112 and $189."
> That's not possible for nuclear which provides base load - in fact they need to be shut down during heat waves
Google "load following nuclear" and also read the article in Wikipedia [0]. That will help stop false information. Summary: Nuclear power plants in France and in Germany operate in load-following mode and can go from full baseload to nearly "running on idle" in 15 minutes if needed.
> It's just sad to see how little actual science is respected in Germany.
What part of this entire discussion has anything do to with science? Is anyone actually contesting the science?
Is it a discussion about the number of orbitals of uranium atoms? Or is it a discussion on which entities handle the long-term financials obligations, whether we favor or not decentralized grids, whether we favor short term or longer term solutions -- which in turn depends on whether the (possibly international) risks are long term or short term, etc. Not much of the later is "science".
Politics is not a science and never can be. This entire story -- the word "green" itself -- is as unscientific as it gets. Not in the "science contradicts it" sense; I mean in the "this is neither provable nor falsifiable and science has nothing to do with it" sense.
What "scientific" analysis has claimed "chernobyl can't happen again" ? It would be as ridiculous as someone claiming the new Airbus XXX model can't crash. Even analysis of the type "a chernobyl will happen once every XX years" are more political in nature than scientific, since you are assuming a stable society for decades to come (i.e. no degradation in the skill level of constructors or operators, etc. -- even foreign ones). Which, barring sudden miraculous discoveries in the area of Psychohistory, is basically entirely politics and outside the realm of science.
A article reiterating a press release from a company that doesn't have a prototype is not exactly a good source.
And at any rate, the article claims that
> The small size and large surface area-to-volume ratio of NuScale’s reactor core, that sits below ground in a super seismic-resistant heat sink, allows natural processes to cool it indefinitely in the case of complete power blackout.
Of course, the surface that allows efficient cooling here is the same surface that allows neutrons to escape, so my hunch is that it has poor neutron economy. (And of course, heat escaping through it will not turn turbines.)
> 2) refueling of this reactor does not require the nuclear plant to shut down.
That is very nice when you're trying to breed plutonium, the natural uranium fuel assemblies only have to irradiated a few weeks and then you would already need to shut the reactor down. When you can switch during operation, than there's less downtime.
So in total I guess it's a pretty inefficient reactor that's perhaps a nice addition to your weapons program.
Disclaimer: I'm of course one of the anti-nuclear types HN always tells me are only anti-nuclear because we don't understand these things.
> 2) refueling of this reactor does not require the nuclear plant to shut down.
That is very nice when you're trying to breed plutonium, the natural uranium fuel assemblies only have to irradiated a few weeks and then you would already need to shut the reactor down. When you can switch during operation, than there's less downtime.
So in total I guess it's a pretty inefficient reactor that's perhaps a nice addition to your weapons program.
This is incorrect. The NuScale reactor is not an online-refueling design like the CANDU (which is indeed easily adapted for breeding high grade plutonium simply by adjusting irradation time). It is an offline-refueling design like every other operating PWR. See this NuScale presentation about refueling operations:
The reactor has to be completely shut down for more than a week during refueling (slide 13). The plant can stay online because a plant contains a minimum of 4 reactor modules:
There is a big stretch from a "manufacturer claims my reactor design can't be hacked" to "chernobyl can't happen again", and neither is still a scientific claim.
The problem that I was trying to show is that people try to answer a question "can a chernobyl(-like) event ever happen again?" which one simply _can't answer_. Not in a "science" way, since to answer this question you need to predict the existence (not probability!) of a literal _punctual_ event which depends on a gazillion factors outside your control (i.e. this is not simply computing a MTBF).
I think what the commenter is saying is that it's not typical for good research to make statements like "X can never happen". Even if the conclusion of the research is that it's very unlikely for X to happen, or that there is no known way for X to happen.
I'm quite sure that no one who asks "can chernobyl can happen again?" is actually interested in the response to "can chernobyl happen again _in exactly the same way_"?. This is malicious nitpicking.
In the same way that I'm sure the victims of the next Airbus crash will be happy to know that "it didn't crash like the Hindenburg did".
Distinguishing between failure modes isn’t nitpicking when the difference is between the plant being totaled for the purposes of future power generation as opposed to spewing radioactivity over a third of a continent.
An Airbus that loses an engine and has to immediately land has objectively failed; however, acting like that’s equivalent to a plane homing into a skyscraper and exploding is not helpful.
Is it not malicious to scream "chernobyl!" willfully deceptively or willfully ignorantly confusing what can and cannot happen?
More people die every single year from radiation in coal than have died in the entire history of nuclear power. Replacing all coal with nuclear would save more lives and health than fighting nuclear ever could, even in theory.
And delaying coal to nuclear under the banner of "wind and solar maybe one day can help a bit" has blood on its hands.
Every year coal is still here, instead of nuclear, is 100 years of death. If building powerplants (of any type) were instant, and solar were one year away, then we should STILL replace all coal with nuclear TODAY, to minimize harm. (in a spherical chickens in a vacuum sort of way)
And not only do we not have enough solar, we don't even have a plan for energy storage for solar and wind. We have ideas, not a plan.
So solar&wind replacing coal&nuclear is further away than fusion power, by multiples.
> Every year coal is still here, instead of nuclear, is 100 years of death. If
> building powerplants (of any type) were instant, and solar were one year away,
> then we should STILL replace all coal with nuclear TODAY, to minimize harm. (in
> a spherical chickens in a vacuum sort of way)
But... we all know that it takes a lot longer to build a nuclear plant (on the order of 10-20 years) than it does to build (large) solar or wind farms (on the order of 1-5 years).
So.... yeah, if it was magically possible to replace all coal with nuclear right now, that would be a net improvement in terms of carbon output and general pollution.
But we live in the real world, and that is not possible, so I'm not sure what point you are trying to make, to be honest.
I'm pretty sure that enough solar/wind + storage can be built to replace a significant percentage (30%? 50%?) of the remaining coal plants, before the first new nuclear plant's plans and siting are even finalized, let alone before a new nuclear plant is fully operational.
People who made those exact arguments 10-20 years ago where wrong, since those plants would have prevented a lot of coal, oil and gas from being burned. Those people have both blood and an ongoing climate crisis on their hands.
Who should we blame in 10-20 from now if people still are burning coal, oil and gas? Who will take responsibility for the inaction?
> People who made those exact arguments 10-20 years ago where wrong, since those plants would have prevented a lot of coal, oil and gas from being burned. Those people have both blood and an ongoing climate crisis on their hands.
Perhaps. But 10-20 years ago, solar/wind/storage was a lot more expensive and a lot less efficient. The situation is quite different now.
> Who should we blame in 10-20 from now if people still are burning coal, oil and gas? Who will take responsibility for the inaction?
Realistically, there will probably still be knuckleheads who will be burning coal, oil and gas in 10-20 years from now. But hopefully they will be a very small minority.
The main thing that gives me hope is that it is now so much cheaper to build/run renewables than fossil fuel plants, that the latter will be phased out sooner rather than later, just for economic reasons. Those 6 out of touch old people on the supreme court are trying to delay things - and their actions will have very bad consequences for all of us - but the trend is clear.
> Realistically, there will probably still be knuckleheads who will be burning coal, oil and gas in 10-20 years from now. But hopefully they will be a very small minority.
Germany is the largest country in EU. If they are still burning coal, oil and gas in order to supply energy when the wind is low, what will we say about this "very small minority". Investors are putting a lot of money today on fossil fuel power plants that has several decades in estimated life-spans. We can wish and hope that some future technology will prove them wrong, just like climate change denials can wish and hope that scientists are all wrong.
This lead me just back to my original question. Who should we blame in 10-20 if people still are burning coal, oil and gas? If future tech won't save us, who can we blame for making this gamble and using the planet as collateral?
That red tape was installed (in North America) post-Five Mile Island however.
South Korea is also very capable at building these quickly, though I've heard concerns raised about their safety (grain of salt, I have no opinion myself).
China does not build nuclear plants in two years. In particular when China starts the clock on building a plant is not same as when the clock is started in the West. In China, there's already concrete and steel in the ground at that point.
Also, the plan described there is an addition to take steam from an ALREADY EXISTING nuclear power plant.
To exemplify the difference between science and politics:
- Nuclear is safer than coal: science (true or not, it's not the point)
- We need to go all the way nuclear: politics. There's a million other things to consider, many of them don't even each into the realm of what is falsifiable (e.g international relations, fuel availability, who knows). _Even_ if nuclear was literally the safest method ever, it is literally still politics whether to use nuclear or not; after all, we sacrifice safety for convenience _many_ times, and good luck defining "convenience" in a scientific way.
Another example:
- Vaccines are safe and effective (scientific; true or not is not the point)
- Vaccines are safe enough compared to the risk of catching the disease itself ("social" sciences; caveat emptor)
- We should force everyone to vaccinate (politics). It does not matter if vaccines are safe, or not. It is still a political topic, not scientific. There are things like ethics, social vs individual rights, etc. that are hardly quantifiable much less scientific.
These are bad examples. "Vaccines are safe and effective" is not scientific because science can deal with comparisons, it cannot deal with absolutes.
You can scientificly say something is safe compared to something else, or define safe in some way (less then 1 in X chance of something happening statistically). But there is no such thing as 100% absolute safety. Even an injection with saline is not safe in the absolute.
E.g. if there is a 1 in a trillion chance of a side effect, you will never see it, because there arent a trillion people on earth.
I don't think this is relevant to my point. Not wrong, just not relevant.
Individuals who are anti nuclear have reasons, explicitly stated, that are misinformed.
Being anti nuclear because Chernobyl is in fact like being anti airplane because Hindenburg.
The criticism is actually (in this analogy) that they claim the hydrogen in a 747 will catch fire. "It's not hydrogen, it's just filled with oxygen and nitrogen" is met with "then what if that spontaneously combusts?!".
But in a way you make a good point. "I don't want to have a rational discussion or learn anything" is indeed the anti nuclear stance. "I don't want the truth, i just want to be right" is political.
The other things you mention are not really even known to anti nuclear people.
Wanting to be right despite facts or ignorance is almost the definition of politics.
People say they're anti nuclear because they want to spare us radiation and death, but when you tell them nuclear would reduce both then they just scream louder.
You can be factually wrong in politics. When your stated and internal reasons don't align with what your actions will accomplish, then that's wrong.
When coal is burned, all the uranium daughters accumulated by disintegration—radium, radon, polonium—are also released. The
United Nations Scientific Committee on the Effects of Atomic Radiation evaluates the radiation exposure to the population from this source.2 Per gigawattyear (GWe-yr) of electrical energy produced by coal, using the current mix of
technology throughout the world, the population exposure is estimated to be
about 0.8 lethal cancers per plant-year distributed over the affected population.
Table 7.2 summarizes these data. With 400 GWe of coal-fired power plants in
the world, this amounts to some 320 deaths per year
This estimate uses the Linear No Threshold (LNT) model [1], which is unsupported by science. The organization you mentioned, the United Nations Scientific Committee on the Effects of Atomic Radiation no longer uses this model.
The relevant wikipedia quote is
One of the organizations for establishing recommendations on radiation protection guidelines internationally, the United Nations Scientific Committee on the Effects of Atomic Radiation (UNSCEAR) that previously supported the LNT model, no longer supports the model for very low radiation doses.
The actual UNSCEAR paper is [2]. The relevant quote is on page 33:
Projections of the absolute number of cancer cases in a population have less and less information value and can be increasingly misleading at lower and lower doses. As a matter of general practice, the Committee does not use the risks inferred from studies of populations following radiation exposure at moderate and high doses to project absolute numbers of radiation-induced cancers following exposure at low and very low doses.
If all you mean by "chernobyl happening again" is "a serious accident could happen", you've moved the goalposts beyond where I think meaningful discussion is possible.
It also means that a "new chernobyl" can happen at any power station, be it hydro, coal, solar, etc.
> If all you mean by "chernobyl happening again" is "a serious accident could happen", you've moved the goalposts beyond where I think meaningful discussion is possible.
WTF? Chernobyl will NEVER happen exactly the same way again, that much is obvious since
a) it was already a pretty rare event to begin with,
b) the event is likely referenced during the training of every nuclear operator _worldwide_, making an exact repeat of the human errors involved even more unlikely than it was to begin with,
c) steps were taken to avoid this exact situation to happen _even on the other chernobyl reactors themselves_.
I thought it quite obvious that no one would be worried about a exact repeat of Chernobyl like if you hit the "replay" button on YouTube. (But if you believe this is what people have in mind when they ask "can chernobyl happen again" then please do tell). Therefore the only remaining interpretation is "can a chernobyl[-like] event happen again" -- a category which would roughly map to "major historic nuclear accident, the kind of which it is still talked about several decades after on a non-nuclear discussion forum like HN".
Most assuredly, non-nuclear accidents, no matter how large, won't fit this category. But I have been wrong in the past, maybe people would call a dam breakup "a chernobyl" these days?
Modern reactors all have a containment shell made of concrete and steel that is capable of keeping the melted down uranium core inside it, if the worst possible event would happen. Had Chernobyl had this, the incident might have destroyed the reactor and even killed some employees, but that would have been the end of it, and the world would never even have heard about the incident.
There are also plenty of other security improvements since that ancient design, but the containment shell alone makes what I would call "chernobyl happening again" just about impossible.
If the original argument was "the exact same thing that happened at Chernobyl will happen again", then that's meaningless and irrelevant, because... who cares? What people actually care about is whether a nuclear disaster could happen again, one that kills a bunch of people and makes a significant area of land uninhabitable for some long period of time.
If you think that's "moving the goalposts", then I don't think you're here to have a good-faith discussion about why people are worried about nuclear energy.
Having said that, I do believe that a significant accidental nuclear disaster is much much much less likely now than in Chernobyl's time. But that doesn't mean it's impossible, or that we shouldn't think about or be worried about it. And also consider that's "accidental": we also need to consider the possibility of terrorist- or state-level attacks, which may be harder to protect against.
I think much of the friction in this discussion is that we mean different things with "Chernobyl can happen again".
Chernobyl lacked many security features that are standard on all modern reactors. The biggest flaw was it had no containment structure. That's the steel & concrete dome which, if the worst happens, keeps the melted uranium contained within it.
That alone would have made the Chernobyl disaster just a bad local industrial accident, and that's the main thing I mean when I say it can't happen again. Though it's far from the only security improvement modern reactors have over Chernobyl.
> But that doesn't mean it's impossible
This is the "you never know!" argument. The good and bad part of it is the same: It is always true! Any thinkable disaster, can conceivably happen, and maybe you "should" be worried about it.
Of course, applied consistently, it would lead to total paralysis. This is no way to rationally approach risk.
How about a middle ground of, can a level 7 event on the International Nuclear Event Scale happen again?
Its still kind of a bad question,because we can't rule out dinosaurs attacking the power plant. Maybe the question should be,is there a less than 1 in a million chance of a level 7 event happening when using a modern nuclear plant design in the next 100 years?
RBMK-1000 is actually still in use in Russia at three locations (they obviously fixed the bug that lead to the disaster, so it won't repeat 1:1...).
That also points at one issue. All the now >50 year old reactors should have been replaced with newer versions at some point. Just think about what kind of electronics there is in those things. This didn't happen anywhere. Not in Germany and not in France.
If by "Chernobyl" you mean any nuclear accident that results in some kind of radiation release, then of course, it is a possibility as long as we build any kind of nuclear reactor. But if by "Chernobyl" we mean a massive explosion of an uncontained reactor that contaminates thousand of square kilomoters of land severely, and spreads some degree of contamination across continental areas, then it's an entirely different story. It is possible to build reactors that simply don't have a catastrophic failure mode like the Soviet RBMK, or evenm like those of 1950s and 1960s designs for BWR (used at Fukushima) or PWR (Three Mile Island). Any design can fail, of course, but how they fail, matters.
A MSR/LFTR can simply have a heat plug and a "cooling pool" where the fuel spreads out (the pool is not actively cooled at all). So if the reaction is going off the rails, the plug melts, the liquid disperses in the pool, and neutron economy cliffdives and the fuel stops reacting automatically
A solid fuel rod just needs the right disruption, and you have a meltdown. It's inherent to solid fuel designs because they are ... solid.
I look at that timeline and all the active systems that are necessary in solid fuel rod. LFTR doesn't need those to cool, it is a somewhat self-regulating design. There's no high-pressure steam to worry about regulating.
Additionally LFTR:
1) breeds its fuel from Thorium, a low radioactivity element, so some stockpile of heavily radioactive stuff isn't hanging around.
2) "burns" most/all of its fuel, so there isn't some stockpile of bad waste that can get washed away.
I'm not sure if pebble bed type stuff or other schemes could have similar guarantees, and it's not like an underwater LFTR wouldn't have lots of strange elements leaking, but there are so many failure events in that fukushima timeline that IMO a LFTR design would have simply shut down and no big deal.
Again, all those pressure events and active cooling system failure points.
LFTR is generally an unproven design, but it has so many good features that I view it as the starting point of next gen nuclear. I think its scalability is the key to nuclear's relevance in the future to compete economically with mature solar/wind/battery.
To get back to your point about the politics: the current nuclear industry... the lobbyists, the regulators, the "culture" ... is gravitationally bound with the solid fuel rod design. A clean slate is needed, and wind/solar sweeping away the economically unviable and inherently dangerous old designs and their political structures is probably doing nuclear a favor in the long run.
> A lot of the anti-nuclear opinion is passionately opposed to scientific analysis.
It's easy to disparage people who disagree with you (and if they disagree, they must be unscientific! They couldn't be difficult issues and serious concerns). It only poisons attempts to move forward and learn anything.
Much of anti-nuclear energy opinion has been led by scientists and most of the more scientifically sophisticated people I know are very skeptical about nuclear power (including me).
The disparagement makes it look like reactionary politics, not scientific interest - that is their modus operendi - and of course, the reactionary attempt to discredit anything progressive is currently focused on nuclear energy policy.
Thank you for this common sense reply. The truth is Chernobyl can never happen again, and scientists are completely all-knowing when they explain what can and can't happen.
Of course it can! It's almost certainly much less likely now, but I don't think anyone has presented convincing evidence that it's impossible that something like that could happen again.
And that's a really big deal. Even if the risk of another Chernobyl is ridiculously low, another Chernobyl would be so bad that it's worth considering.
Having said that, I do support nuclear energy, and wish there wasn't so much FUD spread about it. But let's not delude ourselves into believing there are no safety concerns, or that we've solved the waste storage/disposal problem.
Chernobyl has happened each single year since 1986.
Has been swallowing money each single year since 1986. No exceptions. I'm really convinced that the problem will be there still in 2023. And turning much worse is also a possibility because s*t happens in a war-zone.
Fukushima also coincided with the largest earthquake Japan has ever seen (which caused Fukushima incident itself and complicated evacuation efforts). The expected death toll ranges between several hundred and several thousands.
By comparison, vehicle emission is expected cause ~20,000 premature deaths in the US, every year [1]. (Sorry, I couldn't find a stat for Japan.)
In other words, mankind's second worst nuclear disaster killed about as many people as vehicle emission kills in the US every month. That's not counting car accidents.
In fact the wikipedia page about the disaster [2] contains this amusing bit of information, which might not be a fair way of looking at it, but I can't say it's factually wrong:
> it has been estimated that if Japan had never adopted nuclear power, accidents and pollution from coal or gas plants would have caused more lost years of life.
The death toll for the Fukushima nuclear plant (as opposed to to deaths from the tsunami) is either zero or one. There was one 80 year-old who died of lung cancer, but it's unclear whether the cause was radiation from the incident or if he'd have died of lung cancer anyway as many 80 year-old smokers in Japan do.
The population exposure from radiation from Fukushima will likely cause some hundreds of cancers. These will not be statistically detectable, but that doesn't mean they won't exist and that policy cannot take their plausible existence into account.
Any sources for this estimation? I've read nothing even remotely close to that prediction. At its peak, people in Fukushima city were only receiving ~0.06 mSv/day of radiation. This only lasted a couple of days. The vast majority of people didn't even face that since they were evacuated.
In contrast, a transatlantic flight results in about 0.1 mSv of radiation. Someone getting a single abdomen x-ray would get over 0.2 mSv.
> mankind's second worst nuclear disaster killed about as many people as vehicle emission kills in the US every month.
In fact the tsunami killed 20,000 people - and would have done so regardless of whether there was a power plant accident. The nuclear accident killed one person.
Fukushima in 2011 is very similar to Oroville Dam in 2017. 154,000 evacuated vs 180,000, and both were caused by very rare natural disaster. Both involved failures in handling emergency scenarios like natural disaster, and failures in technology that was supposed to prevent catastrophic failures. Both also involved political failures in addressing risk to people who live near those power plants, and failures in addressing prior safety concerns.
Hopefully those incident will have taught those countries to respect the enormous destructive forces involved, create a work culture where safety concerns do not get ignored, and to build power plants with consideration of very rare natural disaster.
Issues with Fukushima that could've prevented the disaster were raised by engineers/scientists but were ignored for years by the government/politicians
Similar claims are often made after accidents, especially by people sympathetic to engineers an scientists (such as at HN). Given a large enough population, you can always find people who predict disaster. Every leader (of a large enough population) has to decide which predictions to trust and which not to; there isn't enough money and time in the world to listen to them all, and to perfect any machine - especially large, highly complex ones.
The question is not 'was this one prediction accurate?', but 'how reliable is that population of predictions?'
It is stuff like people religiously dissmising you when you tell them that nuclear is nearly the safest power source in terms of deaths per TWh [1].
They don't base their opinion regarding safety on data, they base it on the feeling that they get from seeing large disasters and not seeing the countless deaths caused in silence, and they refuse to update their view even in the face of contradicting data.
The reason people are skittish about nuclear is because when it does fail, it fails catastrophically. The biggest failures in memory are all failures that risked making a multi kilometer area potentially completely uninhabitable for decades. Even if the risk is only 1%, coal is a much less scary prospect.
I understand that, but really you have the option of either going all-in on nuclear and potentially making patches of several km² uninhabitable, or going all-in on fossil fuels and making gigantic regions of the earth uninhabitable due to climate change.
It is a choice between a very local problem or a global one. There is no free lunch.
No, we also have the option to go all-in on solar and wind power, and avoid both of those bad outcomes. Of course, solar and wind aren't perfect either, and have other problems that need solving (energy storage for nighttime and dark/calm days, for one thing), but "nuclear or fossil fuels" is the falsest of false dichotomies.
Let the marker and voters decide by removing fossil fuel from the choices. Without fossil fuels as a cheap storage solution it will be up to tax payers, investors and market operators to decide if energy storage or nuclear is the best/cheapest/technology viable solution.
As long the choice is between nuclear vs wind + fossil fuel, the discussion will be focused about fossil fuel.
You can't just snap your finger and say "we go 100% renewables now!".
Germany is probably one of the country that commits the strongest to transitioning to renewables right now, and we started that process in 2011 and expect to reach 100% renewables between 2035 and 2040 the earliest. In the meantime, you HAVE to use another source.
That is 30 years for which you have decide to etiher use fossil fuels or nuclear. So do you wan't to dump CO2 into the air for 30 years and further advance climate change, plus kill millions due to air pollution? Or do you want to accumulate nuclear waste for 30 years, but have way fewer deaths and you don't worsen climate change further?
It is not a nice choice, but it is a choice that has to be made. And Germany decided to choose fossil fuels instead of nuclear.
How about hydro? There have been catastrophic damm
faillures in the past, too.
Not a damm failure, but last year there was ~250 death in Europe and 10 billions of euros of damages because of the floods. [1] That's much more damages than Fukushima and comparable to Chernobyl.
See - this is exactly the kind of irrational comment that is a problem. "multi-kilometer" "1%" "catastrophically". ...these are all emotionally driven elements to an argument that does not hold water under scientific scrutiny.
Reactors like Chernobyl and Fukishima are not built today and cannot meltdown. The chance of meltdown is nearly 0%. ...and the danger of meltdown on a modern reactor is like what happened at Three Mile Island (which is basically nothing). No one died, nor was even irradiated. ...and even that type of meltdown is no longer possible.
...and finally "multi kilometer" is not even that big. The Earth is 300 million square kilometers in area. Even if your estimate was correct (which it isn't), then it still wouldn't be a big deal.
1% per what? 1% per GWh? Coal power kills a huge number of people through air pollution, and that's during regular operation. So for me personally, coal power is much more scary than nuclear power.
I don't think "deaths per TWh" is the only measure we should be looking at, though. The Chernobyl exclusion zone is around 1000 square miles. It's certainly arguable if that is the correct size, or how long it will need to be in place.
If you shut down a coal plant, the pollution dissipates in a fairly short amount of time. (Unfortunately the same is not true of the carbon that has accumulated in the atmosphere over time.) If there's a disaster at a nuclear plant, some amount of land area becomes uninhabitable for some long amount of time (amounts dependent on the severity of the disaster).
For the record, I am in favor of building new nuclear plants, especially in areas where they can replace coal or even natural gas (it's absurd that this EU parliament action is considering natgas "green" as well). But let's not pretend that they are 100% safe, that the worst case can't happen, that the effects of a nuclear disaster aren't that big a deal, or that we've solved the waste disposal and storage problem. I agree that many anti-nuclear folks are driven more by overblown fears than science and statistics, but pro-nuclear people seem to also cherry-pick stats to better support their position.
Radioactive fallout can be cleaned. Most of the Fukushima exclusion zone has been resettled. Pripyat was not resettled because it was a planned town specifically created to support the power plant and its workers. So there's no reason to spend the money to rehabilitate it.
Those numbers are based upon flawed and selective numbers making them quite ridiculous for several reasons:
For example: with Fukushima the nuclear bandwagon arguments that those deaths which actually occurred resulted from moving people to a safe area. As if not moving them would have been an option or if the movement would have happened without the accident.
For Chernobyl it's even worse since there the bandwagon arguments with dead firefighters, ignoring all the "fallout" victims which to these days exist and lose years of life. Not even mentioning missing data: https://www.sv.uio.no/sai/english/research/groups/anthrotox-...
Besides that it is the same people who say that Germany could have less coal plants with nuclear running. Something which is also not true since the reason for keeping coal so long was not the lack of electrical power: https://en.wikipedia.org/wiki/Commission_on_Growth,_Structur...
For Fukushima for example, the deaths from evacuation ARE included in the death toll (the total number is estimated to be 2,314).
You have a detailed article about the data here [1].
But I am open to change my mind. Can you give a source that compares the mortality rate of energy sources and that, in your opinion, better accounts for all deaths? What is the highest mortality rate for nuclear someone has every estimated?
The source you posted is highly biased against nuclear - and HEAVILY inflated the number of deaths caused by Fukushima, while strangely putting outrageously low numbers for the deaths from Chernobyl.
...for a better breakdown, but this wikipedia article conflates deaths caused by the meltdown evacuation with deaths caused by the tsunami and earthquake evacuation (remember the massive tsunami and earthquake?).
Additionally, while trying to predict future deaths based on undetectible doses of radiation is a very unreliable task. ...and if you compare it to other energy sources, nuclear is one of the safest, if not the safest of the scalable solutions.
Nuclear power was ended in Germany for political reasons. The public has an incorrect idea of how dangerous nuclear power is and how dangerous nuclear waste is and it was easier for the politicians to go along with it for points than stand it's ground.
If you're making policy based on scientifically inaccurate ideas then you aren't respecting the science.
In Germany the maximum insurance liability for nuclear disasters is $2.5 billion. In the US it's $0.35 billion. Fukushima cost $800 billion.
This happened essentially because without a liability cap the entire insurance industry considers nuclear power to be ridiculously risky. So the government, who wanted to protect investors, stepped in.
I feel like a lot of people who dont know this want to educate me about how safe nuclear power truly is.
I was curious about this figure, found info here. Also, apparently the Price-Anderson Act which created the liability limit was passed in 1957, and there's a reasonable argument to be made that it no longer makes sense now that nuclear technology has matured: https://www.nrc.gov/reading-rm/doc-collections/fact-sheets/n...
> Over time, the "limit of liability" for a nuclear accident has increased the insurance pool to more than $13 billion.
>
> Currently, owners of nuclear power plants pay an annual premium for $450 million in private insurance for offsite liability coverage for each reactor site (not per reactor). This primary, or first tier, insurance is supplemented by a second tier. In the event a nuclear accident causes damages in excess of $450 million, each licensee would be assessed a prorated share of the excess, up to $131.056 million per reactor. With 95 reactors currently in the insurance pool, i this secondary tier of funds contains about $12.9 billion. Payouts in excess of 15 percent of these funds require a prioritization plan approved by a federal district court. If the court determines that public liability may exceed the maximum amount of financial protection available from the primary and secondary tiers, each licensee would be assessed a pro rata share of this excess not to exceed 5 percent of the maximum deferred premium ($131.056 million); approximately $6.553 million per reactor. If the second tier is depleted, Congress is committed to determine whether additional disaster relief is required.
High end figures are 1 trillion. Those are pushing it a bit.
It's nowhere near as low as 200 billion.
Either way while the industry refuses to fully pay for its own risks or acknowledge that it does so its claims of safety via public relations channels are sounding more than a little disingenuous.
So you exceeded the liability cap by a factor of 100, rather than 400... I'm sure there is a person for which a 99% vs a 99.75% payment by the state makes a difference. But ...
And remember, "renewable" energy is really natural gas supplemented by wind and solar. There's no plan for a 100% renewable grid until some massive breakthrough in energy storage happens.
The Japanese government (and indeed, insurance too) is doing far more work than they should be. The standard should not be "fix area to how it used to be" it should be "take what measures are cost effective to improve area". But that's politically untenable.
Radiation levels around Fukushima are perfectly fine for habitation and would have been so even if nothing but basic post-accident reactor containment had been done.
Governments insure a lot of things, some that are arguably idiotic. The US gov insures people who build houses right on the coast. The homeowners couldn't afford private insurance since the expected costs would be astronomical. So the Gov steps up. Same with New Orleans, built on an unsustainable location. So every decade or so, the Gov chips in a couple hundred billion so people can go to Mardi Gras...
There is a world of difference between a cheap PR offensive that tries to convince the public that nuclear power is now safe and stepping up to shoulder the liability and costs if it is not.
So far the industry does a lot of the former and zero of the latter. Hell, the op eds about safety routinely coming from nuclear lobbies dont even acknowledge that taxpayers are 99+% on the hook if they fuck up.
Makes me feel even more safe that theyre now lobbying mainly to extend the life of old nuclear plants. What could go wrong?
That's not going to protect the investors. If a company causes damages beyond its liability insurance cap, plaintiffs can sue the company for the difference.
This argument is tiresome. Several strong interests wanted to end nuclear power in Germany for a long time before it finally happened. And it wasn't the greens that did it. That much is public knowledge, there are wikipedia pages and everything.
The reason nuclear power ended in Germany was economical. There's no way nuclear can compete with cheap Russian gas, and Germany had over invested in the latter for over two decades, for reasons that obviously had nothing to do with nuclear power.
Look no further than Gerhard Schröder to see how this started. Again, this is not secret and there were newspaper articles everywhere. Then follow to the path across time and party lines to Angela Merkel who saw it through. Simple economics ruled all the way.
This is not complicated, and there's no reason to see a conspiracy here.
It has nothing to do with science. OP is just parroting a meme circulating in a certain group of people who didn't realise that nuclear is gone and has been replaced by renewables years ago.
It goes with the meme that you glorify France while ignoring it's failures which are quite prominent these days just the same way he ignores the fact that the chancellor for the last 16 years was an actual physicist.
This is the level of debate we currently have again here in Germany.
> In France, top positions in the administration are usually filled by people that are technically excellent and have gone through the system of grandes écoles (ENS, ENA, X, ...)
That's a misconception. ENS has two branches, science and literature. ENS Sciences is technical, the other isn't. X (Polytechnique) is an engineering school in theory, but in practice very few of its students become actual engineers.
ENA is essentially a law school; it's even less than that, it only teaches how the French administration works, not law.
The one thing these schools have in common is that they are extremely competitive, and select for extreme dedication (and a bizarre capacity to study with high intensity at an age when other people are dating or partying).
But at the top level of the French government you mostly find only énarques (= people who attended ENA); they are not technical in the least, "don't have a clue about technology", but think they know everything. It's a terrible, terrible system.
I had colleagues that went through École Polytechnique and the Corps de Mines (usually reserved to the top 2 graduates of a given graduating class of several grandes ecoles) that then went on to work for the government. And I think it's still mandatory to work a certain number of years in the administration after going through some of the grandes écoles, not sure if that was changed (I graduated in 2012 so it was a while ago).
Of course not everyone is graduating with a technical degree, but coming from Germany where top politicians often don't even have a finished university degree and high-ranked politicians are regularly found out to have been plagiarizing their PhD work it was pretty impressive to see a working elite system. It also has some negative aspects and nepotism is a thing as well (in the sense that people who went through the system know how to game it to get their children in with high probability) but it's much better than what we have here, in my opinion.
Germany was and still is scared of anything that can be considered elitist as people always associate it with the elitism from the Third Reich.
I know almost nothing about the German political system so I won't discuss that. But the French system has plenty of flaws, two of the biggest being that
1/ énarques aren't technical at all, don't actually know anything except how bureaucracy works, and yet they're in charge of everything
2/ super-selective schools have the side effect of letting people think they're geniuses because they topped a competition while in their teens
Yeah I'm sure the French system also has its problems, my general impression about the administration (not top level political positions) was that people were more technically competent though. I might be biased though as I mostly know people from a few institutes on the Saclay plateau, so it might just have been an "island of happiness" in a sea of problems.
70% of the people in current Bundestag have finished University and another 15% some other colleges. 5% studied without finishing. With a clear upward trend in those numbers each legislature period. I'd consider that a high enough number for people representing society. Thought technical degrees are sadly rather low (don't have exact numbers, but seem to be around 10% of those with degrees). Source (in german): https://www.bundestag.de/resource/blob/272942/924eeff93db104...
And yet weirdly, those non-technical people seem to have accidentally stumbled on the solution that the whole world is moving towards, while the highly technical French have forgotten how to build nuclear and even their most ambitious goals include using less nuclear and replacing it with the stuff the ideological German's came up with, because it's better. And it wasn't that long ago that they were threatening to scrap the whole idea of nuclear if the industry didn't produce one on time and budget, which still seems to be the main problem, they've just been given another chance to fail.
Weird, it's almost like these ideological people were listening to experts, but you didn't like what the experts were saying, and so you labelled 'following expert advice' as 'ideological' to help you continue to ignore expert opinion.
> the highly technical French have forgotten how to build nuclear
They haven't forgotten, they were fighting a witch-hunt orchestrated by the greens. The same eco-ideologist that ruined Germany have made it impossible to properly invest in the nuclear plants in France and to ensure knowledge and expertise is properly transmitted and developed with the younger generation.
For years the message was "don't invest in nuclear, don't study nuclear, don't build nuclear, don't maintain nuclear". Now the message is "we can't even do nuclear properly", it's a disengenous argument.
What we need is a bit of future perspective: Nuclear is here to stay for the next decades (plural). Nuclear related jobs will be in high demand. Nuclear jobs will be well paying. Nuclear jobs will be safe. Nuclear formation is important, and here is money to ensure it happens. Maintenance of nuclear plants is important, it needs to happen and it will be financed. And that will lead to true expertise and safety.
This highlights the real Achilles heel of the nuclear industry - it is a labour efficient power producer that it doesn't employ enough people to guarantee political protection.
We ended up with a group of people who would benefit a moderate amount from cheap power, and a fanatic anti-nuclear lobby that succeeded in scuttling decades of progress. The more motivated group won, as is predictable.
It is amazing watching Europeans trying to achieve energy poverty in defiance of their technical head start. The energy figures out of places like the UK, France and Germany are startlingly bad (eg, [0]). Especially considered per-capita.
> Nuclear is here to stay for the next decades (plural).
That's the problem with nuclear; even if every nuclear power plant on the planet were shut-down today, "nuclear" would still be here to stay for at least a century or two.
No nuclear power plant has ever been fully decommissioned. Decommissioning of the first UK nuclear power plants is expected to last another century. That's being paid for by taxpayers. The builders and operators of those plants were never asked to plan or pay for decommissioning; and anyway, 200 years is a long time to expect a corporation to stay alive.
So let's be quite clear: the cost of a nuclear power plant includes the cost of decommissioning. Since decommissioning takes such a long time, you can't rely on contracts with private companies to ensure they finish the job. Decommissioning is a horrible insurance risk; never having been completed successfully, there's no reliable guide to how much it might cost.
So, step forward, the insurer of last resort: my grandchildren!
> There have been 10 plants in the US that have been fully decommissioned
According to your link, there are 10 plants that have achieved "DECON status": that is, the spent fuel and machinery have been removed from the site (presumably to some other site).
I'm sorry, but that's a cop-out: it's cheating to say you've decommissioned a site, when what you've really done is transport the entire site, including topsoil, to a new location. That's like saying your plastics are green, because when they are no longer wanted they are all shipped to Indonesia. And apparently at least some of those "decommissioned" sites still have spent fuel stored on-site; I don't see how a site with spent fuel can be considered to have been returned to "greenfield" condition.
"fully decommissioned" by some somewhat unintuitive definitions:
> The DOE was required by contract and statute to begin removing spent nuclear fuel and GTCC waste by January 31, 1998. To date, the DOE has not removed any spent fuel or GTCC waste from the CY site, and it is unknown when it will.
The current 'plan' is for the companies looking after the waste on the original site to sue the government every few years to get paid for looking after the waste.
this is exactly the idealism thats causing problems -the energy futures in germany reaches the highest price in recorded history, the industry is being decimated and it's importing gas from a tyran that has started a war on Gemany's doorstep. Without Europe's gas dollars he would not be able to fund it's millatry and 12 million ukranians would never become homeless refugees.
Meanwhile you are complaining about waste that sitting sealed and monitored, and is not hurting anyone.
No, what's creating the problems is the gas and coal lobby that dug into the conserveratives (CDU) and social democrats (SPD) to prevent the Energiewende from completion by creating burocratic and economical hurdles.
For example, it was forbidden to have more than 50GW installed capacity of solar. By Law.
oh and also destroying the industries building the solar panels, therefore losing the entire market to China…
> the energy futures in germany reaches the highest price in recorded history, the industry is being decimated and it's importing gas from a tyran that has started a war on Gemany's doorstep. Without Europe's gas dollars he would not be able to fund it's millatry and 12 million ukranians would never become homeless refugees.
Obviously, nothing can be done with nuclear power now to address that problem. Looking back, there is no reason to think that fossil fuel usage would have disappeared by now. Even the issue of climate change has had little impact. Nuclear is generally far more expensive.
Now if we had had made the fossil fuel industry pay the true cost of their waste products - greenhouse gases - then there might have been a market for nuclear.
> idealism
If you have a good argument, why disparage people who disagree? Why not address their concerns seriously?
The threat of nuclear waste is very real and serious. There are solutions, but these are serious issues that won't be addressed by disparaging other people.
> waste that sitting sealed and monitored, and is not hurting anyone.
Nobody has died yet (is that even true?), so it's safe?
If you reckon it's OK to leave waste lying around, especially in constrained economic and political circumstances, that's a legitimate point of view. Argue for that. But don't declare that "decommissioning" simply means something like "Do your best, and then be done with it". That's dishonest (I'm not accusing you personally of any dishonesty).
If "decommissioning" doesn't mean complete reversal of all harmful results of the operation of a plant, then we need a new word that does mean that.
That’s not what decommissioning means and what you’re asking for is childishly ridiculous.
How, by your definition, would you decommission the coal and gas plants we’ve been running for forty years while people like yourself threw ignorant tantrums over nuclear?
How would you “reverse all harmful results of the operation of a plant”?
How are you going to recapture all the pollution they dumped into our air, exactly?
The word apparently means whatever the responsible authorities want it to mean.
> How, by your definition, would you decommission the coal and gas plants
We used to make gas by heating coal with steam; the result was a contaminated site, coal gas, and coke for steel. But the site was left contaminated with chemical waste - stuff that can in principle be chemically denatured, or buried fairly safely. Thing is, I'm against making new coal-to-gas plants, as much as I'm against new nukes.
I don't have to defend coal and gas power plants; I don't have to explain how to reverse their effects; I'm against building any new ones, and my lack of any remedies for the effects of plants built before I was born doesn't invalidate my stance.
[Edit] I think I missed your point, which was probably based on my use of the word "reversing". You're effectively asking me how to complete the decommissioning of plants that were put out of use before I was born. If you want childish, that's childish: you're asking me for a proposal for reversing climate change.
I'm talking about how to build a nuclear power plant that can be properly decommissioned, in the sense that there's no persistent environmental pollution, and the land can safely be returned to normal uses, such as agriculture and residential housing. I'm against repeating the mistakes my grandparents made, in all their ignorance.
The casks are safe where they are and should hold safely for at least 90 years according tot he notoriously conservative NRC. They should be moved, and congress needs to get its shit together, I agree.
We really need to get deep storage unstuck from the Yucca Mountain issue, but I think this still counts as decommissioned.
There are radionuclides in those casks with half-lives of 200,000 years - much longer than human civilisation, and much longer still than the lifetime of a human writing system. We don't even know how to make a label that will make sense in 200,000 years.
This attitude only makes sense if one's view is that humanity isn't going to last more than 10,000 years.
Unless we can find a way of rendering nuclear waste safe, then we have to find a way of making it so inaccessible that a future civilisation is unlikely to come across it by accident, and so secure that even a major earthquake won't cause it to leak into the environment.
Storing this stuff in metal tins on the surface isn't even a gesture at a solution.
No, the attitude makes sense because of the time value of money.
At any point, if interest rates aren't pretty much exactly zero, it pays to delay burying waste. The present cost of guarding it at the surface is < the cost of burying it now. If, at any time, the interest rates do drop to zero and stay there, it can be buried then.
The only real argument against this is that the waste ceases to be self-protecting from "amateur" diversion of plutonium in about 300 years, which could greatly increase the cost of guarding. But that's no justification for burying it now.
Waiting also reduces the thermal output from fission products, which reduces heat buildup in the repository, at least a bit. And it would allow the waste to be reprocessed (and more easily) if that (perhaps unexpectedly) becomes appropriate. It would also allow time for other disposal methods, such as launching into space, to become competitive. How cheap will the descendants of SpaceX's launchers be in 300 years?
I think there may have been an argument for rapidly burying waste during the cold war, where surface waste could be volatilized by a direct H bomb strike, causing enhanced local long term fallout. That's more an argument against nuclear power itself, though, as NPPs could also be disrupted by direct strikes.
I sort of mostly agree. Long term deep storage is nice because with a good design, we can pretty much set and forget. Most LLFPs aren't actually very dangerous as they don't emit gamma rays, but Tc-99 and I-129 are pretty nasty stuff. we could probably reprocess those into Ru and throw the rest of it into a deep geologically stable hole. Any society in 10k years that could find the stuff will be advanced enough to avoid or rebury it. As long as we don't store anything highly bioavailable near water, it should be fine. By 10k years from now the amount of radiation actually being released will be miniscule. But, I'm all for a big deep hole.
The US government made nuclear plants pay into a fund for long-term waste storage. Last I saw, that fund had accumulated over $40 billion. But since the Yucca Mountain facility was canceled, the government never provided the waste storage they were charging for. It's not surprising if nuclear operators don't want to pay twice.
> So, step forward, the insurer of last resort: my grandchildren!
We’re the grandchildren of the eco-ideologists that spent the last forty years dumping coal and gas pollution into the atmosphere because they were afraid of nuclear power.
My father was born in 1914; they didn't invent nuclear power until he was 40. It wasn't until the early 2000s that there was consensus that coal and gas caused pollution that was a very serious problem, if you set aside the smogs of the early 50s.
My grandparents were from the era of steam-powered mills; I doubt the word "pollution" had been coined before they died. I'm pretty sure the term "ecology" dates from the mid-20th-century, after all my grandparents had died.
So yes: my grandparents left me with a problem; but it's not their fault, because they didn't know. We do know, and my grandchildren would be right to curse me if I left a similar problem for them to solve, knowing what I was doing all along.
From what I'm reading, that just means there are a couple of buildings (offices, warehouses, etc) left on the site. It hasn't been completely demolished yet, but it doesn't sound like there's anything extraordinary preventing that, either.
The reactor and fuel were removed, and the reactor building and cooling tower were demolished. Maybe we need to use another word? Seems like that plant is pining-for-the-fjords.
Well, I think nuclear waste is a problem. It's highly toxic, and there's no process for detoxifying it. It has to be "got rid of", somehow, or put somewhere that humans can't accidentally encounter it. And it remains dangerous roughly forever, in terms of the span of a human civilisation.
200 years is sorta manageable, I suppose, if you have the resources and longevity of a nation state. You can bury it under a mountain, and set a battalion of armed orcs to guard it. But nation states can change their minds; whether the cost of hiring those orcs is money well-spent is a political decision, and the politicians responsible may not have "the long view" in mind.
I think nuclear power can be done safely; but I don't think that's possible as long as the task is overseen by profit-making corporations or short-termist governments. And I don't see who else can do it.
People would be less suspicious of your motives if you would spread the same amount of panic about coal industry ash ponds -- where arsenic and heavy metals will be lethal forever rather than just for thousands of years -- or mine tailings dams which burst with alarming regularity killing more people and devastating more square milege annually than nuclear waste ever did or will.
As is, it seems that for you, dangerous waste is a deal breaker for something you are ideologically opposed to, but perfectly fine in other areas.
I am from the UK. Our coal industry was almost completely destroyed by Margaret Thatcher. For many years, the notion of digging new pits has not been on the agenda. There is now a pit waiting for planning permission, but I don't think it will succeed (I hope not).
Meanwhile plans to get some foreign company to build giant new nukes here are pressing ahead. So yeah, my focus is on the imminent threat that I can do something about, not on old mistakes that were made before I was born, that I can't do much about.
> something you are ideologically opposed to
You're the second person that has accused me of being "ideological". Is that the same as "having opinions"? That word is generally used dismissively. It should mean that I subscribe to some ideology. What ideology is it that you believe I subscribe to? How could you know whether my views on nuclear are inspired by some ideology that I've bought into wholesale, or whether they are the result of thinking things through for myself?
Feel free to ask me about my opinions, but kindly refrain from telling me what they are.
The message and reality have always been detached in Europe:
almost every physics department I know has a nuclear institute. And funding is there, too. The know-how was never lost in my opinion.
I think the engineering know-how isn't there as much. When you haven't actually built a plant in 30 years and all the experienced building and designer engineers have moved on, you don't actually know how to build one any more. I feel the delays on the new projects are mostly caused by lack of experience, lack of clarity on actual risks, a lot of second system syndrome (we're doing it right this time, say the maintainer of the previous systems...) and also more regulatory oversight (which is IMO a gold thing). Let's see how these plants built with far more oversight age better than the old ones.
That's great news. I wish the European nuclear industry would have always 10 of these projects running at any time, so we could continuously learn, train and improve ever-so-slightly the designs.
We have many better solutions than nuclear, and have for decades. Why not use them - reduce energy consumption, use a market-based solution of making people pay the actual cost of greenhouse gas production (e.g., trading carbon credits), etc.?
It's the reactionaries that are in the way. Why blame the only people who have been concerned about climate change? Because it's easier to attack them; because people are scared of taking on the reactionaries.
> a witch-hunt orchestrated by the greens
This is just jumping on the bandwagon of demonizing the target du jour. Can you back this up? What do you mean by witch-hunt? Who in particular was attacked? By who?
"Reduce energy consumption" is not a solution. The population is growing every year. Energy consumption is growing every year. Energy production has to grow to keep up. If it can't because the chosen technology doesn't scale, then that's a problem with that technology.
Solar and wind alone won't work without support by gas or other non-renewable sources. Try to find a single scientific study that gives a detailed overview of how the German energy mix is supposed to work and that explains how supply will be matched to demand 24/7 all year round. None exists. The whole "Energiewende" is built on the hope that either our neighbors will produce the necessary base capacity to stabilize our energy grid, or that a miracle storage technology will somehow be invented in the next 10 years.
I can recommend "Sustainable Energy: Without The Hot Air" [1] by a Cambridge professor, it goes into great detail about the problems of matching electricity demand to supply day- & year-round.
This book has come up on Hacker News before, and I've read it, and it has a crucial flaw, well, two actually:
- It underestimates the efficiency of solar panels by quite a bit, supposing that 10% would be a lofty goal (and arguing on this basis that solar farms are not economically viable). In fact, panels on the market are approaching 20% [1], and 25% seems well within reach.
- It uses the United Kingdom, one of the dimmest countries in the world [2] and one of the most densely populated, as an index for the viability of solar power in any country. In fact, the UK is probably the worst-case geography+population for solar power, and almost every other country would have a better time of it. In this context, it is worth considering that nuclear power may be particularly appropriate for Europe specifically, since it is peaceful, densely populated, mostly north of the 45th parallel, and cloudy, but solar is probably more practical elsewhere.
The real problem with cost estimates for solar and wind power is that they do not necessarily adjust well for the rate of construction. They may be reasonably accurate assuming a constant rate of construction, but a truly worthwhile implementation of solar and wind power would require a much higher rate of construction than is currently being implemented. I rarely see much of the methodology of these studies, but what I have seen basically involves taking the current price of solar and battery installations, applying a few fudge factors, and scaling up linearly. That may not be realistic.
Meanwhile, the cost estimates for nuclear power are based on data from the construction of large facilities, and therefore necessarily incorporate a much more realistic high rate of investment. Nuclear plants are big.
The book doesn't actually use british solar numbers for the rest of the world, it even suggests shipping in solar energy derived fuels from other countries to the UK and that even including the extra conversion and shipping/transmission costs would be competitive with nuclear built in the UK, which implies its a no-brainer for those source nations to use it for their own power.
Where it feels a little parochial, is its focus on the UK as if the GDP or population of the UK matters in the context of a global issue like sustainable energy.
It simply doesn't and he has enough facts and figures available even at that time to put that together, but probably fell into the classic british position of assuming they are more important than they really are in a global context.
Anyone outside the UK must read it in the same way people in the UK would read a small island dweller writing "Yes this might work for most of the UK but the Isle of Man would need to import power, which is simply unthinkable, even though it already does, so maybe we should build nuclear there instead to maintain the islands sovereignty".
Or maybe we can discount the needs of half a percent of the population if they run counter to the needs of the other 99.5% and focus on the big picture?
In the end we didn't need to as the wind power, heat pumps, EVs and carbon fees required for the UK overlapped heavily with other nations but this was a clear blindspot which I think you are charitably interpreting as a silly mistake when really it's more akin to arrogance.
I believe it also assumes significant input from biomass, which has a very large effect on the amount of land area needed because of the extremely low power/area of biomass.
I read the book before the numbers it cites were decades out of date. And even then, it made a pretty good case for renewables in the parts of the globe where most people live.
Once you update it with current figures I'm assuming it can only make a stronger case. So are you just using the old figures and pretending those haven't changed?
That's like trying to model the next iPhones specs from first principles with specs from the last century.
Well it won't have a very big HDD because all that spinning rust will really drain the AA batteries.
edit to add, but his basic strategy is sound:
> The principal problem is that carbon pollution is not priced correctly.
And there is no confidence that it’s going to be priced correctly in the
future. When I say “correctly,” I mean that the price of emitting carbon
dioxide should be big enough such that every running coal power station
has carbon capture technology fitted to it.
> Solving climate change is a complex topic, but in a single crude brush-
stroke, here is the solution: the price of carbon dioxide must be such that
people stop burning coal without capture
The UK basically did this. Note that it was found by the market that replacing the coal plants entirely was cheaper than adding carbon capture to them.
edit 2:
> The most promising of these options, in terms of scale, is switching on
and off the power demand of electric-vehicle charging. 30 million cars,
with 40 kWh of associated batteries each (some of which might be ex-
changeable batteries sitting in filling stations) adds up to 1200 GWh. If
freight delivery were electrified too then the total storage capacity would
be bigger still.
> There is thus a beautiful match between wind power and electric vehicles.
If we ramp up electric vehicles at the same time as ramping up wind
power, roughly 3000 new vehicles for every 3 MW wind turbine, and if we
ensure that the charging systems for the vehicles are smart, this synergy
would go a long way to solving the problem of wind fluctuations.
The UK also did this.
I'm baffled at the books continued popularly with renewable "debunkers". The book clearly described the problems and solutions. The main skepticism was aimed at politicians being able to overcome the political power of fossil fuel lobbiest and do something sensible.
The only explanation is a willful disregard for the new knowledge we've acquired in the intervening time period, much of which the author guesses correctly but we now know for a fact.
There's an E (for economics) plan outlined as a proposed solution, that assumes we'll deploy a lot of the cheapest energy source, whatever that is. It then also assumes (!) that onshore wind will cost the same as Nuclear and offshore wind will cost more. Put those two assunptions together and you get a plan with lots of nuclear.
Note, he's not actually predicting this outcome, though it does seem to be his personal preference at the time. He mentions that cheaper solar-to-fuel might be an alternative, as what really mattered was which was cheapest, which he assumed, incorrectly, would be nuclear.
Actual reality looks a lot closer to his G plan, for 'greenpeace' named sarcastically because they just love wind power, because as it turned out wind was cheaper than basically everything else (until solar caught up in most of the world). Maybe Greenpeace got lucky, maybe they were just better informed.
So if he was to rewrite that same plan with today's figures, the Economist and Green party plans would probably agree. Amusingly ironic and a testament to his methods even if his clearly stated assumptions no longer hold true.
I'm mostly referring to the section on storage, which is still largely true today. Germany does not have enough mountain areas to build significant hydro storage, and no other storage technology currently comes close to that in terms of efficiency and scale. We could of course produce hydrogen and burn that again but there the round-trip efficiency is only around 20 % in the best case I think (up to 50 % if we could use the waste heat as well), compared to around 80 % for hydro. Hence we would need to over-provision wind & solar energy production by 400 % to use this form of storage, which is highly unlikely as we will have trouble fulfilling our current ambitious goals for wind and solar, which already require a 500-1000 % increase in construction rates over the next decades.
Batteries would be another candidate but again the required amount of energy and the power slew rate are enormous, so storage facilities would be extremely costly and would compete with electric car battery production. I don't have much faith in the idea of storing energy in electric vehicle batteries as most of these cars will be on the road when the energy is needed (7-9 am) and will be mostly plugged in to charge when renewable production is low (during the night). Also I'm not sure if the electricity grid would even allow such a conversion as it's not designed for many small producers arranged in a mesh.
The section on storage that literally starts by pointing out that a renewable only or nuclear only plan would both require storage?
And then lays out multiple solutions, including 20Kwh of EV battery storage for every person which must have been basically science fiction at the time of writing but now sounds entirely boring and inevitable for reasons entirely separate from power storage.
Yeah I'd say that holds up pretty well, but I'm still not seeing the problem it apparently poses for today's world of cheap renewables?
We need and want to produce lots of green hydrogen for non-burning purposes. That fits perfectly into the demand response idea he lays out in reasonable detail. So why do you seem to think pumped hydro storage was the only solution he mentioned?
Even with his dated view on PV prices, he raises the possibility of importing hydrogen:
> "Solar photovoltaics were technically feasible for Europe, but I judged
them too expensive. I hope I’m wrong, obviously. It will be wonderful
if the cost of photovoltaic power drops in the same way that the cost of
computer power has dropped over the last forty years."
What a great quote to look back on from a future where his hopes came true.
The evidence that renewables need to be supported by gas and oil is evidential in northern Europe, observed by anyone who pay their own electricity bill. When the wind is weak the market price is determined by gas and oil prices. When the wind is strong the price goes down to basically transit costs. Since the average wind condition is pretty much the same each year, the market cost for electricity has been 100% determined by gas and oil prices for the last decade.
If one also follow energy politics this has also been very clear by the politicians themselves. The green political movement has been advocating the concept of "reserve energy" over nuclear "base load". The strategy is to build out as much wind and solar as possible, while keeping natural gas and oil plant on subsidized plans. When the weather is bad for energy production, those natural gas and oil plant starts up and supply the missing supply.
For oil and gas operators this is a pretty great deal. They get paid twice, once by the government and then a second time by the market. They also only need to spend fuel when the market price is at its highest, reducing fuel costs and improving profits. It is pretty much a win-win situation for the government and power plants operators.
In 2011 ENERTRAG had a constructed a system to use a windpark to produce hydrogen and burn this in a gas/fuelcell plant. But since a change in the EEG Umlage Gesetz made them pay for their own energy produced by wind, it became unprofitable to do so.
If that sounds idiotic to you, that's because the change in the EEG was created to make exactly this impossible.
Nuclear is no different that solar and other technologies. It is economical at scale. It is prohibitive if all you build is a prototype once every 10 years, which is what we do in Europe. China and Korea found a way to make it work.
You are arguing in bad faith. As IMTDb correctly points out, these plants have become more difficult to build because of a deliberate bullying campaign - one that you are continuing here.
> Weird, it’s almost like these ideological people were listening to the experts.
Anti-nuclear sentiment (both environmentalist and anti-nuclear weapons) was generously sponsored by the Soviet Union. What a surprise than nowadays the same groups are serving the interests of Russia.
The most cynical thing is that the biggest nuclear accident in history was caused by Soviet negligence and incompetence and yet they managed to exploit it politically.
Money Russia gets from nuclear poewr production are miniscule comparing to money from gas/oil export. _any_ expansion of nuclear energy in Europe is against Russian agenda to be major gas/oil provider. Geramany suppose to be broker of that.
For Germany cheap Nuclear energy on central/east Europe is dangerous because cheap energy = more competitive market. Add cheaper workforce and you have very dangerous mix. Read why Bulgaria was forced to shut down majority of their reactors before joining EU. Offically it was about "security". Bulgaria with cheap nuclear energy from already built power plants and cheap workforce was too "dangerous" for old EU countries. Politics is very important when discussing energy market.
Exactly! Plus the majority of customers for Russias nuclear tech are not in the West - they are in places like Iran, Turkey, China and some smaller countries.
It has been claimed many times by Soviet defectors. Every defector from GRU or and high-profile officers from the KGB claimed so. It is very hard to prove, but it is so extremely serving to the USSR.
Peace meant unilateral disarmament and abandonment of nuclear technology - how convenient. Today the claims by some politicians in Europe that "aiding Ukraine prolongs the war" are a similar trope of Russian origin.
Back in the Cold War one of the policies the "Peace movement" advocated was "nuclear-free zones" in Western countries. The USSR encouraged organisations by providing funds and used its propaganda arms to aid the movement (conveniently keeping quit on its own arrangements).
There is barely a speech by Putin and Lavrov where they don't literally say something like "beginning of a radical breakdown of the US-style world order. This is the beginning of the transition from liberal-globalist American egocentrism"
So this is why Russia supports and is supported by all radical groups that want to change the current order - left or right.
The state it self is right-wing but you can see even anarchist organisations parroting its agenda.
Russian trolls also just stir up trouble - the same people will post extreme fake claims supposedly by BLM protesters and then right-wing conspiracy theories. They see stirring up racial and class tensions as useful because it destroys the "hypocritical liberal order" - it paralyses countries and governments so they can't do effective foreign policy.
The people that usually are puzzled about this approach, also avoid any of the arguments on why people don't want nuclear facilities as the basis of their energy infrastructure.
Framing it as some closed minded ideological stance, and that Germany wouldn't be in a position to understand the pros and cons to nuclear technology, just looks to dismiss those that might have actual rationales for running their countries differently.
Why does everyone attribute to deception what could just as easily be attributed to this relationship being beneficial for Germany (and a lot of other EU countries which are conveniently omitted from this discussion)?
Energy is at the core of economic development and Germany and a bunch of other countries were able to get gas for decades.
The fact that it persisted for decades and increased in capacity is proof that it benefited Germany and the other European countries.
And you’ve noticed yourself that the benefits accrued in the EU and the costs were incurred in Ukraine. But this is oversimplifying things - the Ukraine war has other important geopolitical facets besides the admittedly important energy aspect, such as NATO expansion.
Do you the famous (and maybe fake) quote 'The Capitalists will sell us the rope with which we will hang them' ?
It's the same here, but with selling energy to "capitalists".
What Europeans might have seen as purely economic affair for the USSR / Russia was just means of getting money to grow and support its army, to buy Western politicians and media influence, etc.
Practically you’re not though, because as history attests, the USSR dissolved peacefully and thorough all the ups and downs the economic relationship survived.
This is perhaps why the warnings from the US were ignored for so long: they were based on self-interest and they had a track record of being wrong for decades.
Germany is just the b*tch of the USA though, that becomes very clear in this press conference. Germany has nothing to say over Nordstream: https://youtu.be/OS4O8rGRLf8?t=74
'US Senate approves Nord Stream 2 Russia-Germany pipeline sanctions | The move by US lawmakers is part of a push to counter Russian influence in Europe, but European [i.e., German] lawmakers have said the US should mind its own business.' 2019 December 17 https://www.dw.com/en/us-senate-approves-nord-stream-2-russi...
'Why Germany pipes down when talk turns to Nord Stream 2 sanctions | Chancellor Olaf Scholz won’t say pipeline is finished if Russia attacks Ukraine, despite strong pressure from allies.' 2022 February 8 https://www.politico.eu/article/olaf-scholz-silence-on-nord-...
I think it's a mistake to see that as one sided. Bringing Russia closer to Europe and (according to the now falsified theory) creating conditions for peace while also getting cheap energy has been a goal of plenty of European elites.
> Bringing Russia closer to Europe and (according to the now falsified theory) creating conditions for peace
It's not falsified. It may have improved conditions for peace; the situation could have been far worse now. Real-world issues don't work out neatly; they are extremely complex; you never know what the alternative outcome would have been.
As an analogy, eating healthy food and getting exercise isn't 'falsified' as health recommendations when someone happens to die young.
Yeah, definitely. I meant the position that it would be sufficient or decreased the probability much more than it could have (and did.) I'm actually of the opinion that it was the right thing to do and really we didn't do enough connecting the economies, bridging the cultures and elites and that's why we ended up in this situation. On the other hand, we probably shouldn't have gone that far in on gas without having done the rest of that and seeing actual results. If the long-term costs were accounted for, I think green was actually cheaper all along.
I'm puzzled about why nuclear is deemed less satisfactory than dependence on Putin's Russia for the energy requirements of the world's 4th biggest economy.
Dependence on the Soviet Union and later Russia worked for 50 years.
This partnership, which was being undermined by the US from the beginning, is attributed to establishing a basis for cooperation between the Soviet Union and Western Europe. Considering that the Soviets pulled out peacefully of Eastern Germany, that worked pretty great.
This is incredibly short-sighted. Soviets pulling out of Eastern Germany, the collapse of the GDR, the Warsaw Pact, the USSR has very little to do with the energy imports. One might even argue that the USSR would collapse economically even earlier if not for all the currency it got from oil and gas sales.
Having a relationship based on mutually beneficial economic exchanges is an important reason why one would treat their economic partner nicely. It’s perhaps not the reason, but it is a reason.
Given how peacefully it collapsed and the huge potential for mayhem, I’d stay away from altering the timeline.
We have no idea what the alternate histories would look like. We can guess - yours is a reasonable guess - but it is all guesses. I can come up with reasons thing would things went far worse, and if you think a little you should be able to as well - they may be somewhat unlikely, but that is all the more we can say.
What we do know is where we are today: Russia is not playing nice with the world despite our attempts to have beneficial economic exchanges. Would the not play nice with USSR scenarios be worse - we have no real idea.
Yes, please give the Soviets due credit for how well they treated the Eastern Bloc countries. The Czechs and Slovaks, along with the Hungarians might like a word with you, to point out a few extreme examples. Same with the rest of the Bloc countries that had to cope with decades of repression.
First, it's Russia, not Putin's Russia. It's derogatory to frame discussion like that. Should we also start putting "Biden's USA" and "Macron's France"? Just writing this way, and suddenly both USA and France appear like some fourth world banana republics.
Second, both Russia and Soviet Union before were the most reliable energy partner. They didn't fail their obligations a single time.
Reduction in Russian gas should be blamed on NATO sanctions that prevented a timely maintenance of North Stream 1 by confiscation of the gas turbine, and the refusal to start using North Stream 2 although it is ready to deliver gas tomorrow, if Germany decides so.
Putin's power in Russia is a lot more absolute than Biden's in the US or Macron's in France. And especially with his war against Ukraine and general hatred of democracy, Putin is relevant. The EU would have had less problems buying gas from Yeltsin's Russia. In fact, that's how we got into this situation; Russia was supposed to be on the road to becoming a normal, open democracy. And then Putin changed course.
So yes, Putin's Russia is used intentionally to introduce the same feeling as Hitler's Germany. That's the way how Biden's USA works, supported by Ursula von der Layens EU, Stoltenberg's NATO and their minions.
You might have a point if any of the other people you mention had maintained unchallenged political power for 2 decades by the expedient of murdering their political rivals.
I am just pointing out that if you use these terms, it frames the whole country in a negative sense.
Would Bush's USA, Clinton's USA, Nixon's USA, Obama's USA or POTUS X' USA work better? Because each one of the US presidents except Trump and Biden (give him some more time) is directly or indirectly responsible for more killing around the world than Putin would ever be. Hundreds of thousands (in case of some presidents even millions) people have been murdered on their direct command. Even if "Putin's Russia" is really responsible for everything that US / NATO propaganda accuses them, they still have a long way to go to reach this levels of atrocities and destruction.
It emphasises the negative effect Putin has on the country. And he does. He's plunging the country and the world into an unnecessary war just to feed his pride, and he does so in a clear break from his predecessor. Putin's Russia is significantly different from Yeltsin's Russia that it's worth pointing out the difference, especially since that difference is all him.
And while you could certainly argue that for example Bush plunged his country into an unnecessary war to feed his pride, you're arguing that he's not that much of a break from his predecessors. And the American people as a whole definitely carry more of that responsibility. That's still a reason to call out Putin specifically, instead of the country as a whole.
It's done mostly out of compassion with the average Russians who have no say in the matter. I think it's important to remind people that it's specifically Putin who wants this war, and that most Russians don't. Just like we try not to blame the average German for Hitler's mad aggression.
As many people have pointed out, comparisons to Hitler's conquests at the start of WW2 are not unjustified; Putin is using much of the same rhetoric that Hitler used. His state media is actively discussing the need for genocide. Those "same feelings as Hitler's Germany" are because the facts are far too similar.
Because he controls the media. There have also been very persistent protests against the war. Russians in a position to speak freely often criticise it. That's not true for the majority of Russians, however.
People, including elites in Putin’s inner circle, perceived as insufficiently loyal to Putin have experienced a rash of widely reported “murder-suicides” of their entire families, and others who have avoided that fate have experienced, other very public, severe adverse consequences.
This, along with Russia’s notoriously pervasive secret police and domestic surveillance may have something to do why even “anonymous” polling of Russia finds fairly small numbers of people willing to say they don't support the regime wholeheartedly, independent of actual sentiment.
Can you give one single example when it was Russia's guilt for not delivering gas?
The only time when we had issue with gas it was some ten years ago when Ukraine stopped the transit hoping to blackmail both Russia and the EU to get a better deal for themselves. Ukraine was a failed state then that couldn't pay for gas they used.
First well published incident was cutting off Estonia in 1993, right after it regained independence.
Note Russia always does something to shift the blame, usually starts "dispute" over payments. It's done because media need to report ”balanced" view, so just by reading general news it's not apparent tha this is really blackmail. Stockholm tribunal regularly disproves Russian version, it just takes time, which is what Russia is after: you can't survive winter without heating, and the final verdict won't arrive in time. So until LNG terminals and pipelines to Norway sprang around the Baltic Sea, coupled with Third Package, Eastern Europeans mostly had to yield to this blackmail.
> The only time when we had issue with gas
ISTM you live west of Oder. No one in Eastern Europe would say this.
> it was some ten years ago when Ukraine stopped the transit hoping to blackmail both Russia and the EU to get a better deal for themselves. Ukraine was a failed state then that couldn't pay for gas they used.
This is false, Ukraine wasn't "failed state". What failed was an attempt to rig an election.
It is a failed state. Or call it a puppet state. After the Maidan coup it became pretty fast s fascist autocracy. And it was corrupt since the gain of independence. How else would you call it? A pinnacle of democracy certainly not.
Your comment gets it entirely backwards. France is currently in a terrible spot with their monoculture of nuclear because the hot temperatures have caused shutdowns of many reactors, many old plants are offline because of security concerns and the French operator of the nuclear plants is close to bankruptcy and needs to be pulled back into government ownership because renewables can be so much cheaper today.
What Germany did get wrong is that they invested too much in renewables too early and that continues to haunts Germans by paying subsidies for renewables installed more than 10 years ago. Germany helped to jump-start the whole scaling of renewables (together with the US) but the price is high.
I would argue this isn't actually so bad because we need to price energy higher anyway to reduce consumption and further accelerate the building of renewable capacity.
No matter what anybody says: nuclear is dead. The number of projects in planning (outside China) is so small that it won't make the slightest dent for our emissions goals. The only topics worth focusing on is solar, transmission and energy storage. Wind only matters in the next 10 years. Afterwards solar will be another magnitude cheaper and wind won't be able to compete.
The problems of nuclear you mention seem fixable and french electricity prices are waaaaaaay cheaper than german ones. I fail to see how france is in a terrible spot when it's germany that's likely to freeze this winter (and has literally no solution for that, other than begging their enemy).
Why do you think solar will get cheaper by another order of magnitude?
I am not looking forward to my gas bill indeed. Still hard to forsee that nuclear could come to the rescue in any way. Even in France they have scaled back eletric heating and will face hard times when cold weather strikes.
While it's evident nuclear sentiment is not great in germany, from my point of view, I wouldn't characterize it as great in france either. Sadly, I think in this domain (as in many) france lives with the infrastructure and build of its past and currently fails to invest for its future, it's more managing decline than anything else. I think as current nuclear plants become older and mismatch between current needs and true green energies production become more apparent, people still live in a bubble and don't see the urgency nor courage to really invest in new reactors and plants and prepare the future, for france and europe. My dream would be that france, with help of germany and other willing eu countries would build new reactors with an overcapacity for france alone such that it would then provide this energy to other ue countries. Nuclear energy is a chance and is not mutually exclusive with other energies.
> While it's evident nuclear sentiment is not great in germany, from my point of view, I wouldn't characterize as great in france either
I think it is changing. Both the IPCC and the ERDF reports were unambiguous and politicians and technocrats who were paying attention noticed. Now, skyrocketing gas prices are a warning shot. A blackout or a brownout could completely change public opinion (not that si would welcome it, but at this point it seems inevitable; we almost had 3 last winter).
> Sadly, I think in this domain (as in many) france lives with the infrastructure and build of its past and currently fails to invest for its future, it's more managing decline than anything else.
That is very true, unfortunately. That’s why building a series of EPR would be a good thing long-term, as it would provide some justifications to train new engineers and a refreshed skilled workforce.
> My dream would be that france, with help of germany and other eu countries would build new reactors with an overcapacity for france alone and would then provide this energy to other ue countries.
This would make sense from a technical point of view (one large fleet in a single country is easier to manage and more efficient than the same number of reactors distributed across several states). But that’s very difficult from a political point of view.
> Nuclear energy is a chance and is not mutually exclusive with other energies.
This is something a lot of people do not seem to grasp. We need all the low-carbon energy we can produce, and we need it 20 years ago. There is no point bickering about the share of renewable and the share of nuclear. We need renewables where we can and nuclear where we must.
In the end, what matters is that even a carbon-free electricity supply is just half the journey, and the easy half at that. It’s not something we will solve with a one-size-fits-all approach.
> That’s why building a series of EPR would be a good thing long-term, as it would provide some justifications to train new engineers and a refreshed skilled workforce.
Also very true. The most difficult is most likelihy to build the first one, reacquire the supply-chain, engineering, knowhow, then, you can build the next ones at scale, certainly with both an economy of time and money.
> My dream would be that france, with help of germany and other eu countries would build new reactors with an overcapacity for france alone and would then provide this energy to other ue countries. Nuclear energy is a chance and is not mutually exclusive with other energies.
I think this will stay a dream. Aren't "modern" nuclear plants such as the EPR all a) very late and b) massively over budget?
The EPR project is basically a complete train-wreck.
> Aren't "modern" nuclear plants such as the EPR all a) very late and b) massively over budget?
The Finnish one was both due to epic project management failures, from bad suppliers with dodgy welds, to changing the reactor design as it was being built to accommodate future regulations. Flamanville is also late and over budget for much of the same reasons (shoddy project management and unreliable suppliers; this time the concrete was out of specs as well). These sort of issues get sorted naturally if yew build in series instead of one-of-a kind.
The Chinese did not have any problem building two, and the British one is progressing more or less as planned.
> These sort of issues get sorted naturally if yew build in series instead of one-of-a kind
That would appear to rule out any possibility of rapid increasing nuclear generating capacity if we are going to be forced to build them one after another in order to work out how to do it well?
> The Chinese did not have any problem building two
...that they've admitted to?
> the British one is progressing more or less as planned
2022: "The nuclear power station being built at Hinkley Point will start operating a year later than planned and will cost an extra £3bn, EDF has said"[0]
2021: "British Hinkley Point Nuclear Plant Delayed With Higher Costs
First reactor will start producing power in June 2026. Cost will be 500 million pounds more than previously planned"[1]
2019: "Costs Rise Again for U.K. Hinkley Point Nuclear Project. Utility increases bill for Hinkley units, flags possible delay. EDF also cuts estimated return from plant to as little as 7.6%"[2]
My issue with it is more the spectacularly bad deal for the consumer that it represents. Originally the UK government insisted that "the private sector would shoulder both the development costs and risk", but then the financial crisis happened, and they ended up having to rework the deal to the benefit of EDF, who basically had them over a barrel.[3]
It's good for Germany, not for France.
Germany is selling electricity to France when prices are high, and buying when prices are low. And it is selling way more than buying.
Additionally, France is reducing the nuclear power share. Not by decommissioning working plants, but simply by not building as many new plants as would be necessary to keep the share.
Nuclear does have a cost problem in the sense that costs have not really dropped since forever, which is not boding well for a technology (unlike, for example costs for solar). So I can accept people arguing that way - but could also still argue for nuclear as an expensive baseload technology.
The whole taxonomic discussion is a distraction anyway. We are long past some simple carbon reduction path making a dent (and also coming at high costs), so in the end will be about mitigation and even attempts at geoengineering - as usual politics are way behind the curve.
One could argue ten years ago for nuclear as an expensive (but still overall desirable) baseload technology, but I think the window on that argument has closed.
Very interesting! So basically what this story says means that the nuclear operator in France has been selling the electricity at a loss, so much so that they are way behind on maintenance and almost bankrupt.
Which in turn means that the actual cost of nuclear power in France is higher than has been reported so far. The cost has just been postponed for decades, until now.
It's certainly bad timing to discover it now - what a nasty "perfect storm" of unfortunate events we are having for electricity in Europe this year. :(
> In France, top positions in the administration are usually filled by people that are technically excellent and have gone through the system of grandes écoles (ENS, ENA, X, ...), whereas in Germany most people rise through social engineering and party politics and most top positions in the administration are filled by people with law degrees that don't have a clue about technology [..]
Would one really claim France is succeeding at a national level in the technology space due to all those excellent technically-trained administrators?
> In my opinion that's also a reason why we completely fail in everything regarding digitalization, lawyers are simply not good technical problem solvers
Why are administrators supposed to be the ones actually solving technical problems? Aren't government administrators more likely to be reading and writing plans and contracts (which trained [ex-]lawyers must have _some_ useful skills...)?
I heard someone call Germany the "California of Europe" for this reason. It's simultaneously full of high-tech and engineers yet paradoxically also full of alternative-medicine quackery and anti-science viewpoints on things like nuclear power.
AFAIK there's a weird through-line here where California new age and 70s "new left" ideology has some of its roots in the same early 20th century romanticism that was and I'm sure in various forms still is popular in Germany. Look up the Volkisch movement:
The only "ruinous" aspect is that Germany did not prepare on the side of renewable installed capacity (and perhaps storage, although I'm not sure.)
Nuclear is:
* Something like 3x more costly (levelized cost etc.) relative to solar and wind.
* Dangerous I: Yes, still dangerous for the foreseeable future. There are still significant risks, especially with nuclear waste storage, but to some extent with active plants. I'm not an expert on this, but see: https://en.wikipedia.org/wiki/List_of_nuclear_power_accident... with some examples from recent years.
* Dangerous II: Considering the state of infrastructure generally in some world states (e.g. the US) and profit motives, I do not believe the private nuclear industry can be trusted to deliver sufficient levels of safety.
* Dangerous III: Earthquakes, bombardment, and partisan/terrorist attacks are threats even to plants and storage facilities which are otherwise safe. And these occur with relative frequency; just think of the Zhaporizye (sp) plants a couple of months ago.
* Has greenhouse gas emission costs via mining of Uranium and such. Caveat: Not sure how much this compares to wind/solar/geothermal on one hand and coal/carbon-rich gas on the other hand/
* Is promoted to a great extent as a counterpart to nuclear arms programs. For nuclear weapons, you need fissile material, and you produce that in a nuclear reactor. Which then also produces heat, which you convert to power. Not all nuclear plants need to be like that, but again, no trust that these will go away.
Now, I am certainly no expert on the matter, so - convince me otherwise if you can.
It's such a pain how certain groups are so hung up on specific energy sources. German greens will never consider nuclear energy, Albertans will never consider anything that didn't come out of the ground either as oil or oil derived. It's like belonging to a sports team, it's silly.
I used to be very much against nuclear energy because of the unsolved issue around dealing with it's waste. Two decades later after learning about climate change and understanding more about pros and cons of different fuels and ways to generate electricity, it's obvious that nuclear energy can play a useful role in the transition off fossil fuels.
I put too much weight on the waste storage problem. Looking at it now, in my opinion it might be preferable to have nuclear waste underground somewhere than keep polluting the atmosphere. It seems silly to still get hung up on that. Sure it's not great and I'd rather we don't, but we're at the eleventh hour and we've got to take more drastic, albeit suboptimal, steps.
Waste was never the big problem with fission, nor is it the blocking issue now. The world has gravitated toward dry cask storage of spent fuel, which is both simple, sensible, and cheap. It only contributes $0.001/kWh toward the cost of power from fission reactors, and precludes no future options to dealing with the spent fuel.
What has blocked fission is one thing: cost. For a while, fission advocates could stand pat, knowing that eventually fossil fuels would have to be moved away from, to fission, regardless of how expensive fission was. But now renewables have undercut fission, so that (somewhat lazy) expectation, that fission was almost entitled to be the post-fossil energy source, is no longer valid.
When oil producing countries are racing to get nuclear energy, it remains no surprise that it is something that will only help in the transition, because burning the fule is not a enough!
Yeah there's definitely problems with that as well, not saying it's perfect. I mostly want to contrast it to the anti-intellectual approach here in Germany, where top-level politicians are proud of not having any higher education and see it as their mission to get more ideologically-formed people into top positions.
Environmental sciences are still a niche and the storage problem hasn't been solved yet. E.g. the infamous Asse II has empirically proven to be unsafe mostly because of water influx and the 126.000 containers (which are partially captured within slowly floating salt) now have to be retrieved which is going to cost billions
No insurance company in the world is willing to insure a nuclear power plant and both risk and operation have been heavily subsidized since decades.
In fact renewable sources are even cheaper:
"The cost of generating solar power ranges from $36 to $44 per megawatt hour (MWh), the WNISR said, while onshore wind power comes in at $29–$56 per MWh. Nuclear energy costs between $112 and $189."
There's no reason to require polyticians to be technicians, and no reason to expect less formally-educated people to be more anti nuclear (except in the presence of massive disinformation campaigns). Requirements for formal education just select for conservative and obedient people - and we put them on the leaders (we got it backwards!). The US seems to kind of got it a bit more right, but it's probably just circus.
Technocratic politics doesn't work in practice (ask USSR), and there should be no requirements of formal education on politicians (not even non technical). But politicians and administrators do need to (re)learn fast on-the-lob so in practice an IQ test requirement would be great for them and probably for them only (yes, IQ measures well only how fast someone can learn something and not at all how good is someone at doing something after they've learned it, but, guess what... knowing and (re)learning fast about stuff they don't actually do is kind of the job requirement for politicians and administrators - an 145 IQ high-school-dropout with or without some alchol or substance issues is kind of the best person for a job like Prime Minister, Energy or Finance Minister etc.).
Oh, and on the active (we know their effects, so they must exist) campaigns of disinformation against known to work tech, there's a solution for that: laws for spreading false-facts and disinformation + throwing in jail people breaking them. Glue your ass on the highway or spread misinformation on facebook fueling anti-nuclear protests: how about a 5 years prison sentence baby?
As a society we're so f terrible at allocating human resources, that it's no wonder that other resources like those involved in energy production are massively missalocated too...
"In France, top positions in the administration are usually filled by people that are technically excellent and have gone through the system of grandes écoles (ENS, ENA, X, ...)"
These are schools that train bueurocrats, "technically excellent" yes, at politics and public service but not engineers. For example the new energy transition minister has a business degree and went to ENA.
I'm not one to call people elites but it's strange how you are using this to differentiate between France and German
This is a conspiracy which doesn't have anything to do with reality or what is written in the article you've linked to.
The article describes a "Foundation" which was created 2021 to keep on building Gazprom 2. It neither has something to do with the decision to get out of nuclear energy (that was 2000) nor does it have anything to do with the Green party or any group which is against nuclear energy in Germany.
I don’t really have a strong stance on the nuclear energy debate (although I highly doubt that it is as clear cut as the debates make it out to be). But I can’t really blame people for not being too excited about a technology that was first introduced to them by bombing two Japanese cities, had two worst case disasters, and was subject of the biggest arms race in history.
For politicians and administrations, I'm pretty sure any ideological stance is simply a facade to allow them to climb the ladders. The real propellent, throughout history, for politicians and administrations, are always more $$ and more power so I don't think Germany is an outlier.
>De-nuclearization of other European countries is a long-held goal of the German environmentalist movement and the Green party
which was funded by Russia behind the scenes, along with anti-fracking and any other alternatives to Russian fossil fuel exports.
>“I have met allies who can report that Russia, as part of their sophisticated information and disinformation operations, engaged actively with so-called non-governmental organisations - environmental organisations working against shale gas - to maintain European dependence on imported Russian gas.”
this was the former head of NATO in 2014, all of this has been known for a long time but nothing was done to prevent it
> I did my PhD at the French nuclear energy agency
Cheers from Saclay! :)
To be fair, Germans always (in the recent past anyway) cared more about environment issues in general. Recycling, cycling instead of driving, things like that. It was not mainstream in France until fairly recently. But yeah, the lack of understanding of scientific and technical aspects of energy production from a supposed nation of engineers is disturbing.
Burn off most of the waste in breeder reactors (100x less waste in fact), and the remaining waste is only dangerous for a couple hundred years. That's easily stored underground for the duration. I'm also partial to the idea of dumping that into a subduction zone.
Let the waste sit in place for decades to decay away much of its radioactivity, dig a hole in a geologically boring mountain away from people, dump waste in the hole.
Alternative first step: build breeder reactors to recycle most of the waste into nuclear fuel and dump the smaller amount of leftovers in the mountain.
Nuclear waste doesn't need to be sequestered for anything like 200,000 years.
After a few hundred years it's no more radioactive than the rocks from which it came.
You seem to have the common misconception that "long half-life" = "more radioactive", when in fact "long half-life" = "less radioactive", by definition.
The other main thing to remember when burying nuclear waste is that it's important to keep it away from aquifers and generally any flow of water under the ground. Obviously you'd probably want to seal it in waterproof containers anyway, but it's better to not have to rely on the container staying intact over long spans of time.
The German Green party showed in multiple occasions that it's completely anti-science. They pick scientists that support their agenda, and then represent it as the one and only truth.
They are basically a spiritual successor of the middle-age Catholic Church. All they talk is about sacrifice, suffering in our earthly life for better afterlife, bans, and restrictions. The only difference is that instead of God, they swear by "Klimawandel".
And of course, it's not relatively rich Green party members and supporters that suffer from their policies. They keep their SUVs, flight regularly, and the poorer half of the population will need to save the planet.
Atom energy is bad, but fracking is obviously fine for them. What a bunch of hypocrites.
I hope the Green get off their moral high horse or get replaced before they do even more harm to the German economy, wealth and even environment. They are just the most destructive force leading Germany to collapse.
You know how I know environmentalists are just dragging their feet on nuclear for ideological reasons?
When we talk about a storage facility for nuclear waste, a scenario they insist you prepare for: if human civilization completely collapses to the point that any of the currently spoken languages on earth are no longer able to be read how to we keep the, whatever comes after us, from busting up the concrete and digging down deep into the earth and playing with it. That's the last gasp of someone out of obstructionist ideas. I've had these people tell me that launching the waste into the sun would be dangerous for the sun, they aren't serious and need to be ignored.
Also, as a more near term issue, say next 1000 years, what happens in case of war? Right now number of nuclear plants are so few that each could be tracked by the world, e.g. Russia getting hold of Chernobyl area was frightening. But if there are 10 times or even 100 times more number of plants in many more countries, some country will use some other's nuclear plant to prove collateral damage, what Iraq did to Kuwait(https://en.wikipedia.org/wiki/Kuwaiti_oil_fires)
For thirty years people have been asking that question, telling us to use "renewables" instead. Renewables aren't getting here fast enough, we can wait another thirty years burning fossil fuels or we can start building nuclear plants now.
At a fundamental level this is because you can mobilize a lot more manpower building renewables than you can building nuclear. A million homeowners adding solar power versus decade-long nuclear power plant projects.
During the past decade in Germany, renewables added more power generation capacity than all the remaining nuclear reactors did combined. That energy is here now, and half of it gave benefits already 5 years ago.
So I don't think it's wise to divert money from renewables and storage to build new nuclear, but keeping existing nuclear around for as long as possible is a completely different matter.
War is horrible, many people die or get displaced. Cities gets destroyed.
Nuclear incident are nothing compared to that and not really a concern anymore. I don't know why people bring wars up.
And if the ennemy just wanted to destroy, they would just use nuclear or chemical weapons that are meant for this purpose, no need to get to a nuclear powerplant for that.
How many of the languages that were spoken 10000 years ago do we still speak? Launching nuclear waste in space is dangerous, not because of what it will do there but because a lot of rockets explode on their way there scattering parts as fine particles all over the world.
Even if it doesn't, nuclear waste storage is still a very expensive and indefinitely long project (assuming you want to keep adding to it, stop it poisoning the ground water, and stop terrorists getting access to it, etc.)
> I've had these people tell me that
It's still strawmanning if you pick an actual bad argument that someone told you and don't just come up with the bad argument yourself. I'm sure you're smart enough to imagine the failure modes of trying to launch millions of rockets full of nuclear waste, so the environmentalists are right to oppose such an idea even if they can't articulate why.
You know nuclear waste isn't green glowing leaky barrells like in cartoons, right?
It's stored as solid glass. For super-duper cautious extra safety it can be stored below ground water levels. The volume of the high-level waste is relatively tiny (roughly a swimming pool per year per country).
You're right, it sounds like it should be easy to avoid these cartoonishly bad outcomes, but unfortunately reality doesn't always meet our expectations.
"Why Germany is digging up its nuclear waste"
"But the waste had to be stored somewhere, so the voices that warned against selecting Asse II were ignored."
"The office concluded that the risk of groundwater contamination was too big, and the only truly safe option was to retrieve all the waste from the mine and store it elsewhere."
> Asse II salt mine should never have been used in the 1960s and 1970s as a site to dump nuclear waste, said Ingo Bautz of the Federal Office for Radiation Protection.
> “Today, nobody would choose this mine to place radioactive waste,” Bautz told journalists during a recent tour of the mine, in the north-western state of Lower Saxony.
How is this applicable in 2022? This proves his point, not yours. The problems from your article have long been solved.
I'm just not convinced by the argument "Nuclear power is safe as long as we don't make any of the mistakes of previous generations".
Chernobyl didn't make the mistakes of Windscale; Fukushima didn't make the mistakes of Chernobyl; and future nuclear power stations won't make the mistakes of Fukushima (hopefully).
It's possible that the track record for nuclear plants, and handling radioactive waste, is getting better, but it's also possible that on the scale of hundreds of years, there will be new things that go wrong which we didn't predict.
I'm not asking for perfection, though. All I'm saying is that nuclear energy has a history of costing more and being more deadly than its proponents claim, and it's already too expensive to build (both generation and waste storage) at scale, safely, and on time in nearly all countries.
Count how many people have died in these accidents directly and possibly from thyroid cancers, and compare to lung cancers attributed to coal. Coal kills way more people. It's killing right now.
There are estimates that more people died from fuel poverty due to closure of Fukushima and subsequent raise in fuel prices, than the Fukushima accident itself.
Coal power plants release more radioactive pollution than nuclear power plants, simply because coal is never 100% pure and the sheer volume of coal burned.
So you are demanding perfection. Your fear of hypothetical future risk of harm is perpetuating the actual harm currently happening.
About time. Nuclear is hardly an environmental risk even compared to the "cleaner" fossil fuels like gas.
Hopefully this will allow the EU to return to competitive reactors designs instead of leaving China to pull humanities weight on that front.
Though tbh I wouldn't be sad if we bought Chinese reactors until we are back up to speed, having Chinese nuclear > no nuclear. Everyone bitching about China stealing IP finally have something to steal back.
The problem here is that the term "green" means nothing and anything.
It is always much better to define objectively what is the issue and what is the aim. It seems to me that the main issue is emissions and that the aim is therefore to reduce them as much as possible.
In that context, nuclear is a perfectly valid option and probably unavoidable as things stand.
Gas is 'bad' since it obviously does produce emissions but it's the least emitting among fossil fuels so realistically it could also be allowed as a last resort (with 'last resort' underlined 3 times in red).
The term 'green' in the headline means everything and nothing, but...
The things that are allowed by this law are fairly tightly specified, as even the article gives various details on:
> new nuclear and gas-fired plants built through 2030 will be recognised as a transitional energy source as long as they are used to replace dirtier fossil fuels such as oil and coal.
So, limited to the next 8 years, and only in places where they're not going to displace cleaner options.
> gas projects should only be financed if direct emissions are kept under a maximum cap and they switch to fully renewable energy by 2035
I've not read the legal text but this latter part likely refers to gas turbines that can run on methane or hydrogen or some mix of the two, which is a fairly standard part of forward planning.
There's some political shenanigans involved, but overall it's a fairly sensible compromise and another small step in the right direction.
The problem is that now there is less money for developing a grid of green energies and we need it for yesterday. Because nuclear will take a chunk of the grants, as is much more expensive to build and much more time consuming.
So green energies, delayed in the last decades for political reasons, will need to wait, again. And this delay could turn to be a very bad decision in a few years.
Well, there is at least one study[0] (using data from 123 countries over 25 years) which found that investment in nuclear energy tends to reduce investment in renewables, while not reducing carbon emissions as much.
More research is probably needed, but I wouldn't say we have "no evidence".
Who says money is a limited resource? I'd think only key things it can pay for (skilled human labour) are what're limited - you can "print" as much money as you like.
We need far more people skilled in and dedicating their time toward developing low carbon energy sources. Given the number of us doing all manner of BS jobs, that doesn't seem like a hard problem to solve (even if it will necessarily take a number of years).
If money is unlimited, then just give solar panels for free to everybody. Put it in every roof of the country and you will achieve your goals much faster
Indeed, governments should probably be subsidizing solar panels more heavily than they have been. As I said, obviously it requires the available skilled labor and capital investment to produce/install vastly more than we are currently but there are really no physical limits stopping that currently, just economical ones because the price signals are wrong.
>>Gas and Nuclear Turn Green as EU Parliament Approves New Taxonomy
>>On the contrary, natural gas does emit greenhouse gas emissions, however, supporters claim it is less polluting than traditional fossil fuels and can thus be part of the energy transition.
So less pollution then heavy oil is now "green" in Europe....bravo, thank you Germany.
Natural gas emits radically less CO2 than coal, which is why this is entirely necessary during the transition (Germany is now bruning coal to compensate for the Russian war).
That's a myth based on old data, no one who understands the models makes such simplified black and white claims. Methane (which is natural gas) is a much worse greenhouse gas than CO2. As in up to 100x the warming potential in the first couple of years until it's naturally converted. When burned, it's turned into CO2 but the problem is there is leakage all over the place because methane is volatile. During production, during transportation, during storage - it gets leaked into the atmosphere all over the place. See this more recent article:
As others have pointed out the title has been blatantly edited to omit the gas part. This is propaganda, declaring fossil fuel to be renewable energy doesn't make it so. Words still have meaning and the laws of physics still exist. It's really sad to see this sort of political science denial finds its way into HN now.
I think the propagandistic title is just an expression of the Parliament's meaning; they've declared that nuclear and gas are to be treated as "green" for the purposes of various exemptions. You can legislate that Pi is equal to three, but that doesn't make it so.
As parent notes, every molecule of methane burned turns into a molecule of CO2.
Incidentally: I don't see how burning coal produces more CO2 than burning methane. Burning coal is worse than burning methane because burning coal produces lots of particulates, as well as nitric and sulphuric acids. Same for burning oil.
Has anyone ever done testing on automobile exhaust similar to the testing that has been done on cigarette smoke? Of course not - nobody pretends that autombile exhaust is safe to inhale. Everyone knows it's much more carconogenic than ciggie smoke.
So I'm not defending coal and oil; they're worse than methane. Just not because they produce more CO2.
It's because of how it burns. It is true that you get more energy out producing the same amount of CO2 with gas compared to burning coal. This might sound counterintuitive but it has been studied and isn't controversial. Although I doubt that "one third" claim the other person made, but in principle that part of their argument is correct.
The issue is, all extracted methane isn't burned, and that's where the trouble starts. Over the past years, we've seen estimates for how much of it is lost into the atmosphere grow and grow. Some recent studies already claim more than 3%: https://www.scientificamerican.com/article/methane-leaks-era...
There has recently even been speculation that gas from certain sources where monitoring and environmental regulations aren't very strong could actually be worse than black coal. The truth is we don't really know this for sure yet.
You're right about the pollution, this and some other considerations are important as well. In certain countries air pollution is a serious issue. Germany doesn't really have this problem and the German plants have good filters. Germany has it's own coal, gas has to be imported. They're experiencing the effects of a dependency on foreign gas as we speak. So in the end, they might have actually better kept their coal power. I doubt it's going to happen though, coal is dead for purely political reasons. It's simply extremely unpopular.
This is just politics redacting facts... because they want the votes.
These "neo-green policits" could perfectly say "we are green but we acknowledge but we need grey energy for a while". They chose redefining language, as always.
(Cf. Victor Klemperer, "The language of the third reich" and also, as always, Orwell... "good is bad, bad is good" and "the past can be changed").
Instead of dividing them into grey and green, we should rank them in red, yellow and green.
Red energy sources are the ones we immediately need to stop using: coal and oil.
Yellow energy sources are the ones we should stop using only if we can safely do so, but if we can't (and we can't, right now) we should continue using them: gas and nuclear.
Green energy sources are where we really need to go.
At a molecular level this doesn't make sense to me. The fundamental carbon cycle value proposition is to harvest energy released when a carbon atom (re)joins two oxygens. For the same energy, how would methane and coal produce different amounts of CO2?
That said, I can see how the oxygen reaction would be less efficient and create more byproducts (i.e. acid rain) using coal given its less refined nature. How methane would have a better energy to CO2 ratio doesn't seem to have an obvious mechanism.
I don't know off hand exactly how many joules of energy (heat) are produced per mole in each case but it's not surprising that gas gives more joules per mole of CO2: it's a bit like you're burning hydrogen at the same time.
EDIT: It's relevant that O-H bonds are stronger than C-H bonds, presumably.
> The extraction and consumption of natural gas is a major and growing contributor to climate change. Both the gas itself (specifically methane) and carbon dioxide, which is released when natural gas is burned, are greenhouse gases. When burned for heat or electricity, natural gas emits fewer toxic air pollutants, less carbon dioxide, and almost no particulate matter compared to other fossil and biomass fuels. However, gas venting and flaring, along with unintended fugitive emissions throughout the supply chain, can result in natural gas having a similar carbon footprint to other fossil fuels overall.
Germany was burning coal the whole time. There are interesting docs on YouTube how they literally buy up small towns to turn them into coal mine areas in 2020 and ongoing.
Strong disagree and just won't help besides fantasies. Lets not dig into the other mess again just because we never went and always deferred starting to do the right thing already 30 years back and now say: nuclear is the only way out.
It isn't, it would be too late anyway, it will not scale to the world's power needs, it will cost too much.. and I just haven' touched the usual downsides of nuclear.
Even some nuclear operators start seeing it this way now already..
There seems to be a tendency by pro-Nuclear people, to try and frame nuclear as the only alternative energy source. They will say things like, "nuclear is by far the safer option, especially considering coal or gas"..
They keep trying to frame the use of nuclear next to fossil fuels, while pretending that solar, wind, hydro and geothermal haven't increasingly been adopted for 10 years now.
It's not the only option and it -is- better than coal or gas.
Solar, wind, hydro and geothermal are going to be important parts of the mix (perhaps even the dominant parts in many places of the world) but all have unsolved challenges that are much more difficult than nuclear. Storage ofcourse, the world is almost already maxed out on what hydro it can build, geothermal is only viable in very few places in the world. Solar is gated on Chinese polysilicate and cell production unless some other country wants to step up and make what is needed.
Don't make good the enemy of perfect. Nuclear is a very good option to killing off fossil fuels in addition to the obvious renewables.
It also provides key features that they don't, like being almost entirely independent of weather and geography, good in places like Japan that are hard to build other renewables after they max out on hydro. They have no space for solar, wind is hard to build with their terrain, off-shore wind is hard because they have too many tsunamis and adverse conditions etc.
Renewables good, nuclear also pretty good, coal and oil bad.
If nuclear is replacing coal and oil we should be happy, if we are building it -instead- of cheaper renewables despite having the correct sites, enough storage and enough supply then I would be against it but we aren't. The economics of renewables should put them at a consistent cost advantage to nuclear except the cases where they aren't viable - where nuclear should be able to slot in.
It's not the only alternative, it's an inevitable part of the mix, where it serves as the raw large power source (similar to hydraulic, only much larger).
Until we have found ways to drastically cut down power usage AND to store huge quantities of energy OR found another similar and cleaner and safer energy source, we will need it in the mix to balance with other renewable sources.
It's a whole patchwork of solutions, depending on geography.
Nuclear is not this magic bullet, and just means flipping a switch, it has a major cost, logistical, technological and risk overhead associated with it. If you are France, great, but they have been doing Nuclear since the beginning, it doesn't mean that the world has to do the same, when far simpler, cheaper and safer alternatives are in abundance.
The massive issue I have with these sources is their reliability. Scotland can produce 98% from wind because they can sell the excess or buy when in deficit from their neighbours who modulate their coal/gas plants. If all its neighbours switch to similar methods, I don't see how we can have reliability on a wide scale.
Usual fluctuations (eg. no photovoltaic by night, more wind in the afternoon) can be planned for, but local events such as big clouds or no wind are frequent but have a great impact on
Total energy consumption or just electricity? Because electricity is itself only a third of total energy use in, say, Germany. So a third of 45 percent is 15 percent. Good, but doesn't save the day.
Also, is that steady throughout the year, or just in the windy months?
It's in the windy month while in the non-windy month solar takes the lead.
Germany is doing Sektorenkopplung, so attempting to switch everything over to electricity.
This is done because electricity is more efficient and we will use less total energy for the same effect. E.g. a heatpump can make available 3-5 times it's consumption of electricity as heat, where a gas stove can only reach 1.
The framing comes from this reasoning: not enough resources yet to build 100% renewable generation + storage => still need nuclear or fossils for now
But many people think this way instead: we have the technology for all the parts => build all the good stuff right now
Ironically, nuclear is selectively framed as just one thing with every safety issue ever, while fossils are further sub-divided into different environmental impacts.
Nuclear is uneconomically expensive and currently looks like it may always be so, but there are ways to fairly rapidly scale it up to world demand if we really wanted to.
It appears to be expensive in the West for now. I'm waiting to see how China's rollout goes before declaring that it's straight up expensive.
Even if you buy into crap like Chinese reactors being less safe or more poorly regulated they should still be a good benchmark for what is necessary to reach scale nuclear reactor production.
Especially their small designs which are expected to be mass produced in factories and shipped to the site rather than built in-place as current Western designs have been been.
Combined with their target reactor numbers should bring down the cost substantially due to economies of scale when producing 200+ of the same reactor.
Only then will we have a decent picture of economics.
Chinese nuclear reactors built in China are completed faster than in other countries, and they probably [1] cost less. But it's not clear that Chinese nuclear reactors built in Western countries would be especially affordable. Consider this recently signed deal to build China's Hualong One reactor in Argentina:
It is supposed to take 8 years to build and cost $8 billion for 1090 net megawatts (1170 gross megawatts) [2]. That's far better than Western AP1000 and EPR projects currently under construction, if it meets its targets. But it's far worse than the planned costs that Western AP1000 and EPR projects had at project start.
Or consider the relative pace of Chinese nuclear and renewable additions in China. China connected a record 8374 megawatts of nuclear power to its grid in 2018 [3]. (In 2021 it connected 2321 megawatts). At a 95% capacity factor, that's about 70 terawatt hours of electricity generated per year. In 2021, China added a record 54880 megawatts of solar power [4]. At a conservative 15% capacity factor, that much solar capacity will generate about 72 terawatt hours of electricity per year. It also added over 47000 megawatts of wind capacity in 2021 [5] which can be expected to yield more than 82 terawatt hours annually at a conservative capacity factor of 20%.
In terms of added electrical output, Chinese renewable projects are outpacing Chinese nuclear projects despite the much lower capacity factors for renewables. I suspect that's because they are much cheaper to build. There may come a saturation point where adding more renewables no longer does anything to displace fossil fuel consumption, because additional supply is all curtailed due to mismatched supply/demand timing, but curtailment can go pretty high (more than 50%) before nuclear yields more marginal decarbonization per dollar of investment.
[1] It's difficult to determine the ground level truth of Chinese project economics. The government is more heavily involved in the economy, press freedom is limited, and language barriers make it hard for people who only read English to keep abreast of what appears in Chinese publications. I am acutely aware that the only reports I read coming out of China are things that somebody else wanted translated into English.
The most interesting project is the Chinese HTR-PM[1] which is a small ~250MW design that is specifically engineered to be run in the Chinese interior where it will displace coal power plants.
It lacks the more advanced passive safety of molten-salt designs but it's significantly more advanced than reactors being built anywhere else in the world and is a natural stepping stone to molten salt to replace the helium coolant at some stage.
China is building all forms of energy as quickly as possible. They are still building coal plants while all this is going on because they are that desperate for additional generation capacity.
But 1. a large part of that is regulatory expenses not inherent to the technology, and 2. are we sure it is uneconomically expensive after taking into account the expenses spared by not completely fucking up our climate stability?
1. then it would be even less politically acceptable, which is already the biggest problem.
2. yes we are sure, because even current green tech — PV and "enough" batteries — is already cost-competitive with nuclear, and we have good reasons to expect both PV and storage to get cheaper.
I doubt it’s a good strategy to put all our eggs in a photovoltaic basket.
I love PV tech, I think it’s incredibly useful for small and medium scale self sustainability. And yes, in many areas it makes sense to dedicate a bunch of space to PVs and energy storage.
But PV is inherently intermittent and unless you massively overbuild capacity you’ll always face a weather threat.
Until we manage to harness nuclear fusion we’ll need nuclear fission along with hydropower to be the backbone of our energy generation.
> I doubt it’s a good strategy to put all our eggs in a photovoltaic basket.
This is why I still support nuclear despite the cost.
Although…
> But PV is inherently intermittent and unless you massively overbuild capacity you’ll always face a weather threat.
isn't strictly true. In a magical alternative reality where we can do mega-projects and can ignore geopolitics, antipodal power grids are technically fine, much cheaper than batteries, and don't need any backups.
(I'm not sure how easy/hard it would be to make one without such assumptions, only that it takes a minimum of about one years' global aluminium production, so treat it as merely an interesting though experiment at this point).
No, we don't need nuclear. Intermittency of renewables is a problem that has solutions, and the cost of those solutions is low enough to render new construction nuclear entirely uncompetitive in the US and Europe, and likely elsewhere. At worst, if the cost estimates of the solutions are grossly underestimated, this just means we're paying a bit more. At the same time, costs of nuclear power plants are consistently grossly underestimated, so one should honestly address the cost risk on both sides.
The economics change very fast if we disallow fossil fuel from being used in the energy grid. The current combination of using wind when the weather is optimal and natural gas/oil when demand exceed production is a very cost effective strategy, and it is this combination that has enabled energy prices at very low levels.
A large reason why nuclear has recently gain a lot of popularity is that wind + natural gas has quickly became very expensive and political damaging. One can no longer just pay Russia for cheap gas and look the other way.
It would be pretty ridiculous if the lesson of energy after the disruption of energy during the war in the Ukraine is to build more nuclear plants, creating more central points of high disruption in potential conflicts.
A lets say 1GW nuclear reactor is much more central vs 1000 1MW solar utility grade installs. If you say some portion of them are residential scale 24-40kW installs, then it would be incredibly difficult to remove electrical power from a nation.
Actual 'nuclear' (Uranium fission based) is a proved environmental risk:
- Chernobyl, Fukushima Daiichi (INES level 7) are not some sort of small environmental incidents
- Kyshtym, First Chalk River, Sellafield (1957), Three Mile Island, Goiânia (INES level 6 & 5), and maybe the Tomsk-7 explosion (not rated) where comparably smaller but the environmental impact was not small
- we still do not know what to do with nuclear waste in the long term... But we do know than this waste is not a 'green' crap
- fortunately nuclear waste is not drooped anymore in the ocean... but only since 1993! The quantity rooting under the sea is estimated around 200,000 tons (this also include waste from medical usage). Everybody look elsewhere and cross finger on this.
- (we could also add 8 or 9 nuclear submarines rooting under the sea, and an unknown number of lost wea
pons, but i agree than this not from civil reactors)
- it is no secret than environmental researchers who study marines currents, already use "small leaks" from know origin since a long time. The quantity may not have environmental impact, but the leaks are big enough to be used in scientific studies. See for example https://hal-normandie-univ.archives-ouvertes.fr/hal-02433310... (and many more for the English channel)
That said, Nuclear power could be environmental friendly. Thorium based reactor are promising. They are certainly not 'green' but, far less problematic. Also Fusion reactors could be the perfect 'green energy' if solved.
But, Uranium fission based reactors, are useful: you could use them to start your nuclear bombs collection... And this is one of the historical reason why the Green parties and Greenpeace are against them. With reasons, because actual nuclear plants, do come from military origins (most are based from submarines reactors), and in nuclear power countries the separations between 'nuclear civil' and 'nuclear military' was never a real thing. The other big reason is the historical 'democratic' way all this nuclear plants where build: simply rain local authorities with money, and put anti-nuclear militants in prisons.
Personally, my main problem with the uranium reactors is than it's a dead-end technology. It's true than it do not product greenhouse-effect gas and create a lot of energy, but it's like taking a very big loan instead on working on more secure and less risky nuclear energy. Or investing in more renewable energy, or in less energy consumption, or in non-battery powered electric cars...
Saying than it's 'green' is just green-washing from the actual nuclear lobby.
Fukushima is a good case study. Everybody freaked out about it, but if you actually look at the data objectively, I can't see how it's anything other than a resounding success for nuclear.
In a once-in-a-generation worst-case scenario (an earthquake beyond the safety parameters to which the plant was designed), you have something on the order of a hundred deaths caused by the reactor leak (this estimate attempting to include lifetime deaths from cancer and so on). Compare this to the death toll of the disaster itself -- something like ten thousand people died from the tsunami. And the conclusion we draw is that nuclear is unsafe? Certainly, the damage and disruption caused by the exclusion zone were substantial. But you'll notice that despite the tsunami, people want to move right back into the tsunami zone even though they know there is a once-in-a-generation risk of a 10k death disaster.
Contrasting that tsunami risk with nuclear, "this is worse than climate change and we need to turn off existing reactors" is the opposite conclusion than we should have come to. The correct conclusion IMO is "even extremely rare disasters now result in relatively small damage and death toll". In other words, Fukushima should update you towards thinking that modern nuclear is quite safe, not away from that.
One PR problem that nuclear has is that we have extremely sensitive detectors for radiation, so it was possible to detect an increase in radiation in Pacific fish following the Fukushima disaster. The lay public doesn't understand that this is increase was something like one banana's worth of radiation per fish, completely harmless. We simply have extremely sensitive detectors, and most people aren't able to understand the concept of orders of magnitude that small.
While I definitely don't advocate for dumping nuclear waste in the ocean as a general approach, it's worth noting that deep underwater is not the worst place for a small amount of nuclear waste to end up. There is a lot of water in which to dissolve the radioactive particles, and so it's unlikely to actually cause harm. For example the one-off plan to discharge Fukushima cleanup waste water in the ocean was controversial but probably makes sense.
> it's worth noting that deep underwater is not the worst place for a small amount of nuclear waste to end up.
Is worth noting also that sometimes the deep underwater currents raise to surface in some points when crashing against continents, so is not so simple.
That (and many others similar incidents, e.g. Ciudad Juárez) is an incident related to medical nuclear technology, caused by radiation source for radiation therapy. Irrelevant to nuclear energy discussion.
We are talking about the EU here. Sure there will always be corruption, but I'd say it's gonna be better than US & Boeing, albeit probably a bit slower in progress.
McKinsey also works in the EU.
Siemens also, and they have a long history of corruption.
So I doubt that it is any better in the EU, just less known.
Like Greece and Germany. The greece know there is corruption therefore their place in the corruption index, the germans ignore/don't know of corruption hence the better position in the index. And still who paid the corrupt politicians in Greece? companies like Siemens.
Not to mention that certain types of corruption that are illegal in the modern world are still legal in Germany.
Like giving politicianshigh positions afterwards. Because we know it isn't corruption if you got paid afterwards /s
It produces one quarter the CO2 compared to oil, so as long as we're burning oil, it makes sense to increase gas usage - especially since it requires almost no additional capital investment.
Gas is accepted if it's a replacement for much worse sources of energy such as coal or very old gas plants.
This law basically classifies anything that's better as a green investment. Relatively, it is, of course.
Activists want the EU to only brand renewables as green investments, but doing so would make replacing coal plants by much cleaner gas plants more expensive. Renewables have different characteristics than coal plants, which can operate at night in a storm during droughts, unlike many real green alternatives.
I think we should aim towards a 100% green energy grid with the necessary battery banks to maintain power during difficult weather. However, it'll take us a while to get there.
I'm always a bit baffled by the amount of pro-nuclear comments on HN and their stance on how everyone who disagrees is just not educated enough. Please educate me: Is the waste problem solved? Are we not still fighting with all the previous attempts of handling it? Is "dig a hole in a salt deposit and keep it there" really good enough for the very, very, very long term? Are old powerplants properly decommissioned and replaced with new ones when the time comes? Can we really claim to be able to handle worst case scenarios well (e.g. Fukushima)?
It has never been a problem in the first place. At least not a technical problem. Sure, it is nasty stuff, to be treated with respect, but not worse than toxic chemicals we regularly deal with. It is also potentially useful stuff: rare, exotic matter that gives off energy. Compare with coal plants that also produce nuclear waste (there are radioisotopes in coal), but that waste is dumped in the air you breathe.
> Are old powerplants properly decommissioned and replaced with new ones when the time comes?
The are properly decommissioned, and it is really expensive, and that's indeed a real problem with nuclear power: it is expensive. But the thing is: nuclear plants don't have an expiration date like bottles of milk, you could potentially run them forever with regular maintenance. The reason we don't do that is that is that over time, maintenance becomes more and more expensive, parts become obsolete and stop being produced, etc... At some point it is cheaper to build a new, better plant and decommission the old one instead of spending a fortune on obsolete parts and retrofitting.
> Can we really claim to be able to handle worst case scenarios well (e.g. Fukushima)?
No, they wouldn't be worst case scenarios if we could, but we are doing our best. In the end, even with Chernobyl, nuclear power is still one of the safest per unit of energy produced. It is no excuse, Fukushima shouldn't have happened, but if the only response to an accident was to stop everything, we wouldn't do much.
"In the end, even with Chernobyl, nuclear power is still one of the safest per unit of energy produced."
I'm not anti-nuclear at all, but I see this argument used a lot and I don't think it's a good one. The concerns with nuclear are all about tail risk. Comparing past results to other forms of energy doesn't address this since neither Chernobyl nor Fukushima were worst case scenarios for nuclear.
An effective pro-nuclear argument should address the tail risk concern head-on rather than talking past it.
Isn’t this like comparing the safety of a motorcycle to that of an A380? The “tail risk” of the latter is 800+ dead versus a single rider, but the expected value is way lower in the plane’s case.
In that case, there's plenty of data that shows the plane is safer mile-for-mile. There have been enough flights (of all jet models, not just the A380) and enough crashes to provide a reasonable estimate for the odds of a crash. From there, it's basic math to prove that the motorcycle is far more dangerous.
The challenge with nuclear energy is we don't have a big enough sample to say with certainty, just from the data, what the odds are of a disaster 1000x worse than Chernobyl.
My understanding is Chernobyl itself could have been 1000x worse and rendered much of Eastern Europe uninhabitable if the appropriate steps weren't taken in time, so to a neutral, non-expert observer, that would seem to indicate the odds are greater than zero.
This is what many anti-nuclear people are concerned about, so if you want to get them on your side, you need to explain in detail why that kind of event is no longer possible. Just stating that it hasn't happened, as if that were proof it can't happen, isn't convincing.
I see what you’re saying, but it seems impossible to prove it literally cannot happen if you just assume every safety system we put in place all fail at once, which is _possible_ I guess.
We live with worse tail risks daily though: we have nuclear weapons in the center of Europe (could be misused, there could be an accident, etc.), we have labs that handle or create deadly pathogens (there could be a leak, etc.), we live near volcanoes or in earthquake/tsunami prone areas, and of course we are living through climate change with unknown tail risk (to crops, to temperatures, etc.).
If you accept that sort of question with no real probability of happening (“what if 5G renders us all infertile because we misunderstand high frequency radio waves?”, “what if the flu vaccine produced this year kills us all?”), you can’t really do anything. It’s impossible to prove a negative, we have to deal with expected values given our knowledge.
There clearly is a line where we don't do projects if the tail risk is too high, just like you wouldn't build a house next to a volcano that is known to violently erupt every year or decade--if it's every 1,000 years, it may be a different story. The question is which side of the line nuclear energy is on.
I basically agree that it's on the "worth doing" side given the right conditions are met. These conditions plainly weren't present in the USSR in the Chernobyl days, and probably aren't present everywhere nuclear plants are operating today either, but that's not a reason for a blanket anti-nuclear stance given its many benefits.
My point is simply that comparing historical results isn't relevant to the tail risk discussion. Pro-nuclear people should stop using this argument imo--it makes it seem as though they don't understand the position they're arguing against.
Sidenote on nuclear weapons: my sense is almost everyone does agree that the tail risk of a disaster is unacceptably high, but because game theory makes a drawdown extremely difficult, they're considered a grim necessity. If we could somehow destroy all nukes simultaneously and make it impossible to build new ones, we'd increase humanity's odds of survival quite a bit by doing that.
One consideration that comes to mind is if the scale necessary for operating nuclear is much greater than the examples you cited?
Thinking out loud, without taking a stance on either side, it seems we would need to scale nuclear power to the hands of many lesser qualified people than in the cases you mentioned, which would push the tail risk much harder.
That said, I haven’t thought deeply about the comparison here. If we need heavy magnitude of power, then we are bound to have to accept the risk of disaster as such concentrated power centers inevitably become unstable.
>Is the waste problem solved?
Are we not still fighting with all the previous attempts of handling it? Is "dig a hole in a salt deposit and keep it there" really good enough for the very, very, very long term?
It is technically solved, but politically unsolved. YMMV about how much of a deal breaker this is.
>Are old powerplants properly decommissioned and replaced with new ones when the time comes?
Not a problem that you can solved today
>Can we really claim to be able to handle worst case scenarios well (e.g. Fukushima)?
Yes, also Fukushima can't happen in geologically inert Western Europe.
However, what is clear is that the world needs consistent, plentiful, reliable carbon-free energy. The storage required to meet the first three conditions with renewables DOES NOT EXIST. It doesn't exist for anything outside of a few minutes. Nuclear power is: consistent, reliable and carbon-free; and humanity has known how to do it since the 1960s. In a contest between a technology we DO NOT HAVE, and one we DO, it is a no-brainer.
How is technically solved? We are talking enormous timelines for which we have to guarantee safe handling of the waste. Every try until now has proven to be inadequate.
So we are in the situation where we live with old powerplants that are not up to standard and no way to handle that but we will definitely be in the future?
„Can‘t happen“ is always the argument until it does and it‘s a difference if we are talking about something that will be over in short time or will remain a problem forever. But my point was more in the direction of how to handle that, if the solution is bury it and move far away from it, it‘s not something that can be scaled.
But it isn't a competition between technology. It is a competition between industrial-societal complexes that include supply chains, resources, training, politics and a large number of flawed human beings. Having the best technology isn't enough. The human infrastructure behind is what wins. And in that respect the renewables/battery complex is just more successful. We may well be able to scale up storage to support renewables more quickly than nuclear new build.
Here it is. We just don't base the immediate future of the underlying infrastructure of our whole economies on a 'may'. We do it with proven, existing, scalable tech.
Assuming this question is made in good faith: air pollution as generated from coal and methane ("natural gas") is really bad and much worse than previously realized: https://patrickcollison.com/pollution.
People have some kind of aesthetic / disproportionate fear-based response to nuclear and ignore the deaths that occur due to combusting coal and methane. Most people can't or won't think numerically but we should also try to do better.
But nuclear or fossil is a false dichotomy: There are also renewables, which of course have their difficulties with intermittency but are often already now the cheapest electricity source.
Yep, for example storing old batteries full of dangerous chemicals, used for consistent energy supply is quite a challenge, or getting big amounts of lithium for those batteries. There are options of course, for example recently finished "battery" in switzerland with two big water capsules, but still there should happen many improvements in renewables and hopefully in nuclear too. Small nuclear reactors that are cheaper, easier to deploy is a promising concept too
> Is "dig a hole in a salt deposit and keep it there" really good enough for the very, very, very long term?
Yes. It's not that dangerous, the whole reason it is waste is that it's no longer radioactive enough to power the plant. (And as plant technology improves, the threshold for "no longer radioactive enough" will get even lower)
> Can we really claim to be able to handle worst case scenarios well (e.g. Fukushima)?
Fukushima led to 1 death from radiation. Nuclear's overall safety record is far better that any alternative
You're not gonna convince many sceptical people by looking only at death counts. How many people had to be relocated? How large of an area is now uninhabitable? How many would have died if our luck had been just a bit worse that day? Is there anything about the technology in all currently operating power plants which completely rules out a worst-case meltdown scenario?
People are mainly afraid of nuclear because the worst-case scenario is so insanely ridiculously bad, not because it maintains a high stable death rate.
>How many people had to be relocated? How large of an area is now uninhabitable? How many would have died if our luck had been just a bit worse that day?
_Hiroshima_ was re-inhabited just a few years later, and it was literally hit by a nuclear bomb.
They were "lucky", btw: "since the bombs were detonated so far above the ground, there was very little contamination—especially in contrast to nuclear test sites such as those in Nevada"
Ōkuma, Fukushima is still largely a ghost town from what I can tell. Only parts of the town have been declared successfully decontaminated with residents allowed to return, and only as late as 2019.
I'm always a bit baffled by the amount of pro-renewables comments on HN. Is energy storage solved problem, or are people in northern latitudes going to freeze to death during winter?
It's also not really an issue that nuclear is free from. It's very difficult for nuclear to follow demand and it is not as reliable as can be seen with France's current struggles.
"Green" is an extremely politicized term. The nuclear aversion has nothing to do with rational thinking and everything to do with emotions. And since most people have emotions, you can get highly educated people to be "green" extremists. These people don't balance the equation with the suffering of the poor people (which rising energy prices absolutely bring to the table), and secondary effects of green extremism like shrinking economies and inflation is not something on their radar, all that matters is that there is less CO2 being produced (or so they think), everything else is secondary and temporary.
All of that would be fine, there will always be extremists (and to a degree, we need them) and if you seriously believe in the cause, more power to you...
... the real problem is that left wing has adopted this extreme green position as one of its core elements. Now all the left wingers have to adhere to green extremism, otherwise they're not part of the team. In 2022, it is not acceptable for any member of any left leaning party to be climate moderate.
The right wing has abortion and guns, the left wing has green extremism and critical theory. Try to be openly anti-gun or pro-choice on the right wing. Try to be openly climate-moderate or anti-woke on the left wing... see what happens. THAT's the problem. Nuance in politics went completely out of the window in the last decade. It's either extreme A or extreme B. And the other side is not only wrong, it is evil.
you either have wind or you have solar. most of the time in a country as big as france there is always a place where you have tons of either one.
storage is only needed for spikes, which btw. is also needed for nuclear (or you can use gas).
btw. your argument is the one I think is so stupid from the pro nuclear crowd, as if peak nuclear is a solved problem. (p.s. it isn't no country in the world does use nuclear for peaks not even france.)
The high-order bit is that nuclear waste isn't very much, is solid and is manageable. Your average US nuclear plant will produce 3 cubic meters of solid waste each year. That's about the size of a refrigerator. In the US, the vast majority of such waste is sitting inert in cooling ponds doing no harm at all, where it has been sitting for decades with no real incidents.
Compare that with a coal-fired power plant where the waste is gaseous, toxic, and enormous. Thousands and millions of tons. And fly ash is radioactive. Far more radiation is produced by coal plants than nuclear plants because of the radioactive isotopes of carbon and other trace elements. And that's just blasted right into the air. Not to mention the CO2!
I hold all power sources to the same standard. As long nuclear don't put their pollution into the air, storing it is almost infinitive better. Any energy source that just release pollution into the environment as a cost-saving strategy should be banned, which by economical standard makes all fossil fuel energy sources (and possible some bio fuel ones) nonviable.
The same is for handling worst case scenarios, and here we got a prime example for which to base a minimum standard. Hydropower dams has very bad worst case scenarios if they burst. For the person who dies, neither radiation poisoning or drowning is pretty pleasant, so which ever regulation and liability we want to apply to both is fine by me.
One option to is to ban any energy source the release pollution, and any energy source that has a risk to human lives. The candle industry would be happy, through I suspect there would be an increase in house fires.
1) Keeping existing nuclear power plants running and making incremental investments in them. I'm a proponent of this for the next 20-30 years because they generate carbon-free base load electricity. I don't think we have a choice given climate change - when we turn off a nuclear plant, we spin up coal and natural gas.
2) Building new nuclear plants. I'm skeptical of this - the costs don't seem to pencil out anymore and the political capital isn't there. From what I've seen we're better off investing in wind+solar+storage.
The worst-case scenarios are a real issue and I wouldn't want to bet on nuclear forever, but to me the imperative to address climate change is bigger in the near term.
You're asking us to Google all of these things for you and summarize the results into a neat coherent summary? I'd be more interested in why you're baffled by the popular opinion to begin with. What are the problems you see with the topics you bring up? Then we can cut to the misunderstandings rather than starting from scratch.
We need an alliance between nuclear fans and wind (heh) fans. You situate the nuclear fans in front of the wind fans' wind turbines. The wind fans then ask the nuclear fans about nuclear's ongoing problems with going over-budget on new builds and unresolved multi-century waste management commitments. The nuclear fans immediately try to hand-wave these objections away. The resulting draft turns the wind turbines. Viola, clean, green energy!
Egregriously editorialized title (real one: "Gas and Nuclear Turn Green as EU Parliament Approves New Taxonomy"), the big thing is the greenwashing of gas here.
But you can always clickbait HN by focusing on nuclear, well played for internet points I guess.
As I heard today again on the radio, the narrative is "to get energy whatever the weather, we cannot rely only on wind and solar".
I'm surprised that they haven't heard of the possibility of energy storage.
Both already available storage solutions, and the many other solutions in development, are largely enough to enable wind/solar and other renewable sources to replace fossil fuels, without relying on nuclear.
I think you (and most people that talk about storage) drastically underestimate the scale of the storage required and just how tight supply is for the resources necessary to build it.
For now EVs are going to consume the world's supply of batteries. Leaves you with thermal or potential energy storage like pumped hydro. All of which aren't even fully developed yet or are restricted to specific geography.
As of right now, even ignoring new designs nuclear is 100% technically viable, it's just expensive. Expensive is generally easy to fix just needs scale like what we have for solar now.
I hear you, but the real argument against nuclear fission is not the economic one, it's the safety one.
The safety during the (peace time) use of nuclear plants has been hugely improved, so I agree that's not anymore the main concern.
But nuclear fission facilities are very cumbersome to dismantle, and they are liabilities during and after their commissioning.
You can see that in Ukraine for example, Zaporizhia plant has been taken into hostage.
Chernobyl was too, briefly.
This kind of liability is especially concerning in our era of crisis (triggered by the global warming), that we could even suspect to be the beginning of a civilization collapse, which is a big word to say simply that situations of conflict, including internal conflict (civil wars and guerrillas) will multiply everywhere. Imagine the 6th January folks marching to a nuclear plant...
There is still also the problem of the nuclear fuel: now West Africa and Sahel are providing a sizable part of it. But what will happen when they do not want to cooperate anymore with the Western world? (Russia is working very hard to push to this situation)
Nuclear safety in war time is unproven sure but I would argue that a nuclear power plant is much less dangerous than a hydro dam. Imagine a strike on Three Gorges Dam, at minimum millions would die, without needing to use a nuclear weapon.
Sure it's a tough pile of concrete, but that is exactly what a nuclear power plant is too.
Nuclear fuel is a non-issue if it was profitable to mine it. Australia has vast supplies of very high quality Uranium deposits and a substantial portion of the worlds supply of Thorium so the "West" will have ample supply to fissile material for the next several millennia.
Spent fuel is also really a non-issue. It gets talked about a lot but even if we were to supply 100% of the worlds energy on nuclear (which we never would, solar and hydro are too good for that) we could still store all of it in probably a single facility in a desert in Australia far from where anyone could give a shit about it. Australia is -extremely- large and -extremely- sparsely populated, especially the interior.
I get why people don't like the sound of nuclear but the arguments just don't stack up against the facts, cost really is it's only downside and I'm certain that can be fixed with mass production of reactors and designs that don't need active cooling in failure scenarios.
I concur that, for this kind of near-civilzation-collapse risks, dams are less desirable than wind/solar facilities.
But I can't compare the risk posed by a dam and the risk posed by a nuclear fission plant.
One is an instant and relatively local disaster, the other is a long term and wide-spread (before containment) pita.
However, I suspect that dams are much harder to turn into a catastrophe than nuclear plants. While for a nuclear plant you just have to disable the cooling and move all the fuel rods all the way outside of the boron dampener and keep it this way for enough time to overheat, for a dam you would have to throw a really huge lot of explosives on it to physically destroy its concrete. There are several types of dams too, some of which are probably as strong as a natural hill.
About spent fuel: there are probably many reasons (that I don't know) why the actively-cooled-pools are not all in the middle of deserts, but right now they are just next to the plants. Of course we could put them on the Moon too, I would consider it a definitive solution (for this part of the problem).
Nuclear definitely has a PR problem and I don't have enough background in the science to claim how unfounded the problem actually is. But what I do have are memories of how people react to anything nuclear related. All it takes is one high profile incident and all the political capital spent on selling nuclear as an attractive option to the public vanishes instantly.
I don't know why other energy sources don't seem to have this problem. Not to the degree nuclear has, at least.
For the same reason why people turn a blind eye to oil, coal, guns, alcohol and cigarettes yet have a problem with cannabis, abortions, nuclear power, gun control and until recently electric cars.
PR/marketing trumps all because people aren't sufficiently educated in science and statistics to understand what represents risk vs what is feasible, etc.
Because they can't interpret the data themselves they defer to media and public figures and unfortunately in our world those people aren't incentivised to present things honestly - even in the rare cases they are educated enough to do so.
Sorry to pick up on your specific examples, but I don't know why you are classifying alcohol deaths as under-estimated and abortions as over-estimated(?).
For the record, the National Center for Drug Abuse Statistics reports there are about 95,000 alcohol-related deaths in the United States annually[0], while the CDC reports over 600,000 abortions per year.[1]
It's true that someone who reads PR/marketing material is more likely to die from being hit by a drunk driver than by being aborted, but I don't think that's the point you're trying to make.
Abortions aren't deaths. Even if they were I wasn't looking to draw comparisons, these were just examples of things people don't have informed opinions on.
Abortions aren't deaths any more than pulling out constitutes murder.
It's just a bunch of cells like any other until it becomes able to sustain life independently at which point abortion is essentially illegal everywhere in the world except in seriously extreme circumstances.
Attempting to define it otherwise takes some fairly substantial mental gymnastics. If I have to amputate my arm did I "kill" my arm? Or did I remove a piece of myself that was malfunctioning? Sure it was a bunch of cells and those cells are "dead" I guess. Is a baby part of the mother or is it special because some of the DNA was donated externally? If it's special is it a parasite? What distinguishes it from viral infections that introduce foreign RNA?
So no. I don't think I'm uninformed. It's fairly clear cut at this point but apparently most of the world thinks we should declare it ambiguous because it goes against cultural indoctrination of a significant portion of the population.
Exactly the sort of pandering that has led us to the edge (or potentially past) of no return on climate change.
> until it becomes able to sustain life independently
You mean get a job and earn a living, or just forage in the woods for berries?
> at which point abortion is essentially illegal everywhere in the world except in seriously extreme circumstances.
Assuming you mean "at fetal viability" (the RvW standard), I think you may be surprised to learn that 6 states plus DC allow abortions at any stage of development and for any reason.[0]
> If I have to amputate my arm did I "kill" my arm?
Does your arm have distinct DNA from the rest of your body? Was your arm going to naturally develop into a healthy individual with their own rights and desires?
> Is a baby part of the mother or is it special because some of the DNA was donated externally?
Thank you for correctly using the term "baby". I ask your question back to you in the context of a hypothetical law allowing the abortion of newborns. Would your answer change if this hypothetical law only applied to newborns with life expectancies less than 5 years?
> What distinguishes it from viral infections that introduce foreign RNA?
The baby has human DNA (and RNA). That seems relevant if we are asking whether the baby should have human rights or not.
> I don't think I'm uninformed.
It seems like you've thought about your position a lot, which is great, but I'm not sure if you've fully considered enough of the possible counter-points to it. Thank you for sharing your position with me, though.
In France for example, people who are anti-abortion, anti-cannabis, anti-EV, etc (most often those are Conservative people) are also anti-wind-turbines and pro-nuclear.
The point is that most people don't have informed opinions based on fact but rather just regurgitate whatever is fed to them in whatever media they consume.
Us sitting here having an educated debate on the merits of nuclear vs hydro aren't the problem, we lie in the relatively informed group. We have concerns about nuclear (and other technologies no doubt) but those come from a place of reason, not of group-think.
Side note:
Nuclear and it's relation with Green's parties around the world is also special as it was the platform on which those parties were created. So otherwise rational people, i.e environmentalists are irrationally against nuclear power because of long-standing historical reasons that probably don't hold anymore but can't change the very basis of their platform - or at least are unwilling to.
No amount of facts changes that as it has nothing to do with facts and everything to do with politics.
This is an important point. Nuclear can be very safe in theory. Under the right circumstances, all risks can be accounted for (except long term waste storage, apparently). Problem is, in the hands of profit-seeking companies and aggressive and/or corrupt governments, those circumstances will not be right.
Remember that both Fukushima and Deep Water Horizon were caused by companies cutting costs in the face of warnings of the risks.
Why can't the waste just be ejected into space. SpaceX has made launches a lot cheaper than it once was and once you push it into the solar system it'll never cause problems again.
Launching large amounts of nuclear material comes with its own risks, and if it orbits the sun in an earth-crossing orbit, we will eventually encounter it again. Launching into the sun would be nice, but that's way more expensive.
Compared to keeping it on earth, or putting it in the ocean, where there are also many things that can go wrong? Yes, launches can explode, but it's very rare, getting rarer and presumably these rockets could be launched from small islands where if there's an explosion the fallout would mostly be over the ocean.
I once read that 1 kg of plutonium burning up in the higher atmosphere would be enough to kill the entire population of the earth. I'm not enough of an expert to know if that's really true, but I suspect there's a good reason why experts don't consider this a good option. Or at least not yet.
> EVs are going to consume the world's supply of batteries
The ideal battery technologies for electric vehicles are completely different than what you want for balancing the grid: vehicles need very high energy density because they need to move the batteries, while the grid can use bulky heavy options.
Of course the scale is large. Anything that replaces fossil fuel use is large. That doesn't mean it impossible, or even uncompetitive.
If you think there is some specific resource limit that would prevent adequate storage (from all storage technologies) from being implemented, do please tell me what you think it is. Realize you have to kill ALL the disparate storage technologies to make this argument, not just one specific one.
The key thing is, we need a better grid in Europe. While we do have a better grid than the US, simply measured by checking outage rates, it is nowhere near large enough to allow large scale transfer of power across the continent.
Assuming we had a decently sized cross-continental grid, it would be possible to have a lot of overcapacity in wind farms pretty much anywhere on the European coast lines - particularly in Portugal [1] and other areas with constant, strong wind power - and then transferring it to countries which do not have enough wind power.
Additionally, we could transform our industry, particularly aluminium smelters (for example, in Germany one percent of the entire power usage of the country goes to just two huge plants in Essen and Hamburg [2]) to seasonal production - basically, they would only be allowed to produce during the summer when there is enough solar power available. This will be expensive, yes, but unlike the sparsely settled US Europe simply has nowhere to store the waste of nuclear energy.
> I'm surprised that they haven't heard of the possibility of energy storage.
They have probably heard of it, most probably they also know that it isn't scalable. It might be scalable, in I don't know how many years, but the here and now (and especially the coming winters) is closer to the EU electorate than some possible technological breakthrough that might or might not happen.
What solutions do you know? The hydro ones are not scalable, that's for sure. One, you'd never, ever get the environmental permits to build the dams behind them, and two, you can only build them in mountainous, maybe hilly terrain, that would add tons of costs related to distribution.
I had also read something about using salt deposits, but maybe I'm remembering wrong.
And no, Tesla-like batteries, or any batteries for the matter, are not a solution at the scales we're talking about.
There's nothing quite as infuriating when people scream about NIMBY being a deal breaker for nuclear, then peddle damming up entire valleys where people actually live right now to use as pumped hydro storage. It's like they can't even hear themselves speak.
And as you point out, most recent battery advances seem to be on par with graphene in that they promise everything yet can't seem to leave the lab, much less be manufactured anywhere close to the scales required.
Out of all the renewables I suppose wave power is the most prospective right now. It's consistent, runs 24/7, and could be placed at most shore locations. Probably not quite enough output to make a dent though.
> I'm surprised that they haven't heard of the possibility of energy storage.
Neither have our grid operators it seems. Current worldwide grid storage capacity is so absolutely abysmal we could call it a rounding error.
In the end of the day, we'll need both renewables and nuclear combined to get us out of this fossil powered mess, and ignoring one of them won't exactly give us a good chance, with whatever tiny probability we still have left to unfuck the atmosphere.
> I'm surprised that they haven't heard of the possibility of energy storage.
Have we not? I think the real issue is that we have capitalist pigscum that are greedy and want to burn the atmosphere if it can give them an extra buck and the EU is beholden to them that is why they made this change.
But they are allowed to hide behind this false narrative because the population is not aware enough, which is why we should speak publicly a lot of the energy storage solutions and projects.
Germany planned to use gas to bridge times with little wind and solar power to be able to turn off nuclear energy. Not smart but true. The new plan is to build even more renewables. and massive storage capacity, a very optimistic undertaking.
The plan is to use the plenty of excess renewable production to generate hydrogen and then burn that in the gas plants. Therefore, all gas plants qualifying as "green" have to be able to burn hydrogen.
How about specifying its about hydrogen and hydrogen _only_ in the EU resolution then? Is it because its really about whats being pumped over Nord Stream? Lets face it, this resolution has Schroder/Scholz fingerprints all over it.
Yeah it‘s not that easy is it? Enthusiasm and optimism is good but Germany is currently like a train speeding to a wall and people shout: „go faster! We will build breaks easily!“ Russia just took off another big break. And still people don‘t change. This is an emergency situation and people just keep going on the same path. Would be funny if it wouldn‘t be so terrible.
Using renewables to create hydrogen and use that, this plan has been calculated trough again and again and again by Deutsche Institut für Wirtschaft (German Institute of Economy) and others and deemed very viable.
So I take the science over some random dude on the internet ranting about people not changing or something any day.
The DIW, although they boast a fancy name, is registered as a lobby organization and they are.
They (Kemfert) also calculated in 2020 that - even if Russia cuts gas transfer to 0 - Europe does not need anymore LNG terminals, because we have enough and planning should be stopped.
What happened? The planning was stopped. Now we need to quickly order and build at least 2 LNG terminals in Germany and are in the midst of an energy crisis (yes, including power).
If they are not able to calculate something that easy, you should not trust them with way more complex calculations. Especially because they are a lobby org.
btw. the gas push was not only by germany, in fact if you have nuclear you have the same remaining problem as renwables. germany btw. was one of the countries which wanted to block the nuclear part. In fact there were some countries (and still are) who wants to block the whole law (both of it).
in fact the gas turbines that are getting funded do need to support hydrogen.
(btw. the whole law is mostly about funding)
When it comes to nuclear, no story is better than the story of the Zwentendorf Nuclear Power Plant in Austria.
It was built, finished, ready to start providing 692 MW of power.
But was prevented with a referendum on 5 November 1978 by a narrow majority of 50.47% against.
So they didn't start it.
They instead replace it with Dürnrohr Power Station, a termal power station burning coal and gas.
The push for ideological purity that prevented them from accepting a less-than-perfect choice, lead to getting stuck with the worst-possible choice when reality came knocking. It's a cautionary tale for all ideologically “passionate” people, of which we have far too many in today's society.
So stupid to hate nuclear energy. you dont need to be a rocket scientist to realize how good deal its. Where i am from a lot of activists hit the road and blocked many nuclear plant from bein built.
Brainless activism is destroying democracies around the world
The same happened in Spain in 70s, and the ecologists saved several cities and the local economy of thee entire area when an earthquake hit at a few Km of were the smart people wanted to build the nuclear plant.
So, some are brainless, other are genius able to predict the future and take the correct decision. Your mileage can vary.
This was exactly the idea in 1973 Murcia, Spain, yup. BWR model. Same design as Fukushima plant at 30km of Lorca. Until a couple of dumb guys and a famous actor from the area see what was obvious, pick up some banners and saved the day.
The action payback generously when in 2011 Lorca was hit by an 5.1 earthquake and no central nuclear was here to be hit. None of the tomato companies that sell vegetables to half Europe were destroyed, tourists keep coming as usual, and none of the fishermen were crushed.
Fortunately we will never know it. The damage to homes was 36 million euro in any case, but this is not the only thing that matters really. The bad press of an European Fukushima in the year of Fukushima would have destroyed the tourism in thousands of Km of the Mediterranean Spanish Coast.
Would you buy tomatoes cultured near a central nuclear that "may not have been damaged" by an earthquake?. Would you pass your holidays dining fish and swimming a place that "probably is not leaking radioactivity to the sea"?. Most people would answer negatively.
Nuclear benefits don't matter when you have a better plan for the place. If the other activity brings you ten times more money without the risks, and without excluding the rest of the economic activities in that place, the decision is easy.
A company designing potential catastrophes, without checking the most basic facts about the area and with no respect for all the other activities? Planning to build a nuclear plant in what is probably the most active seismic area on the Iberian peninsula (Last earthquakes registered in the area: 29 and 30 March 2022).
Yes. Not in my backyard.
Because sometimes, the plan is simply idiot and sometimes NIMBY is the correct choice.
We are doing really well forty years later with a clean ocean, a strong touristic sector (developed later, in the last two decades, so one of the last really wild areas remaining in the Mediterranean) and we have still a strong greenhouse agriculture sector. We don't need their pennies.
I hope this people had been be fired immediately after proposing the plan.
It's not brainless, there is a very intelligent cohort of people who stand to gain a lot of money from investments shifting away from nuclear energy into sources they are personally leveraged in. People aren't generally able to form grassroots movements without the consent of at least some of the moneyed elite.
Seems like everybody is jumping on the "environmentalists that don't like nuclear power do it for ideological reasons and are paid by the oil lobby" resentment bandwagon.
While I think it is a fair point and while I do think it's a stupid mistake to close nuclear plants, there are also issues that I rarely see addressed probably because they drown under all the rest :
1. Nuclear plants are very expensive and some projects have been pumping taxpayer's money. I suspect they are not so easy to conceive, build and maintain as other sources of clean energy. Especially since they become a security issue when they get old.
2. The problem of waste management has always been a problem. I hear it argued that it is a solved problem but certainly having this problem lying since the beginning of the industry has not helped not build trust.
3. The nuclear catastrophies have been overblown because they were more spectacular and a new thing affecting lot of people in a short period of time BUT it remains that it is hard to trust people that thought building a nuclear plant in an island that is the victim of dramatic eathquakes and tsunamis a good ides AND the problem is that it fucks up an entire area for who knows how long ? That is certainly scary, no need for oil producers lobbying there to explain distrust.
4. Is there even enough uranium for the world ? Is is sustainable to invest loads of money into systems whose fuel is on foreign countries that you have to dig up ? (so according you gathered by now I am not pro-oil. Keep it in the goddamn ground)
5. It is a single point of failure. Thank god no terrorist thought of "landing" a plane there. It's broken ? No power for an entire region.
6. Finally, but this is a minor point as those considerations may be a luxury during our climate crisis, the technology lends itself well to despotic elite rule, everyone depends on who can secure control of a little army of skilled workers and engineers. Those control the energy supply would have tremendous power.
We still don't need nuclear. We have many other solutions, including reduction of power consumption, cap-and-trade carbon credits, and much more.
What's happened is that, bizarrely, people have completely conceded to the reactionaries. People have given in, and now give the reactionaries free reign, making it a fait accompli that none of those solutions will happen. If you quit trying and let the reactionaries off the hook, then nuclear is (arguably) what's left.
The anti-nuclear power position of the 1980s didn't take into account - and shouldn't have taken into account - that the American conservatives and the fossil fuel industry would prevent any action on climate change for decades, even denying climate change was happening, then falling back to 'it's not caused by humans', and now to 'there's nothing we can do'.
> Seems like everybody is jumping on the "environmentalists that don't like nuclear power do it for ideological reasons and are paid by the oil lobby" resentment bandwagon.
Again, everyone has completely capitulated to the reactionaries, like people in Vichy France. They are jumping on the reactionary bandwagon. The reactionaries are exceptionally aggressive (an obvious, unimaginative tactic) and people feel powerless against them, so like people bullied on the playground, they find a safe position: Join the bullies and attack their targets.
It lends itself to despotic elite rule a lot less effectively than oil though, as you need so much less of it and the economic cost of it is so much less.
Consider if you compare the cost of keeping a petroleum-burning 5 MW plant going for 40 years vs. a nuclear one. How many tankers full of $100 per barrel oil would that be? Just the fuel used by the tankers themselves would dwarf the uranium ore needed for the nuclear plant.
That's not even taking into account newer designs that could be powered from the existing waste of older plants.
As for despotic elite rule, that's what we have faced for decades with oil. Uranium ore is found on all continents, with the largest supplies in Australia and Canada. Oil is run by the Saudis, Putin, Maduro...
OMG. The first sentence: "designate natural gas and nuclear as environmentally sustainable energy sources"
I argue that nuclear is making our descendants pay for our current consumption because of the waste. It can be argued that there are storage mechanisms that are safe tor two hundred millennium (I do not accept those arguments, but it is an argument).
But natural gas: It is not sustainable (it is a fossil fuel, it will run out). Burning it produces CO2 which is burning the world, and producing it releases huge amounts of methane that cannot even be counted and that is worse than CO2 at burning the world.
Such greed, such hubris, such willingness to ruin the world that we borrow from our children to satisfy our greed.
Isn't it smart to invest in Nuclear? Sure, there might be drawbacks right now but if we invest in research and improve it we might find a way to make it "greener"?
Also we seem to be focusing on space exploration again. To take off we're always using fossil fuel. I'm going to take a wild guess and assume that you cannot take a ship into space with wind and solar. Also a wild guess but if we develop nuclear enough we might get smaller generators that are able to help a ship take off and then continue to have energy while in space. I know too little to make these claims but I'm sure the smart people here can help me understand if I am wrong or correct :)
While yes, this is currently true even for SpaceX whose Falcon family uses RP-1, for the future the situation looks different - Starship uses liquid oxygen (which can be obtained by air liquefaction) and methane, which can be synthesized at high efficiencies [1] in a laboratory scale or captured from landfills.
The problem with nuclear right now is that even if we decide to massively increase the share of nuclear power in the energy mix (in itself a very good idea), it will take a lot of time to build up the human technical capital necessary to plan, build, and operate these plants. This should have been started 5-10 years ago, and new graduates woukd be ready.
Not to mention physical plant which also takes many years to finish. My worry is that once the energy crisis becomes completely obvious, with people shivering in blankets, govts will panic and push through emergency building plans, cutting all corners.
As with every complex problem, nuclear is a flawed option, but one that offers small advantages for a limited timeframe. Gas and nuclear will not be discarded for years. Real world applications are rarely “either/or”, but more of a market with many goods served.
But, some facts for the pro nuke crowd here:
Soon, rivers will be to warm to cool down nuclear reactors. Unless you want to kill many things living in the water, but no one proposed this, yet.
And the rivers carry less and less water during summer.
The storage was never done for the full time scale necessary, so we might overlook problems. Scientific knowledge progresses, but also earths bodily nature has some surprises in stock. Like in Fukushima, where expectations/specification and real natural phenomena collided catastrophically.
Fusion and fission generate heat. While about 1 % as bad (source: minkorrekt podcast, german language only) as CO2 emissions, we still would need to compensate (even for having ideally cheap infinite fusion energy that would cause rebound effects of increased consumption) by for example using only short term tested carbon capture and storage on a global and permanent scale.
Another way to cool down earth is painting the ground brightly. Or having plants that are brighter to heat radiation than concrete and tar in urban settings. Gras required water but does an ok job. Solar power panels have the same albedo as gras, generate electricity and require water only once during construction. So at least this kind of renewable energy source, but also others, tend to have lower hidden costs and/or effects of placement in a global heating scenario.
Nowadays, wind power is so much cheaper than nuclear that that Germany imports power from denmark (with a high wind percentage) and exports it to France (where a high percentage is nuclear power).
BTW, I really like the investigation of how to harness fusion energy: the project to do this creates scientific progress and productional-and-measurement capabilities which are going hand in hand in increasing our knowledge and capabilities of gaining more knowledge with all of these tools. The Stellerator project (Wendelstein) has a great return in investment. But using this energy source could be counterproductive for a long time on this planet.
Nuclear is currently about 10% of global electricity production. We could go all-nuclear, therefore, by going 10x on nuclear reactors (less in fact because there are renewables too but nvm).
There have been two major, critical nuclear energy incidents - Chernobyl and Fukushima. I'll count them both, though see caveat [1]. That's 2 incidents in 50 years. If we went all-nuclear and extrapolated, that'd be 20 incidents per 50 years, or 40 per century. UN estimates 4,000 deaths from Chernobyl (contentious but I'll stick with it). Wikipedia quotes Fukushima as 2,000 deaths - well, 2,002 deaths caused by evacuations and 1 in the incident. Let's not mince around and make it 4,000 per pop.
40 incidents per century at 4,000 deaths per event, that's a total of 160,000 deaths per _century_. In return, we're basically carbon-neutral and don't need storage. How many people die if we're not carbon-neutral? Millions for a start. It seems like a no-brainer to me. Also subtract all the deaths from not-generating power using these now-replaced means, improvements to air quality from not burning stuff, and I think humanity is in a much, much happier place.
I'm not saying nuclear is without downsides, I'm saying if you take all the downsides on the chin, nuclearise through the nose, you're better off than the alternative of burning stuff. Solar and wind are great but plenty of regions would require months worth of storage, which we're nowhere near to technologically.
So, now some nuance:
[1] Chernobyl, as I understand it, was basically man-made. Fukushima happened in one of the most extreme environments - east coast of Japan, one of the world's most seismically active regions. Also nuclear safety went ahead since then - these were both designs from 70s (!), we're 50 years away from the 70s.
[2] There are proliferation risks (though I still question whether they are as bad as global warming), but most of carbon emissions are from rich countries anyway (and we kinda equate rich with non-terrorist).
[3] Nuclear is expensive, but it is because it got much safer. We could, presumably, just take the old, less safe designs and build using those - and recreate all the above back-of-the-napkin maths. We could instead assume nuclear is indeed very expensive, but then we'd need to reduce the expected death toll numbers.
[4] Many regions can perhaps, indeed, do without nuclear and rely on solar, wind and hydro - great, good for you. Can you really do it without gas peaker plants or other "top ups"? Well if you can even nicer, but plenty of places cannot. But that's all good, that means we need less nuclear to achieve the same zero-carbon goal.
I'll preface this by stating that I'm German and I'm intuitively against using nuclear. But hear me out anyhow. :)
At this point the climate crisis is bad enough that I won't even fight against nuclear as such. If you can build it safely I won't stand in your way. I'll be busy across the street, fighting against coal, oil & gas. Thing is, the time scale at which nuclear stations are constructed isn't at all the same as for renewables; starting the planning for new nuclear now isn't gonna put us on the right track to a livable future. Nuclear plants are huge; the big ones that would really be needed for a big shift like you describe would take a while to go online.
Which is okay I think; if anything, we'll need much more electricity in total anyhow as we electrify more processes.
But we'll need more low-carbon energy much before that, now more than ever.
So I'll only agree with this if it's not an either or but doing both.
Caveat: I don't trust big profit driven corporations, nor states, to run nuclear plants in an honestly safety-oriented way. I have yet to hear a proposal how the incentives could be set up to change that. If nuclear is relatively casualty-free so far, I feel that's mostly luck, and indeed there were a few close calls. Don't start arguing with me on this one please because it's not the core of my argument (here). :)
People often don't realize that intermittent renewables must be paired with backup generation or storage. But energy storage at the scale of a 100% renewable system is currently an unsolved problem. So you really only have two options:
1. Continue to back up with fossil fuels
2. Temporarily back up with nuclear
Check my comment history for a debate on nuclear safety.
Well, in principle, we know how to build nuclear. We're slow at it, it's expensive, but it's sort of off-the-shelf.
Long term energy storage, by batter or otherwise..? I don't believe anyone has done it. We're not talking about maybe smoothing out energy supply/demand over 24h, were talking producing energy in the summer for the winter.
I'm saying there's no storage solution yet. Even combining all storage types, you'd still run out of materials (battery) or locations (hydro) before finishing.
It's not speed vs speed. It's speed vs forecasted capacity.
Headline here omits part of the headline in the linked story: Gas and Nuclear are both now considered green. Which to me just reinforces the absurdity of environmental advocacy. It's clear that CO2 is the most urgent environmental issue today, and I say this as someone who is skeptical of many of the doom and gloom extreme claims and policy prescriptions that amount to shaming for wanting luxury. So in that regard nuclear is not just a bridge solution, but a long term (nearly indefinitely if we reprocess fuel and use breeder reactors), especially if we get our act together and stop making it cost a fortune. While natural gas is continuing to contribute to CO2 in the atmosphere.
I think it's good to recognise gas and nuclear as being preferable to coal and oil, but green they are not. I consider them transitional energy sources; we will be stuck with them for a long time while we transition to greener energy, but coal and oil need to be stopped as soon as possible.
After the Fukushima disaster, Germany closed its nuclear power plants and replaced them with coal plans; absolutely the worst possible reaction to that disaster. We do need a middle category to recognise that nuclear and gas are better than coal and oil, but I really don't want energy companies selling me nuclear and gas power as part of my green energy subscription.
Also, nuclear disasters tend to be quite dramatic, leading to birth defects and uninhabitable areas.
Nuclear is only green when you only look at CO2. CO2 is the most pressing issue right now, which is why I support nuclear as a transitional energy source on our way to greener energy, but let's not fool ourselves and pretend it's as clean as wind.
This also means that all the money people fought for in the last years to get countries to invest in green energy is now funelled back into non green energy. People who invest in green energy Fonds suddenly invest in gas.
I wouldn't care about the label wouldn't it destroy years of work for a better environment.
From the article: "gas-fired plants built through 2030 will be recognised as a transitional energy source as long as they are used to replace dirtier fossil fuels such as oil and coal."
"The technical screening criteria ensure that any new gas-based power/heat plant (or refurbished combined heat and power plant or heat/cool plant) is either below the technology-neutral 100g CO2/kWh life-cycle emission threshold (i.e. using Carbon Capture and Storage technologies) or meets a number of stringent conditions and obtains a construction permit by 2030." -- Questions and Answers on the EU Taxonomy Complementary Climate Delegated Act covering certain nuclear and gas activities
I've read that. A lot of the money was still ment for other projects. Essentially pausing the whole green energy effort for the next 8 years (at least)
I think it's likely a good thing if Germany and some others invest money in Gas instead of coal. Especially now.
But in no world or metric is this green energy and should be built with green energy money.
"Essentially pausing the whole green energy effort for the next 8 years (at least)" [citation needed]
It is green energy as long as the criteria are met. Even solar could be not considered green, depending on where you set the emission bar. There is no black and white. There is a long transition process, with timelines, budgets and targets.
Rules on gas are very strict. The regulation is an improvement. Some countries prefer to rely on gas than on nuclear, and there isn't much that the commission can do.
> It is green energy as long as the criteria are met.
That's what the EU Parliament are saying; but the truth is that the criteria are met if the criteria are met. Energy doesn't become "green" just because some bunch of lobbied and whipped politicians say it's green.
It is a definition, which is needed when you need to make plans and decisions, as in any other case. It does not mean that reality changes because of an agreement, of course, even if mixing the two might be tempting when trying to discredit politicians as a whole. That is an evergreen :)
Thing is, the plans and decisions have already been made, under a more stringent definition. By changing the definition, they have effectively undermined those earlier plans and decisions. That's dishonesty.
There were no plans and decisions on the taxonomy regarding gas or nuclear before, which is part of the Commission action plan on financing sustainable growth. The taxonomy still needs a final vote to pass, actually, and it does not replace any previous taxonomy or regulation. Check your sources before moving accusations.
I hope you are right and this is not just a big step in the wrong direction, just because it sounds so stupid (Neuspreching burning Gas to Green energy is nothing but that)
There is no reason to favour investments in gas. This is a political compromise to placate Germany that drove itself into a corner by not wanting to hear about nuclear for ideological reasons.
3. I disapprove of nuclear, because its proponents never budget for decommissioning; not for "ideological" reasons.
What are "ideological" reasons anyway, in this context? What ideology are you on about? You could say there's a "green ideology", I suppose, which amounts to preferring policies that don't wreck the environment. But how's that an "ideology"? Is it "ideological" to favour policies that don't result in widespread famine, or global thermonuclear war?
I'd be pro-nuclear, very much so, if plans for new plants included detailed, budgeted explanations of how and when the plant would be fully decommissioned. They never do though.
That's besides the point. To get to net zero we can't favour new investments in gas. Maybe such investments are unavoidable in some cases but that's quite different.
So, again, this is all on Germany. They should clean up their own mess themselves and drop ideological dogmas.
My guess would be Serbia, that's the typical attitude towards the EU there (not to mention not-so-subtle pro-Russian stance). The only place which sees the EU in worse light would probably be Belarus or Russia.
Generally British people wouldn't say "heart of Europe". If anything when talking about Europe they mean continental Europe and don't include the British Isles in that.
Now that we agree that nuclear is a better future, we need to talk about where to source fissile materials, and what technologies can make it so safe we won't have to think twice.
How do people square climate change and violent currents across EU rivers with Nuclear installations so close to such rivers (for instance the Blayais power plant)? I am genuinely curious. Is the idea that we will build stations that can withstand such forces? It's not just warming rivers, but also notoriously unpredictable conditions and our inability to make up an accurate model of what might happen. If someone has a study that takes this angle I am happy to read it.
I see a lot of opposition to Nuclear Energy in EU and particularly Germany, can anyone tell me why ?
As far as I know, only nuclear has power to stop our reliance on fossil fuels as it can produce a constant supply of power and handle energy demand spikes like no other, and for Europe is more important as Russia can just cut energy supply to Europe and it will cause horrible effects to Europe's economy.
That is only true if nothing has changed in the last twenty years. But in that timeframe alternatives to nuclear have dropped in price quite a bit and know how about nuclear has retired.
If that were the case there wouldn't be an energy crisis in every country without nuclear power. Yet the less nuclear power a country has the more electricity prices have risen since 2010.
We need a rapid buildout of green energy. I like nuclear but the Green Democrats of the world ruined it. The world is worse off for their efforts, but someone has to win the race to peak stupidity.
"If reality doesn't fit our narrative, we'll just put our labels on reality and act as if we're the ones who decides what reality is" - aka children putting their hands on their eyes pretending no one sees them now.
Von der Leyen and consorts are so ugly and stupid.
The whole EU as an institution has to be teared down and rebuilt. It starts with the Lisboa treaty. When you create a construct on top of old but better constructs you get the results like increase right wing following, corruption and whatnot.
It used to be that bad politicians were moved to the EU to have them out of sight of the real governments. Now those failures make laws that change what those governments can and can not do.
It's a trojan horse only sitting on top, the pinnacle of uselessness.
It's just sad to see how little actual science is respected in Germany. I did my PhD at the French nuclear energy agency and my French colleagues would always be puzzled when I talked about German energy policies and our anti-nuclear sentiment. But here in Germany the Green party will probably never reverse it's stance on nuclear energy, as their rise to popularity was strongly fueled by the anti-nuclear movement from the 80s and it's the one thing they can't abandon without losing a large number of followers.
I partially blame the highly ideological stance on the way people rise to power in politics and administration in Germany. In France, top positions in the administration are usually filled by people that are technically excellent and have gone through the system of grandes écoles (ENS, ENA, X, ...), whereas in Germany most people rise through social engineering and party politics and most top positions in the administration are filled by people with law degrees that don't have a clue about technology. In my opinion that's also a reason why we completely fail in everything regarding digitalization, lawyers are simply not good technical problem solvers.