For the uninitiated, nuclear power is actually much, much safer than it was in the previous century, and fossil fuel power plants have killed exponentially more people through pollution than all nuclear power accidents combined – it's just not something that happens all at once so it doesn't seem like a big deal to most people.
We will not be able to "defeat" climate change and keep this planet inhabitable for future generations without mass adoption of nuclear power.
> Nuclear energy is by far the safest energy source in this comparison – it results in more than 442 times fewer deaths than the 'dirtiest' forms of coal; 330 times fewer than coal; 250 times less than oil; and 38 times fewer than gas.
Partly I think nuclear triggers a cognitive bias where humans will tolerate ongoing low-level shittiness, but really struggle with large catastrophes, even if the catastrophe is far less damaging than the ongoing low-level damage.
However, I think the resistance is also because the nature of the catastrophe is different. Have coal or gas plants ever created a Chernobyl-style exclusion zone? I know that mining/drilling are incredibly damaging to the environment, but theoretically work is done to mitigate/restore the areas. Of course, they're essentially turning the entire planet (or large, currently-inhabited swaths of it anyway) into an exclusion zone, but unfortunately there is another cognitive bias humans have where we under-rate long-term risks.
I've been a nuclear skeptic, but gradually I'm coming around to it. At this point the main questions I have are whether it can be done cheap enough. It seems like price is really driving renewable adoption at this point, so maybe green policies should focus on subsidizing storage and nuclear instead?
Burning coal creates fly ash which needs to be stored somewhere, usually large ponds near the power plant. In Tennessee in 2008 a dike ruptured and released 1.1 billion gallons of coal fly ash slurry that flowed into nearby rivers that drained into the Tennessee River. No-one was injured in the initial spill, but people contracted to clean it up developed cancers from being exposed to the toxic coal ash, 300 people died within 10 years after the accident.
It is considered the largest industrial spill in US history.
As stated that not that unusual. At 45 a man has a 0.3285% chance of death per year at 55 that bumps to 0.7766%. https://www.ssa.gov/oact/STATS/table4c6.html 3 deaths per year out of 900 works out to 0.3333%. So, depending on the age of workers that’s anything for fairly normal to low.
As time goes on, more workers are experiencing health effects that might be due to their years of work cleaning up the spill:
>...More than 30 cleanup workers at the December 2008 TVA Kingston Fossil Fuel Power Plant coal ash spill are dead and at least 200 are sick or dying — all with common ailments known to be caused by long-term exposure to arsenic, radium and the host of other toxins and metals found in the ash.
That is only worth noting if you bring it along with a more detailed account of accident rates by government-owned facilities as compared to privately owned facilities.
Until then it's just an anecdotal bit of snark that serves a political world view without the evidence necessary to evaluate it.
Why is that worth noting? I feel like you're being intentionally ambiguous by leaving unstated implications.
Do you believe public operation had an impact on safety? Better or worse, and based on what evidence? If neither, how is your statement relevant to the discussion?
I don't know why the parent poster brought it up, but it does seem relevant to me. The government isn't going after quick profits, so you can't blame it on that. You might be able to blame profits if it had been a private corporation though.
The public and private sectors are, in principle, equally capable of incompetence; the causes tend to be somewhat different, but the outcome can be the same.
Profits play a massive factor in why governments tend to be incompetent.
What do you think taxes are? They're a wealth transfer without option from everyone else to those in the employ of government.
A whole bunch of people are profit from government expenditure, we even have a word for a special type of fraud about government expenditure: pork barelling: https://en.wikipedia.org/wiki/Pork_barrel
But, government run operations tend he notorious for incompetence for a few reasons, others have done a better job of detailing:
In 2013, an ammonium nitrate storage facility exploded (1). In 2014, a leaky storage container poisoned a river in West Virginia (2).
It's instructive to consider some thought experiments/scenarios:
What if...
a) Both were run by the government. In this case you'd have people of certain political parties screaming about government incompetence, and how the best solution would be to eliminate regulations and privatize, since competition somehow guarantees better results.
b) Foreigners deliberately engineered both situations, an act of terrorism. In which case as certain administrations after 9/11, the US might pick some country that didn't have anything to do with it and go to war.
c) Private companies were responsible. This is actually the case and the collective attitude was generally "eh, shit happens, private companies just trying to run a business". Just declare bankruptcy and walk. No real changes made in either case.
>Partly I think nuclear triggers a cognitive bias where humans will tolerate ongoing low-level shittiness, but really struggle with large catastrophes, even if the catastrophe is far less damaging than the ongoing low-level damage.
How come hydroelectric dams don't get treated this way? In 2019 a dam in Brazil had a catastrophic failure that cost the lives of 270 people. In 2019! In 1975 a dam failed in China and the death toll is estimated between 80,000 and 240,000.
All of this ignores the ecosystem destruction that building a dam and flooding a valley does. All of that plant life will die and the carbon goes back into the cycle.
Yet I don't see hydroelectric dams getting nearly as much push back from activists. Why?
Hydro disasters have been large, but are tangible/sensible, immediate, and resolve relatively quickly (days for rescue, months for recovery, possibly a few years for rebuilding).
Banqiao is now home to 17 million people (after 40 years, largely achieved within a decade or so). Meantime, Chernobyl still hasn't seen complete containment (after 34 years), and Fukushima hasn't begun initial cleanup (after 9 years). The two nuclear sites will be obligatory nature preserves for centuries, containing still-lethal risks.
The specific failings at Banqiao were virtually all managerial and political, not technical; poor engineering, inadequate safety provisions, underestimated environmental and operational risks, poor contingency planning, unforseen perfect storm (literally), severed communications, insufficient warnings, no community disaster preparation, inadequate rescue and recovery. None of these failures are specific to hydro, all apply to nuclear power, and as non-engineering problems there is no technical fix that makes them go away.
In Banqiao, about 25,000 people died in the immediate innundation. Another 150,000 died in the following weeks of starvation and disease. There's no great mystery as to how such deaths are avoided: floodwaters are mitigated by high ground and evacuation centres; starvation and disease by food, water, and medical stocks; and rescue & recovery by trained teams and equipment. Reestablishment of communications, transport, and utilities is critical.
China at the time was desperately poor, politically dysfunctional, and gambled hugely on risk and lost. Other major hydro disasters tend to share these traits.
As do many regions looking to nuclear power for salvation.
> How come hydroelectric dams don't get treated this way? In 2019 a dam in Brazil had a catastrophic failure that cost the lives of 270 people.
Brumadinho wasn't a hydroelectric dam; it was a dam containing leftovers from iron mining (see https://en.wikipedia.org/wiki/Brumadinho_dam_disaster for details). Apparently, this kind of dam has a very different design from hydroelectric dams (according to https://en.wikipedia.org/wiki/Tailings_dam, "Unlike water retention dams, a tailings dam is raised in succession throughout the life of the particular mine.").
Hydroelectric dams are huge infrastructure projects, and they're almost impossible to build these days because of political concerns with huge public pushback. France and Finland have built nuclear reactors recently. When was their last hydro dams built?
China got huge pushback from both environmental and human rights organizations with diplomatic tensions. Ethopia is on the brink of war because of their huge hydro project.
Has the Gulf of Mexico recovered from deepwater horizon? How many ecosystems were lost permanently? Animals living in the exclusion zone have a life expectancy 30% lower than those in the surrounding area (based on the last paper I read about the topic) so it's not an acceptable risk for humans but it's still peanuts compared to the damage that single spill did to the Gulf ecosystem.
It's an extension of the cognitive bias you point out. Just because we humans find the area too risky to inhabit afterwards doesn't mean that the damage made a meaningful impact on the survivability of our planet.
It definitely seems like most people are dismissive of this point because they think technology has somehow advanced to the point where we will never be able to have accidents.
They're common enough that the risks are known to coal-towns. But they're uncommon enough that most people don't seem to know about them. There are many coal-seam fires across the world, all of which take decades (or centuries) before the fires are expected to burn out.
In contrast, nuclear disasters are so rare that pretty much every nuclear disaster is known by everyone. Nuclear disasters are your "black swan" event, so to speak.
I doubt there's any conspiracy, or detractors to the coal-seam fires. Its just not a very well known fact.
----------
There are literally hundreds of coal seam fires around the world right now. Small enough to be obscure, large enough to not catch the attention of anybody looking for novelties.
I think you have a point that the drama of evacuating a city sears nuclear disasters into our minds as uniquely damaging.
At the same time, single mining disasters have caused hundreds of deaths many times over the last century. Also, black lung killed 25,000 people in 2013 alone. The death toll from the coal industry, even in very immediate, direct terms, is still higher than nuclear.
Existing already-operating nuclear plants can barely compete with cheap fracked gas in the United States. Capital investment in new nuclear is never going to pencil for a private operator without carbon taxes or enormous price drops.
The existing regulatory structure for nuclear power was designed for the previous generation of reactors. I don’t have deep knowledge in this area, but it’s clear to me that more modern designs have very different risk profiles, and the regulatory structure should change to reflect that. This should reduce the compliance cost, which is a very large portion of the initial and operational costs of nuclear power.
In short - nukes are expensive now because they’re an extremely regulated industry. New designs are much safer and new regulation for them should therefore have much lower compliance costs.
It's not just that "The existing regulatory structure for nuclear power was designed for the previous generation of reactors."
It was designed specifically to bankrupt them. It was designed to make them unprofitable.
Just changing an ordinary light bulb in a nuclear power plant is all sorts of certification and paperwork.
There was a ratchet effect on regulations. You could always add more, but nobody would take responsibility for removing regulations. The existence of regulations makes the reactors seem even more terrifying (because why else need the regulations) and then the resulting terror was used to justify more regulations.
That's not quite why rigorous regulations were put in place.
There have been thousands of tanker oil spills, 3,000,000 gallons of oil spilled from US pipelines each year, hundreds of coal-ash spills...
In that context, Nuclear wasn't over-regulated, other power sources are severely, dangerously under-regulated. The excellent safety record of Nuclear points towards the regulations being rather effective.
I will grant that those regulations are out-dated. Reactors designs are different now, and probably need to be streamlined. But rigorous regulations regarding multiple redundancies, safety checks, emergency drills, meticulous documentation of all practices & procedures performed... these things shouldn't go away.
>That's not quite why rigorous regulations were put in place.
Yes it is. Greenpeace and the like paraded Chernobyl and three mile island around and because it was the 70s and 80s and pollution was a big problem politicians tripped over each other to be seen Doing Something (TM) and that's more or less how we got the current regulatory environment. Of course their intentions were good but it's perfectly possible to both have good intentions and be wrong.
No, really, it isn't. Part of the picture? Sure. But here is literally the history of nuclear regulation [0]
You'll find a tremendous amount of regulation occured long before that time. And yes, in the wake of Chernobyl and our near miss at 3 Mile Island, things were tightened up more, but the lack of new plants was as much about negative public perception than anything else, including very strong coal and gas lobbies that had a vested interest in keeping nuclear energy's market share as low as possible. In the face of multi billion dollar entrenched interests, you over estimate the impact of small non profits. If you really think the industry is over regulated, blame those entrenched interests, not some vocal minority and NIMBY folks.
You also failed to address the point about the excellent safety record of a well-regulated nuclear industry compared to the awful record of significantly less regulated power sources.
Even if you are right about the high cost of regulations, what has that achieved? It has achieved a product that actually prices in the true cost, unlike all of these slipshod practices with oil or coal, where the cost of their incredibly awful safety records is passed indirectly on to everyone. So even if you're right, you've simply described the correct way things should work: potentially unsafe products should have a lot of upfront costs to ensure safety. If we all had to pay for the full environmental impacts of such choices up front, we'd be hammering down the doors of nuclear power to get plants built because, done right, it is safer and cheaper than pricing those same consequences into coal and oil.
The existing regulatory structure was designed specifically to stop nuclear power plants from doing things like running all the sets of redundant control and monitoring wiring through a single narrow space, filling that wiring space with flammable foam, and then testing the foam for air leaks with a candle when the plant was in operation. (This is not a hypothetical example - it actually happened in the US during the golden era of nuclear power, indeed I think it may have even been standard practice across multiple plants, and it very nearly caused a serious accident when the inevitable happened.)
I know the Trump administration has tinkered with adding more flexibility to the regulations covering fire protection and safety in nuclear plants in order to try and encourage more economical new nuclear power plants with modernized designs, but it hasn't really helped because the tradeoff for being able to deviate from the rigid rules is that the companies building them have to do a bunch of work to show that their new designs achieve the same safety goals.
> I don’t have deep knowledge in this area, but it’s clear to me that more modern designs have very different risk profiles
There are lots of claims of that, but many of those claims sound exactly the same as the ones made about he "safe Japanese nuclear industry" prior to Fukushima.
Here's a take by someone who actually has very deep knowledge on the subject:
>I oversaw the U.S. nuclear power industry. Now I think it should be banned. The danger from climate change no longer outweighs the risks of nuclear accident
That sounds like an indictment of the commercial industry and deep corruption of US regulatory bodies. Its not an indictment of nuclear itself. The new designs are fundamentally safer, but i can see the value in the aegument that its not worth trying in as risky and corrupted a regulatory environment as the United States without significant political change first.
It's the exact opposite of your claim. In it he points out how the regulator actively worked to enable the nuclear industry in the US.
It's also worth nothing that this didn't appear to be corruption by any conventional definition. It seems more like the regulators believed that nuclear power was beneficial and acted based on that belief rather than a particular commercial motive.
Instead of a carbon tax, the government should simply treat gas similar to what many governments did before to nuclear. Forbid the construction of new ones, and let the planned life expectancy of existing plants be final.
When they did that to nuclear it worked wonders in getting people to invest. After all, people then knew that there would be vacant spots in the energy market at very predictable dates. Telling a market that in X year there will be Y amount of demand not being fulfilled, and a main competitor gone, and someone will want to fill it. The price will be based on how cheap the non-fossil fueled alternatives can be made when competing against each other.
Another part is that people are distrustful, especially when previous promises were broken, and as far as I know, before each major accident (Chernobyl, Fukushima) happened, it was said that such an accident can never happen.
That brings into doubt any promise of future safety.
No one except the Soviet Union said the Chernobyl style plants were reasonable designs. That kind of design would have been illegal to build anywhere else in the world.
No one ever promised that there would never be a nuclear accident - that would be unrealistic for any power source. But historically nuclear power has been safer than all the alternatives that were available. (For example, nuclear power has saved hundreds of thousands if not millions of lives that would have been lost if coal plants had been built instead.)
>Have coal or gas plants ever created a Chernobyl-style exclusion zone?
Coal extraction has created far more land where you can't drink the well water and probably would be unwise to eat any plants or animals raised on the land.
Ongoing shittiness is predictable and easy to understand. We've survived so far, surely we can survive if it gets just a little worse. Big disasters are unpredictable and hard to understand. One of those could end the world at any time. AFAICT that's the whole reason people are more afraid of them.
> Big disasters are unpredictable and hard to understand. One of those could end the world at any time.
In the context of nuclear reactors, Fukushima and Chernobyl are pretty much the worst case scenario. A large nuclear disaster is very disruptive to the immediate area but it would not "end the world" in any sense.
I'm pessimistic but the only way that can end the world is if we really want to. It would be very similar to a nuclear war. At some point you have caused so much damage there is no point in further fighting. The only reason why the world would end at that point is that the remaining people want it to end at all costs.
Well said. I had a small version of this debate with someone I know who posts political stuff on FB, who pointed out in absolutist fashion that the poor failure modes of nuclear and the regular emissions from dirtier sources are both bad, and we need something without either downside.
Literally true but has a bit of "perfect as the enemy of the good" to it. I know absolutely nothing about the challenges involved in updating existing infrastructure to a different source but it seems like an immense challenge, and not at all black and white.
>> it seems like price is really driving renewable adoption at this point.
Another article fresh from Wired about the aging solar panel mess and the toxic waste they're leaving behind:
Solar panels are an increasingly important source of renewable power that will play an essential role in fighting climate change. They are also complex pieces of technology that become big, bulky sheets of electronic waste at the end of their lives—and right now, most of the world doesn’t have a plan for dealing with that.
But we’ll need to develop one soon, because the solar e-waste glut is coming. By 2050, the International Renewable Energy Agency projects that up to 78 million metric tons of solar panels will have reached the end of their life, and that the world will be generating about 6 million metric tons of new solar e-waste annually. While the latter number is a small fraction of the total e-waste humanity produces each year, standard electronics recycling methods don’t cut it for solar panels. Recovering the most valuable materials from one, including silver and silicon, requires bespoke recycling solutions. And if we fail to develop those solutions along with policies that support their widespread adoption, we already know what will happen.
People seem to think solar and wind and electric power don't come with equally damaging aspects to the environment.
Remember in the 1970's and 80's when people thought plastic was the greatest thing on earth? We can save the trees now!! People started using plastic for everything. People stopped using paper bags at grocery stores. People opted for Tupperware instead of glass bowls and containers and on and on. We all thought we were saving the world by using plastic for everything.
Apparently we were dead wrong about plastic and not look at what we've sown? Huge plastic floating islands in the oceans. Plastic debris washing ashore on distant islands, killing the entire ecosystems.
Price is all good and fine, but the long term ramifications of renewable energy we still don't know about.
Gas no, but coal and other burning based fuels create similar hazards, in addition to nasty waste products and mining related pollution.
Coal spreads radioactive ash and various noxious chemicals. In my area of the country, many lakes were “killed” by coal related pollution from the Midwest in the 70s and 80s, for example.
Nuclear waste disposal is a real issue that needs to be deal with, but overall the technology has potential to be much better than it is today.
You hit on a really important point here, the notion of "dread risk"[1]. The public tends to poorly characterize and amortize the different degrees of risk associated with different activities, due to biases in how we perceive the risk of extreme or rare events. Simply running the numbers, it's far more likely for the average American to die in a car accident (or even, probably a plane accident, even given how rare they are!) than for the same person to ever be impacted by a nuclear meltdown, or a terrorist attack, etc. And yet, NIMBY-ism runs rampant while there are quite active political voices which argue against mandating seatbelts (I guess less so in the year 2020), helmets for motorcyclists, etc.
Sure. Centralia PA is now uninhabitable because of coal mining and on a smaller scale you’ve got things like the TVA fly ash spill that caused widespread environmental damage.
People tie nuclear power to nuclear bombs. They think, consciously or subconsciously, that they're some kind of slowed down nuclear explosions, and one day there will be a mushroom cloud turning the area into glass.
Yeah, the experts say it can't happen, but how do we know they're not arrogant Jurassic Park style fools?
> However, I think the resistance is also because the nature of the catastrophe is different. Have coal or gas plants ever created a Chernobyl-style exclusion zone?
Indirectly, yes. I think that rising sea levels due to climate change effectively does the same thing by making once-habitable coastal areas effectively uninhabitable.
> Partly I think nuclear triggers a cognitive bias where humans will tolerate ongoing low-level shittiness, but really struggle with large catastrophes, even if the catastrophe is far less damaging than the ongoing low-level damage.
Much like how low level corruption can be absolutely devastating to a democracy over time versus a high profile scandal or two which can be dealt with with urgency and clearer solutions.
I'm all for nuclear but the safety record talk always seems disingenuous or at least obtuse to me when the stats focus on day to day operations but the fears are about worst case scenarios.
I also feel like the industry would do better if it rallied behind specific new technologies so politicians could rally behind molten salt reactors (or what have you) and placate fears about "old nuclear" designs.
Not just worst case scenario "rates", but the scenarios themselves. What is the worst case scenario from a completely unmitigated core meltdown versus whatever the most extreme failure mode of, say, a coal plant?
Pollution from coal power kills about a million per year, and that's not counting accidents. I don't know why you'd want a "completely unmitigated meltdown," but even if terrorists rent a 747, hoist an active reactor, and drop it onto the middle of Manhattan, it will kill less than the non-failure mode of coal plants during the same year.
from the less biased (depending on the metallicity of your hat) World Health Organization:
"Ambient (outdoor) air pollution in both cities and rural areas was estimated to cause 4.2 million premature deaths worldwide per year in 2016; this mortality is due to exposure to small particulate matter of 2.5 microns or less in diameter (PM2.5), which cause cardiovascular and respiratory disease, and cancers.
People living in low- and middle-income countries disproportionately experience the burden of outdoor air pollution with 91% (of the 4.2 million premature deaths) occurring in low- and middle-income countries, and the greatest burden in the WHO South-East Asia and Western Pacific regions. The latest burden estimates reflect the very significant role air pollution plays in cardiovascular illness and death. More and more, evidence demonstrating the linkages between ambient air pollution and the cardiovascular disease risk is becoming available, including studies from highly polluted areas.
WHO estimates that in 2016, some 58% of outdoor air pollution-related premature deaths were due to ischaemic heart disease and strokes, while 18% of deaths were due to chronic obstructive pulmonary disease and acute lower respiratory infections respectively, and 6% of deaths were due to lung cancer.
Some deaths may be attributed to more than one risk factor at the same time. For example, both smoking and ambient air pollution affect lung cancer. Some lung cancer deaths could have been averted by improving ambient air quality, or by reducing tobacco smoking."
...
"In addition to outdoor air pollution, indoor smoke from household air pollution is a serious health risk for some 3 billion people who cook and heat their homes with biomass fuels and coal. Some 3.8 million premature deaths were attributable to household air pollution in 2016. Almost all of the burden was in low-middle-income countries. Household air pollution is also a major source of outdoor air pollution in both urban and rural areas."
a few notes: Coal has two atmospheric externalities: particulates and C02 emissions. As the WHO notes, it can be difficult to attribute deaths to particulate pollution, and it can be even harder to then attribute that death to some source of particulates (they could be released by coal, or diesel engines, or any number of chemical reactions, though coal is particularly dirty when compared to other modern fuels). Climate change will affect lives, but it may be even more difficult to accurately attribute as a cause of death. Did rising temperatures play a role in recent middle eastern conflicts? Probably. Does this mean that climate change has already killed people in Syria and Yemen? That's a difficult question, at least to me.
No, I was able to find stats about fossil fuels. What I question is that it would be less harmful to drop a reactor right into the middle of a city. Remember, my question was about worst case scenario for nuclear, which the very pro-nuclear crowd here has so far been unable to describe on the many occasions that nuclear is hailed here as our saving grace. They instead point to Fukushima and Chernobyl and say "see, there's nothing to worry about."
What, you want an accurate physical simulation of a nuclear reactor falling onto Manhattan, Marvel comics style?
Well, considering that an actual nuclear bomb going off on Hiroshima killed "only" <150,000 people, I find it pretty unlikely a falling reactor will kill half of Manhattan. So, there.
Glib response aside, I want a credible description of worst case scenario for nuclear disaster. The probability of such an event increases greatly if there are many plants, particularly if there are plants in nations which go into decline or plants built in highly corrupt or inept nations. So how many people die from the initial event? How much residual radiation? How far does it spread? How many people are displaced? Are food supplies effected? It sounds like you haven't really thought it through all the way. My personal belief is that people are not to be trusted with technology with such high stakes. Especially with the onset of climate catastrophe within the century ensuring the decline of our society.
Didn't Chernobyl almost make a huge swath of Europe uninhabitable? Wasn't that the takeaway from the miniseries? That a lot of people gave their lives to prevent an unfathomable disaster?
That's a stretch. The Exclusion Zone[1] is about 2600km^2 (1000 sq mi) but it's only declared uninhabitable, there are people living there (though not saying it's a wise move to settle down there).
There are some areas outside that which is also deemed dangerous, but that's the order of magnitude we're talking about.
For reference, Europe covers an area of about 10 million km^2 (almost 4 million sq mi).
Also note that we don't have a good handle on how lower levels of radiation affects us, and there's discussion around if the prevailing method[2] to estimate exposure effects over-estimates the effects at lower exposures.
Sorry, brain seemed to filter away the crucial "almost".
However it goes back to how "intermediate" levels of radiation affects us. Even if the water had caused the remaining cores to blow up as well[1] then it's still not clear just what the impact would be[2].
I might not be remembering correctly, but I thought they had to tunnel under it to stop the core from burning down into the water table which would spread the nuclear disaster far and wide. Not to stop the steam explosion.
The worst case scenario from fossil fuels is not failure at a coal power plant. Even mining coal is more dangerous, and deaths directly from coal pollution dwarf mining accidents. But the worst case scenario is climate change that strongly affects hundreds of millions to billions of lives. Depending on location, it would take many "unmitigated core meltdowns" at nuclear power plants to have a similar effect.
> but the safety record talk always seems disingenuous
This is WHY I support nuclear, because of their safety record. All the people in all the nuclear accidents (or usage) ever that have died is far less than the yearly death from coal or oil or natural gas. As a death per TWhr it is even lower than solar[0]. So I'm a bit confused by the safety concerns. Having worked with nuclear materials, the reason it is so safe is because the safety levels are set to be much stricter than other energy sources, and by a lot. We've seen coal, fracking, and mining all create zones that won't be habitable for thousands of years.
Now we have reactors that produce thousands of times less waste than previous generation reactors. But you should also consider that the amount of nuclear waste is tiny. Over the last 60 years, the estimated total (radioactive and non-radioactive) waste is estimated to be about 445k tons[1] (324k tons need to be stored). In 2014 the US (just the US) produced 130m (that's million) tons of coal ash[2]. We're talking astronomically big differences in waste size. If we do a basic naive comparison that's coal _in the US_ is producing 18 _thousand_ times as much waste per year than the _global waste_ from nuclear. This is RIDICULOUS.
Saying "nuclear produces more waste and/or more damage to the environment and/or people" just signals one not paying attention to the damage caused by other resources. Sure, nuclear is scary, but the data says it is one of the safest, cleanest, and best sources of energy for our environment. And that's why people get up in arms about it, because the data is there and easy to find. And unfair comparisons are being made left and right.
This is more like saying that there's no consensus about climate change. Sure, there are people that disagree, but it is small. And to quote the wiki you posted (from the opening)
> The book was not peer reviewed by the New York Academy of Sciences.Five reviews were published in the academic press, with four of them considering the book severely flawed and contradictory, and one praising it while noting some shortcomings.
There is no consensus because the authors of the negative reviews are the authors of works heavily criticized in the book.
What you consider as a consensus forms, in fact, a debate.
This is not "some researchers publish, are criticized by the book, then the scientific community condemns the book, forming a consensus".
Nope.
It is in fact "some researchers publish, are criticized by the book, then the criticized researchers try to debunk the book, then the authors of the book answer to them".
One of the critics is Monty Charles. His own work, done for the UNSCEAR (a pro-nuke UN agency) in 2006, is heavily criticized in the book. He then criticized this book.
Another critic was published by Mona Dreicer, who worked for the International Atomic Energy Agency (IAEA) (another UN pro-nuke agency) and the book criticized her work.
S. Jargin, another author of a negative review, sees flaws in each and every publication criticizing a powerful industry. For example asbestos is in his opinion not a concern and its use unduly prohibited.
You have to keep in mind that nuclear contamination can actually be washed off. And the radiation is actually very useful in the cleaning process because you can easily use a detector to safely determine whether your cleaning operation was successful.
Even Chernobyl is mostly safe these days unless you stay at the hotspots for too long.
You could also say that about Bondi Beach. Stay out in the hot zone too long and you will get radiation burns from the unshielded nuclear reactor hanging over your head.
I'm sure you'll recall that there were three people who risked great personal harm to prevent 3 more cores from exploding and causing much greater harm than just the one that already had.
> nuclear accidents can make a place uninhabitable for thousands of years.
Ignoring the fact that meltdown is not even possible in modern designs, even in a Fukushima total power loss scenario, note that the Bikini atoll is safe to visit at this point and it was the site of repeated nuclear testing. It's hard to see how nuclear power plants, which are designed to avoid any possibility of having a critical mass, could do worse than what was done to the atoll. So becoming uninhabitable for "thousands of years" would pretty difficult, even if someone were trying to do that intentionally.
And what of peak oil then? Didn't that happen already?
Also, what's the alternative? We stop using energy to make ammonium, let agriculture scale down to nothing, and leave people starving as food production plummets?
There's only so much of a solar energy budget for the planet, then we have to get it from off world (with transport costs) or use up consumable sources already on the planet like coal, nuclear, etc. The universe loses the fight with entropy eventually no matter what we do, the only question is how long we last.
I would like to hear more about "nuclear meltdowns not even possible." You mean on designs that people are actually talking about implenting, or just the state-of-the-art stuff that we are nowhere close to implementing, especially in poorer nations?
I'm also thinking what happens after you built the new thing. Ok, now we have this super advanced nuclear power plant it's super safe. So safe that it would be irresponsible to operate anything else. You know what happens? Old plants can still melt down. Fukushima was one of them and it was older than the Chernobyl plant. It is entirely possible that a new design won't increase safety because the unsafe models keep running.
The use of the term "meltdown" seems disingenuous when discussing a molten reactor. If most of the fuel is already molten, and the shutdown procedure is to cut power (matching a power loss scenario) which means a plug melts to allow the fuel to flow into a safe storage container, then the thing is meant to "meltdown" fairly often.
I think passive safety is really where the good designs are, but what most people are worried about is a core that can't have any kind of criticality incident.
Oh yeah, totally. I'm just objecting to using the term "meltdown" to describe the typical power-down procedure because of the negative connotations of the term.
I'm good with "criticality incident", "core damage incident", or any other descriptive term that makes it clear that it's a deviation from normal behavior. Using a negative term for a non-critical incident is just stacking the deck against the technology.
Nuclear weapon use in the atmosphere, especially when not near-ground, is orders of magnitude cleaner than reactor accidents. A few hundred kg vs. tens of tons of isotopes released.
Did you just slippery-slope all the way to entropy? I agree with you and I'm "on your side" in the inane political sense. Just acknowledging the drawbacks.
Entropy is inevitable. I don't see that as a slippery slope but more of another way of saying "in the long run, we're all dead."
So we have to have some time horizon for making our decisions, because decisions that are perfect now and forever isn't an actual option for us here and now.
> nuclear accidents can make a place uninhabitable for thousands of years
Note that this is not special to nuclear materials; it's true for a good chunk of industrial chemistry in general as well.
> peak uranium
I'll need to look up some more up-to-date numbers, but going by https://www.withouthotair.com/c24/page_162.shtml, there's more than enough for couple centuries (and new reactor designs can make one-two orders of magnitude better use of what's available).
But even if we only had 100 years worth of nuclear fuel reserve, that's more than enough to fix the climate problem and fully develop renewables (possibly including orbital collectors). Or who knows, maybe even fusion.
>Note that this is not special to nuclear materials; it's true for a good chunk of industrial chemistry in general as well.
Hmm interesting. Where has this happened on the scale of Chernobyl or Fukushima? I can't thinking of any exclusion zones in once populated areas caused by industrial chemicals. Is the fact that plants are built near populated areas a factor?
Can't think of a well-known industrial exclusion zone, but the "Industrial" subsection here lists some pretty nasty incidents, involving contaminating entire surrounding communities, next to significant ecological damage:
> Is the fact that plants are built near populated areas a factor?
The thing with big plants in general is that even if they're built in remote areas (like Chernobyl), you want the thousands of plant employees housed nearby, which also means housing their families, who now all need food and healthcare and education and other services, and suddenly you end up with a pretty large town right next to that plant (like Pripyat). And such towns will draw further investments, making once remote area quite populated.
On top of that, power generation unfortunately is pretty special wrt. range of potential contamination because of energies involved - so when things go bad, they go with a bang. That's why I usually mention industrial chemistry when discussing nuclear waste, as this is more of an apples to apples comparison. But then, my mind is often drawn to the oil sands in Canada - particularly to the artificial lakes storing highly carcinogenic toxic waste.
Hydroelectricity also renders large areas of land uninhabitable due to submersion. Granted, that's a deliberate and planned event. But collapse of dams have displaced tens of millions of people: https://en.wikipedia.org/wiki/1975_Banqiao_Dam_failure
Every time I've seen one of these threads on HN asserting that nuclear is safer than the alternatives and I've looked more closely into the claims, I've wound up unconvinced because of omissions like the one you've identified. It's gotten to the point that I tend to tune out pro-nuclear arguments on HN. :( I'm sure there are good arguments in there somewhere, but I don't have the bandwidth to sort them out from the misleading ones.
The argument is that the human race gets to survive and progress, unlike the one where we destroy our planet with a run-away carbon dioxide greenhouse effect.
You're missing some. For example, nuclear is implemented on a wide scale, but it's far too late to mitigate catastrophic climate change, and we are unable to prevent meltdowns in the insuing decline, accelerating the decline.
I still haven't heard a convincing protocol for long term storage of spent fuel. That's even worse than a remotely possible nuclear disaster: because unless a solution is found, it's a certainty.
Spent fuel rods can't be used anymore because about 5% of the uranium has been converted into elements that slow down the reaction. The remaining uranium is still good.
Due to a presidential order by Carter, we waste that uranium. The process for recovering the unused uranium (called "reprocessing") is vaguely similar to the process for making bombs. We'd rather not have lots of countries making bombs. The idea was that by not reprocessing our own fuel, we could set an example and hope that somehow that would keep other countries from making bombs. Yes, that is terrible logic.
Japan does the reprocessing. We could do it too, and it wouldn't suddenly arm the world with nukes.
If the fuel is reprocessed, we could cut our need to mine uranium and cut our need to store radioactive material. It's about a 95% reduction. The uranium itself is the long-lived portion, so we'd clear up that problem too.
We could also recover rare-earth elements from the spent fuel. This is the only practical way to create rare-earth elements.
Of course, that doesn't get rid of 100% of the waste. We don't really have a shortage of great places to store it. The worries about burial are blown way out of proportion. All of the proposed facilities for burial are ridiculous overkill.
It's this line of thinking that ultimately pushes me to being pro-nuclear.
However, I think our optimism regarding the political situation is more misplaced than our optimism regarding the tech.
Here, you criticize Carter's order and present an alternative. A great one, even: Not having the order in place and doing the reprocessing.
But that's not reality, right? It's more likely that we'll have Carter's order and some new dumb order in the next few years. Nuclear is inherently scary and will always be politicized.
I agree somewhat regarding the overblown burial worries. But I could make a really great commercial out of the disaster scenarios involved there. They'll never not be convincing arguments.
Radiation is a silent killer. Nuclear weapons are the worst thing humanity has made. Not being afraid of nuclear power is rational only within a very narrow discussion window, one which most people simply cannot see through.
I guess my frustration here is that the pro-nuclear side constantly uses arguments that don't work and casually dismisses being afraid of the smallest and largest deadly thing. There's lots of "just" and "most" and it all feels so hand-wavy.
"We checked the numbers, we've got the worst thing under control." It's just not a convincing argument to most people. I don't know how to fix this, but it's definitely not another politicized pro/anti divide.
> our optimism regarding the political situation is more misplaced than our optimism regarding the tech
Yeah, living in Germany I am afraid this is going absolutely nowhere. I've given up on seeing nuclear energy help us even a little bit in this emergency, but I do try to still inform people about how out of proportion the fatalities from coal and the fatalities from fission power really are. We're shutting down nuclear before coal? Environmentalists in Germany are handing out stickers for it and you see them on literally every third car or building. It's ludicrous. I've never seen a disinformation campaign more effective than this. It's like fear of flying but without the people claiming it's safe or faster than traditional methods. Not a one in Germany; no one I've spoken to was even neutral about nuclear. Next, when they realize their safety argument isn't logical, they turn to costs. What do they think the costs of extreme weather events, ecosystem collapse, and mass relocations will be?!
I just hope that, with better information, they will at least realize that we have a bigger problem than nuclear power, even if it doesn't mean they become neutral or in favor of building a new nuclear plant to help with the transition.
France seems to be the only country that's very good at it - nuclear reprocessing everywhere else has a pretty poor safety record, with widespread radioactive contamination and an unfortunate tendency to irradiate workers. (It's also, as I understand it, the exact same process used to produce weapons grade plutonium for bombs, not merely similar.)
Well, you separate the spent fuel into chemical components by suitable chemical processes. One of those components is plutonium salts. So, yes, reprocessing is a rather direct way to nuke materials.
There are reprocessing schemes like pyroprocessing that are less useful for producing bomb materials. But yes, currently at industrial scale the method of choice is PUREX, which AFAIK is the same process which is used for producing Pu for weapons. Although when reprocessing high burnup spent fuel from commercial reactors you get Pu with an isotopic composition poorly suited for weapons.
Yes. Producing semiconductors or rare earth magnets is not a very clean process, Silicon Valley has a lot of uglyness left over from such processes. Cheap renewables supplies produced in the far east are certainly not clean in that regard, and you need a lot more in mass and volume than with nuclear.
Maybe geothermal creates less waste, since you just need to pipe water into the ground and drive a steam turbine. But most of the world doesn't have access to geothermal power.
I'm not sure what the point of your question is. PV, wind and geothermal don't produce nuclear waste and they only turn into waste after EOL but this applies to any construction.
At the end of 2016, the volume of radioactive waste present in France amounted to 1.5 million m3. This volume increased by 58% between 2002 and 2016. High level waste (HA) represents 0.2% of the volumes but 95% of the radioactivity. The latter have been multiplied by 2.2 over the period 2002-2016.
Bury nuclear waste underground in an area with no aquifer. The scenarios where this results in contamination are borderline hyperbole, usually entailing the loss of all records of the waste's locations due to some sort of societal collapse followed by a future civilization digging up the waste for an inexplicable reason.
By comparison, what is the long term storage plan for fossil fuel emissions?
Great, now come back to me with a plan to plant the trees required to offset carbon emissions. This is going to be challenging, because you'll need to reforest an area roughly the size of the continental United States to reduce atmospheric CO2 to levels from a century ago [1]. In order to actually do this, you'd need to desalinate massive amounts of water to feed trees in areas without vegetation. Generating the energy for desalination and pumping it inland would release massive amounts of carbon back into the atmosphere, necessitating more tress, necessitating more water, and so on. You'd probably have better chances sequestering carbon through an algae bloom in the oceans, but that too has drawbacks (namely, when the algae dies off it'll just release the carbon again).
By comparison we already have a nuclear waste facility built in the US, though it's use was cancelled by Congress (and it wouldn't make sense to put spent fuel there yet, since we would want it for reprocessing), and another site is under construction in Finland [3].
"Bury it underground, in an area with no aquifer" isn't hand wave. Storing nuclear waste really is that simple. The main concern for uranium is water contamination. It's actually a prevalent due to naturally occurring uranium [4]. Place the waste in an area with no aquifer and there is no risk of contamination even in the event that the containment vessels deteriorate.
What prevents nuclear waste from being brought to were it came from? Can't you just grind up the nuclear waste and mix it up with the excess rock to obtain a material mixture that has background radiation than the mine it came from?
Well, at a high level that's what's being done. Nuclear fuel is mined from underground and the spent fuel is put back underground.
But it's much better to put it in a known location where it's away from water sources. Naturally occurring uranium is actually a fairly common pollutant in drinking water, putting the uranium back where it came from isn't always a good choice when there are better alternatives.
No one is saying underground storage is perfect, but it's sacrificing a small portion of earth's volume for energy instead of our current strategy of dumping all our waste product in the atmosphere causing enormous damage.
> I wish one person who mentioned the long game would also mention that nuclear accidents can make a place uninhabitable for thousands of years.
Meanwhile burning fossil fuels as designed is going to make the entire planet uninhabitable. It's already unsafe to eat seafood very often because of the mercury content. Smog blankets many cities causing numerous health issues. I haven't even touched on global warming yet...
Yeah, usage of the phrase "exponentially more" is widespread and always almost meaningless. It drives me crazy, especially as a CS theory person, where this phrase has a precise meaning.
It basically is used in the same way "only a fraction of the populace supports the measure" just in the opposite direction of meaning. Both expressions have technical shortcomings; but are idiomatically understood.
I wish nuclear advocates would stop selectively quoting to try to hide things. Almost no one wants to continue with fossil fuels, and instead the competition is renewable. "This comparison" mentioned in that quote doesn't include renewables (it was from 2007) but from the very same page, in the very next section:
> Modern renewables are about as safe as nuclear energy
But you cannot use 100% renewable energy without some storage technology not currently known. Nuclear is the only carbon free energy source we have that can supply power reliably.
With geographical redundancy, pump storage and some batteries (or alternatives) you can get the reliability of the current grid. In 2015 (before the introduction of large scale battery storage) they studied this in Texas and showed how little was required for grid stability. In this case they used natural gas (which remain an option), but nowadays there are completely renewable solutions. Note that this covers more than 10% of the entire electricity generation capacity of Texas.
> In a study commissioned by the Electric Reliability Council of Texas, General Electric calculated how much new reserve capacity will be required as Texas increases the amount of wind energy installed. The report found that an additional 15,000 megawatts of installed wind energy only requires an additional 18 megawatts of new flexible reserve capacity to maintain the stability of the grid. In other words, the spare capacity of one fast-ramping natural gas power plant can compensate for the variability introduced by 5,000 new average-sized wind turbines.
>But you cannot use 100% renewable energy without some storage technology not currently known.
Tell me what storage are we currently missing?
We have capacitors, flywheels, an uncountable number of battery chemistries, pumped hydro, power to gas and curtailment. We even have exotic storage technologies in the TWh range.
I'll tell you what we are currently missing. We are missing electric grids that have a high enough renewable share to even think about storage. As long as you have a flexible grid you can always make up the lack of electricity on a given day with fossil fuels but if you don't produce excess energy in the first place, storing it is pointless.
Nuclear has a similar problem once you get near 100%, the demand isn't actually flat (spikes during daylight and winter) andthe seasonal variation differs around the globe.
Tge solutions are similar too, build nore so you can cover the peak, or build storage to buffer in the short and long term.
Once you start buffering, you would choose to overbuild renewables because its cheaper.
Nuclear has a very niche future around 5% of global energy, Solar and wind will be doing the heavy lifting.
interesting. so the average lifetime dosage was on the low end of a CT scan. ~10mSv where a CT scan will be 10-30mSv. and three mile island let off even less to the people in a 10mile radius... ~80µSv.
> Nuclear also got much, much more expensive than it was in the previous century, making it economically completely unreasonable in the west.
Because we stopped building them. Of course costs are going to explode when every time you do it the people on the project are doing it for the first time.
Ironically enough, you can only live on it if the dam fails. Otherwise you're consigning up to thousands of square kilometers of often prime real estate underwater indefinitely.
Building it makes it affordable. Giant one-off projects have endemic problems with perverse bidding incentives, cost overruns, and engineering problems. Economy of scale production absolutely dominates most industrial supply chains and engineering.
The US and other modern economies got the political will together to subsidize solar when it rarely made sense on a MW/$ basis and now it's dropped to by far the cheapest source (if you can live with intermittent power).
The reality is that there is an entire supporting industry that needs to be built to make nuclear power plants economical.
Nuclear power plants have special requirements that are rarely met by conventional industry. A lot of nuclear power plant designs involve manufacturing via the largest hydraulic presses we have ever built. There are not many of them and building more of them is expensive so it will raise costs in the short term (10-20 years). The design philosophies have to change considerably if nuclear power wants to be cost effective.
Nuclear is much cheaper when built at scale. Often 3-5x cheaper. Most of the plants built during the nuclear boom in the 1960s and 1970s were built at a cost of ~$2.5 billion per gigawatt of capacity. Note that this capacity is put out 24/7, so it's equivalent to about 4 times as much solar capacity (which typically has a capacity factor of ~25%).
Solar and wind are cheap in terms of watts per day, but become drastically more expensive one you need to start adding storage. Storage costs are typically in the $200-400 per KWh range for battery storage, and $100 - $200 per KWh range for hydroelectric storage, but the latter is geographically limited.
I also haven't really seen anyone discuss the cost of nuclear in human labor costs. No matter what method or design you use you still need educated workers to babysit both the reactor and the standard turbine infrastructure, whose salary dwarfs whatever costs come from fuel or safety countermeasures.
In contrast, solar and wind tend to be very manpower efficient due to the logistical pain of maintaining something spread over 10 sq. miles forcing investments in reliability and autonomy.
I meant to imply that the pain of such caused those technologies to invest in autonomy to mitigate needless human labor, but I lost the point when revising the comment. I'll fix it.
Ian the same argument for renewables? Subsidize solar panels to make them affordable... the only difference is, solar panels are smaller so we can iterate faster. Maybe that’s what we need to improve about nuclear...
Lots of Small Modular Reactors waiting for political will and funding around. Personally I'm really interested in Soviet-originated SVBR series, but politically it's even more problematic than other designs right now :-(
Yes. The government should only set the safety expectations and procedures, and let the market decide how they do it.
Innovation in nuclear power is broken because of the difficulty to access uranium and use it safely, but if we had innovated, it might have been made safe by now. There has been pilot projects such as a sealed 1m3 cuve, which, by sealing it, solved a lot of problems about safety and human operation.
The government could never build an important highly advanced technical project in a hurry; the atomic bomb project should have been put out to the private sector. /S
The problem with nuclear isn't whether you can build a safe plant, you can.
The problem with nuclear is all the assumptions under which a perfectly safe plant is actually perfectly safe (proper maintenance, training, etc.).
I don't believe those assumptions always hold in practice. At the end of the day, these plants are operated by people, and private companies, who have many interests beyond keeping the plant "perfectly safe" (like making money) and also operate under constraints that prevent them from actually keeping the plant "perfectly safe" even if they wanted to (like lack of money).
The problem with nuclear isn't technological, but social. It allows a relatively small bunch of shitty people and companies to cause tremendous amounts of devastation.
Remove people from the "nuclear energy safety equation" and I'm all in with nuclear. Telling me that new plants are perfectly safe as long as people and private companies don't do shit, reads like these plants aren't safe at all to me.
---
And this is without taking into account all the unknown unknowns, like all the natural disasters we can't even predict or imagine, which all plant designs just assume cannot happen.
Just claiming that modern nuclear plants are safe, for all potential world states is BS, because nobody can imagine, much less know, what all those potential world states are.
Sure coal kills people, but what makes many think its safer than nuclear is that we understand how that happens, we understand where coal goes.
> We will not be able to "defeat" climate change and keep this planet inhabitable for future generations without mass adoption of nuclear power.
I hope not. Current nuclear technologies are outrageously expensive. It made sense in the 50's-70's only because it was being effectively subsidized by the defense industry who needed the excess breeder capacity for bombs.
It's safe. It's fine. It's good that the democrats have dropped what was always effectively a luddite plank from their platform. But it's not going to save us absent some really disruptive new technology.
Right now we should be putting our electricity investment into straightforward, cheap and easily scaled renewables. That is what is going to replace coal and gas in the short term.
Long term? Fine. If nuclear can make the balance sheet work then let's do that. If not, meh.
> For the uninitiated, nuclear power is actually much, much
> safer than it was in the previous century, and fossil fuel
> power plants have killed exponentially more people through
> pollution than all nuclear power accidents combined
I think that nuclear waste will be the next big problem with nuclear energy, with storing it safely for the thousands of years required just being a problem we're kicking down the road. It only needs to leak into the water supplies and suddenly you have a disaster on a scale never seen before (human & animal consumption, contaminated crops and land, etc).
To be honest, renewable energy sources such as solar, wind and hydro are really the way forwards. I would favour solar and wind though, as a failure to invest in infrastructure just means they break - whilst a failure to invest in hydro has some very serious consequences (dam collapse, etc).
In the next 10 years or so I want to see solar panels being recycled if they really are to play a large put of our future energy production. Otherwise there is always the method of pointing mirror arrays at a single spot to heat water.
Nuclear power is not safe and never will be. This ship sailed with Hiroshima and Nagasaki.
They are repeating that nuclear plants are safe now. "Safe" of course if some conditions meet. If your car is a parking your probability of dying in a car crash is really low, this is obvious. What really counts is their behaviour in hard times. "If all go well, and we have luck, and everybody behaves, nuclear is safe" is not enough.
A natural disaster, a war, terrorism, another lunatic, sadistic, mentally ill or a psycho reaching power (look around)... and your rainbow-safe-dream will explode into a thousand pieces. And then, what?
Talk me about what is your plan B in THAT conditions.
Hide under the rug and deny all as in the last 50 years?
Did you even read my comment or click on the source I cited? Nuclear energy is the safest form of energy we have.
Hiroshima and Nagasaki had nuclear weapons dropped on them. I'm talking about power plants. The same material can be used in two very different ways to achieve two very different results.
The same that killed hundred thousands of people in a second in our recent past. Is unsafe stuff by nature. The stupidity of people at charge to see the problem or to invest serious money into fixing weak points, makes it even more dangerous, but the main problem remains: They never were able to fix their s*t, and "but, but, more people die by cars" and "we destined one whole page to our emergency plan" are still the wrong answers.
Is your argument that nuclear energy makes nuclear weapons more likely? If so, could you please elaborate? Decline of U.S. nuclear energy did not affect its capacity for building nuclear weapons, has it? Nuclear bomb decline was caused by treaties, with not a thought dedicated to "but how will they be built?", right?
If the US backs down from the treaties forbidding increasing its nuclear weapon arsenal, and decides to in fact increase it, how big of a problem will it be to effectively build the new nukes?
I do not know the current data, but previously the catastrophy rate was by design below 1 in 10000 years. But this is per plant, we have about 400 plants, so 1 catastrophy per 25 years on average; this values agrees with experiment.
About your statistics: that it is safer was pure luck. In the fukushima incident there were depending on the season two prevalent wind direction either towards the ocean or towards Tokyo. So with a high chance in the range around 50% Tokyo would have been to be evacuated. If anybody has better numbers let me know.
To me not counting this in, is like crossing the street with eye closed and arguing it if not hit so far so good with dismissing close encounters.
Can you elaborate? Do you mean having a Tsunami is pure bad luck in Japan? (With Tsunami actually beiing a japanese word...)
I see your point though, one shouldnt go too much into 'what ifs', because all accidents are in a sense accidents/bad luck. But I still feel we can apply the what if on the outcome of the disasters, especially if it is that seasonal clear cut with high propability.
Related hypothetical: if a hydroelectricity dam failed when hit by an earthquake stronger than the one it was designed for, how much of a pass would we give Hydroelectricity?
> Nuclear energy is by far the safest energy source in this comparison – it results in more than 442 times fewer deaths than the 'dirtiest' forms of coal; 330 times fewer than coal; 250 times less than oil; and 38 times fewer than gas.
If I look at the graph to the right and do the division, the numbers don't come out the same as what is quoted. This may have to do with the abominable "x times fewer than y" that makes no sense and likely has a different meaning for every reader.
It most definitely is. But the pace of nuclear development in India slowed to a crawl (no new projects) ever since it started an insurance pool with corporate liability.
By far the safest, if you rely on articles written by the nuclear industry; specifically references 31 and 32 which estimate the fatalities from nuclear energy, in the linked articles primary source, https://www.thelancet.com/article/S0140-6736(07)61253-7/full....
More solar and wind and energy conversion and storage mechanisms can also keep our current level of society. Why can't we subsidize renewable forms of energy for trillions of dollars if our lives are truly at risk? Will these take any longer to spin up than nuclear?
And are you suggesting that solar plants really create more toxins to dispose of than nuclear? Really?
Don't get hung up on the word "subsidize". Market forces clearly did not solve our problem, so shifting the incentives won't solve it either. Many do not believe that nuclear is the answer, and a carbon tax wouldn't address that. It is indisputable that solar and wind are far cleaner than nuclear and coal, so the question is whether they can be made to work for most of our energy needs, and I've never seen a good reason why not.
It is certainly not indisputable thar solar and wind are far cleaner than nuclear, if you include their externalities such as manufacturing and disposal. Nuclear is cleaner by far than coal or gas. It’s cleaner than solar or wind, though not by a lot. We have the death counts to prove this. I would so much prefer a few nuclear plants to a million acres of windmills. Where are we going to put them when they wear out. In what landfill will they fit?
Yes. The Swiss have safely encapsulated their waste into a building smaller than Norte Dame stadium. It will safely house their waste for centuries to come. The US doesn’t recycle its waste because the Democrats were afraid brown people would get nuclear material in transit and build dirty bombs. Europeans knew that was stupid and both recycle and store their waste reasonably.
Further if we spend money on thorium you don’t have much waste at all. In fact you can use your current waste as the medium to kickstart the thorium reaction.
Solar and chemical storage requires poisonous materials that will leech into the ground water.
> Nuclear is the only way to keep our current level of society.
This is just wrong.
> Our solar plants are going to lead to massive poisoned landfills due to their heavy metals. They are hard to recycle and so many are just dumping them.
They aren't particularly hard to recycle - it's just that there hasn't been significant demand until now (15 year life cycles..).
> Our solar plants are going to lead to massive poisoned landfills due to their heavy metals.
How anybody would suspect that metals were so fully recyclable again and again? You just melt it in a mold, and voila!. Raw material. That was a lot of luck.
well,... unless they are radioactive metals of course. Then is more difficult.
Look, I'm a stan for LFTR and thorium reactors, but the nuclear energy industry is full of old PWR reactors on life support that are dangerous and meltdown prone.
But Fukushima happened, and unfortunately the management attitudes in TEPCO are not unique to that company.
The fact is that solar/wind is currently running away from everything else. I believe new natural gas plants can't compete with solar/wind, and that means installed gas plants are in their crosshairs just like coal plants.
Notice your article leaves out solar/wind.
"We will not be able to "defeat" climate change and keep this planet inhabitable for future generations without mass adoption of nuclear power."
We have Hyman G. Rickover, Admiral in the US Navy to thank for steering nuclear energy research away from thorium to uranium.
He very much wanted the Navy to be in command of nuclear wessels carrying nuclear missiles.
If I can remember correctly from research in US energy policy history in college, the US had sunk about 10 years into thorium reactor research when Hyman came along.
Seems rather important to not ignore the violence monopoly. Quit paying it too much serious attention for too long and it gets chippy.
Let’s hope this is PTSD from a generation that was forced to go through hell, often for no reason, and it can normalize out. So long as we live long enough to test that hypothesis.
On the upside, the Navy has never had a nuclear accident. We’ve proven it’s doable.
That's why risk analysis looks at defense in depth. It's for people who believe there's no such thing as luck and every close call is a near disaster that needs to be accounted for in the plan.
The Navy has never admitted to a nuclear accident (other than radioactive coolant spills and the like, which it has admitted and which are nuclear accidents), but the US government has in other contexts kept nuclear accidents secret for decades after they happened, notionally for security reasons, so why wouldn't they do that with one occurring in the fleet?
> the Navy has never had a nuclear accident. We've proven it's doable
Ehem... Where the USS Thresher and the USS Scorpion sailing under Mauritanian flag?
Nope. The US navy has never had a nuclear accident, they just lost two whole nuclear submarines that sank near Azores and Massachussets (but only 220 people were killed so it seems that the army forgot all about it yet).
> On the upside, the Navy has never had a nuclear accident. We’ve proven it’s doable.
Well that's not true:
"An American nuclear-powered submarine leaked radiation for more than two years, releasing the bulk of the material in its home port of Guam and at Pearl Harbor, Japanese and U.S. officials said Thursday."[1]
There was also the A4 that fell off an aircraft carrier with 3 nuclear bombs on board, which were never recovered[2].
Both the USS Thresher and USS Scorpion sunk and haven't had their nuclear reactors or weapons recovered. They do appear to remain intact though.
> We will not be able to "defeat" climate change and keep this planet inhabitable for future generations without mass adoption of nuclear power.
I wish we could discuss such topics without the much-abused climate scare argument. Most debatable, technology-related issues have many other implications worth taking into account. Like grid stability, cost of energy etc. in this case.
With a failure rate of 1% for commercial reactors, calling something 'safe' is - frankly - ridiculous.
You wouldn't fly planes if they had that failure rate.
It's not just the death count for which, btw, we still don't even have reliable numbers!
What we do have is: Uninhabitable regions, radioactive boars decades after Chernobyl roaming Bavaria (google it), countless cases of cancer, highly radioactive waste we don't know what to do with, billions and billions of tax payer dollars spent on clean-ups, not just for accidents, but for decommissioning plants, plants on fault lines that are ticking time bombs.
Nuclear power plants rank first in the amount of economic damage done.
And you are seriously calling for mass adoption?
The engineers and scientists who built Fukushima and Chernobyl thought: Yup, perfectly safe and clean.
It makes me mad hearing younger people falling for the propaganda of nuclear power lobbyists who didn't have to live through these accidents.
We have plenty of space and money to turn our grid into 100% renewables, that are safe and cheap.
All it would take is the political will to do so.
The times to propose an outdated, dangerous and hard-to-control technology for commercial power generation are over.
> It's not just the death count for which, btw, we still don't even have reliable numbers!
We don't have reliable numbers because the effect of leaked radioactive materials on public health is so low that it's hard to distinguish it from background noise.
I don't believe the 1% number is accurate, but it's a lot higher than people might believe. From 2016:
our range of models suggests that there is presently a 50% chance that (i) a Fukushima event (or larger) occurs every 60–150 years, and (ii) that a Three Mile Island event (or larger) occurs every 10–20 years.
So, an event that kills zero people could happen every 10-20 years, and another event that kills zero people could happen every 60-150 years? That is certainly alarming.
The shift from nuclear to coal in Germany and Japan after Fukushima has caused on the order of 10,000 deaths.
The total number of deaths caused directly by the actual accident at Fukushima was what, one? We'll perhaps have a couple of hundred in the years to come, but that's two orders of magnitude fewer anti-Nuclear activists have caused.
It's not only about deaths. The area around the plant is now uninhabitable and they haven't solved the problem of what to do with the melted cores at the plant. You permanently lose a large swath of land. With coal you can just shut it off and the problem goes away.
And why is it always between coal and nuclear? With enough investment and infrastructure, renewables can serve the need as well.
Yea your right then political atmosphere around both of those situations had absolutely nothing to do with the engineering of the plant and therefore had no impact... ️
There are more industrial accidents in every other power generation source that hurt and kill more. 100% renewals is 100 years out.
> It makes me mad hearing younger people falling for the propaganda of nuclear power lobbyists who didn't have to live through these accidents.
Actually, no one in the West ever thought that the RBMK was a reliable design which is why it was never licensed outside the USSR.
> We have plenty of space and money to turn our grid into 100% renewables, that are safe and cheap. All it would take is the political will to do so.
Germany will have spent more than 500 billion Euros by 2025 for their shift to renewables, yet they are still among the dirtiest producers of electricity:
Germany emits 400 grams of CO2 per kWh on average, France just 50 grams. At the same time, the kWh in Germany costs 31 cents while it costs only 17 cents in France:
> The times to propose an outdated, dangerous and hard-to-control technology for commercial power generation are over.
No, they are not. See my links above. Any country which is actually serious about reducing their CO2 emissions in the electricity sector is massively ramping up the construction of nuclear power plants:
Russia, Finland, Egypt, India, Bangladesh, Czech Republic, Poland, France, the UK, Turkey, Japan, China, the US, Belarus, United Arab Emirates etc. They are all building or planning nuclear power plants.
Germany is the big outlier in the list of the biggest industrial countries and it's just a matter of time when they're joining back the countries who are building and operating NPPs again.
There is simply no alternative, the shift to renewables causes new fossil plants to be constructed which is something we need to avoid by all means if we want to save the climate.
I fear Germany will never build another nuclear power plant again. The anti-nuclear propaganda has become a religion now, any argument about safety is ignored mumbling the mantra "but they said Chernobyl/Fukushima was safe", any argument about economy is ignored with "but renewables cost nothing". Since no rational argument can be won, and since no nuclear counter-religion is on the horizon, nuclear will not happen here, at least not in this century.
Ok, tell me. What are we going to with all the methane and hydrogen that we generated with our power to gas plants if we don't build more gas plants? How are we going to shut down coal plants if we don't have a flexible grid? For reference, an operating coal plant displaces renewable energy because its output cannot be regulated fast enough. Gas plants allow greater grid flexibility.
First endorsement in 48 years? I'm pretty sure this qualifies as an endorsement:
> As detailed in the Climate Action Plan, President Obama is committed to using every appropriate tool to combat climate change. Nuclear power, which in 2014 generated about 60 percent of carbon-free electricity in the United States, continues to play a major role in efforts to reduce carbon emissions from the power sector. As America leads the global transition to a low-carbon economy, the continued development of new and advanced nuclear technologies along with support for currently operating nuclear power plants is an important component of our clean energy strategy. Investing in the safe and secure development of nuclear power also helps advance other vital policy objectives in the national interest, such as maintaining economic competitiveness and job creation, as well as enhancing nuclear nonproliferation efforts, nuclear safety and security, and energy security.
>
> The President’s FY 2016 Budget includes more than $900 million for the Department of Energy (DOE) to support the U.S. civilian nuclear energy sector by leading federal research, development, and demonstration efforts in nuclear energy technologies, ranging from power generation, safety, hybrid energy systems, and security technologies, among other things. DOE also supports the deployment of these technologies with $12.5 billion in remaining loan guarantee authority for advanced nuclear projects through Title 17. DOE’s investments in nuclear energy help secure the three strategic objectives that are foundational to our nation’s energy system: energy security, economic competitiveness, and environmental responsibility.
First endorsement in the official party platform, which is a specific document released by the parties every 4 years (except this year for Republicans who re-adopted their 2016 platform with no changes...).
The Democratic Party platform reflects the position of the party for four years and is voted on and influenced by all delegates (including delegates for candidates that do not win, ex. Bernie's delegates the past two elections).
A page on the Obama administration website reflected the personal opinion of the president at the time it was posted, and can be changed at any time.
The presidential nominee is not necessarily going to agree with the party platform (although they are more or less telling voters they will uphold it). The party and all of its delegates certainly need not agree with everything the president says.
Exactly. The party's official platform is equally dismissible as - if not more dismissible than - as the actions taken by the party in recent history, right?
I’m continuously baffled by those that claim that nuclear power is safe. Look at Fukushima for example. It seems hard to imagine a nuclear power plant design, even Gen III or IV that would be immune to any possible natural disaster.
Analysis of nuclear power should take into account Black Swan events: no matter how well designed, some fraction of plants will cause INES Level 7 disasters. If the resulting cost (ie $100s of billions for cleanup), environmental damage, and health impacts are still less than wind or solar, I’m all for it, but pro-nuclear arguments continuously give the tired argument that with new designs “this time is different.”
> I’m continuously baffled by those that claim that nuclear power is safe.
Nuclear power is relatively safe. Nothing is 100% safe. Rooftop solar actually has a surprisingly high fatality rate from installers falling off of roofs! Fossil fuels release horrible byproducts into the atmosphere, hydro sometimes causes floods...everything has drawbacks.
> Analysis of nuclear power should take into account Black Swan events
Quite right. Analysis of all power options should take into account black swan events (eg, a hydro dam failure taking out a city), but they should also do the reverse, and take into account the normal risks of operations. A coal power plant is subject to any particularly terrible catastrophic failure modes, but every day it operates it spews out a lot of carcinogens.
Imagine a system that kills 5k people once every 20 years, versus a system that kills 1 person a day. You end up with scary headlines about the first one, but the second one kills significantly more people over time.
> pro-nuclear arguments continuously give the tired argument that with new designs “this time is different.”
The pro-nuclear arguments I have seen are much more conservative than that. They point out, correctly, that even counting Three Mile Island, Chernobyl, and Fukushima, nuclear energy is relatively safe. If the future ends up safer than the past that would be a bonus, but the past has been shockingly safe.
Coal kills around 13k people every single year in the US alone. How many people have died due to nuclear power in the US in the entire history of nuclear energy?
> And it’s fundamentally easier to make solar roofing safer than it is to make nuclear reactions safer.
I do not agree with this statement. Although I'm still thinking on how to prove this one way or another.
The closest analogy I can think of is between driving vs flying. It's easy to intuit that driving is fundamentally easier to be made safer than making flying safer. This is empirically not true.
You should expect just the opposite. It’s totally plausible could make nuclear reactions fail safe if you do it right, and I think they’ve figured that out (supposedly). But there’s no way you can force thousands of different people to get up on a roof safely.
How can we know that coal kills 13k people a year in the US? Sure, burning coal releases carcinogens but most of the population lives far away from coal plants.
Similar to how we "know" how many people a low-level nuclear release killed: You know how much of a high dose of some carcinogen it takes for a certain cancer or death risk. You scale this down linearly to low doses. Then you estimate population doses from the release and a few multiplications later you arrive at a "death toll".
You will note the amount of estimates necessary, and the pessimistic assumptions like linear-no-threshold for carcinogen exposure. Most probably, death-tolls estimated this way are upper bounds.
Only for smog events, there is a possible calibration of such estimates through excess mortality, and even that is in some doubt, because smog hits the old-infirm-dying-anyways harder.
> Imagine a system that kills 5k people once every 20 years, versus a system that kills 1 person a day. You end up with scary headlines about the first one, but the second one kills significantly more people over time.
"Imagine a virus that kills 300,000 people once every 100 years, versus a virus that kills 20,000 people per year. You end up with scary headlines about the first one (and shut down economies, and political turmoil, and...), but the second one kills significantly more people over time."
Yes, do that. And you'll find that the meltdown and evacuations killed fewer people than did shutting down all of Japan's nuclear plants afterward (PDF: http://ftp.iza.org/dp12687.pdf). In other words, nuclear power comes out ahead even if you assume there will be a Fukushima-class disaster every 10 years, which is absurdly pessimistic.
I think a lot of people have yet to internalize this fact: Humans aren't Vulcans, and pure rationality does not now, and never will in the future, drive public policy. Humans are emotional beings, and failing to account for and appeal to that will always result in failure.
Yes, and even when you consider those costs, it pales in comparison to the lives lost and negative externalities of coal, oil, and gas usage. These include climate change, particulate pollution, environmental release of mercury, devastation of vast swaths of the environment worldwide, and other factors that may be hard to quantify but negatively impactful.
There was a post on HN the other day that talked about how hard it is for humans to see beyond direct first order effects. Once you get to indirect or N order effects, it's nearly impossible for humans to fully appreciate.
People see nuclear and it's easy to draw a straight line accident -> damage. People know about mercury is seafood, but they can't seem to attach fossil fuel burning to that problem even when told. It's a disconnect that I hope as a species we will one day figure out. Global warming and weather changes? Good luck.
It helped that there was a whole campaign propped up by the fossil fuel companies to demonize nuclear.
Don't get me wrong - I think there are issues with nuclear - primarily the waste heat - generally ruins the rivers or other local bodies of water even assuming radioactive waste is contained.
Because it feels good is my guess. Over here in europe, Germany basically did the same thing. They now have higher cost AND pollution per kwh than france, who has MUCH more nuclear.
Oh and germany often has to sell the energy for very cheap when the renewables are having a peak, and buy pretty expensively when they are having a drought.
From the article, it seems to be a graph detailing how much they pay with all exemptions applied. Which, according to the article itself, only about 4% are eligible. The article doesn't seem to state how much the partial exemptions make up of the final price either. Could be 1% of the exemption, could be 99%.
> For example, Europe's Statistical Office Eurostat says the average power price for industrial consumers in Germany was about 14 cents/kWh in 2017 – the highest in Europe. But the following graph also reveals that German companies with maximum exemptions would pay the lowest price in Europe (energy price component):
> Out of 46,400 industrial companies active in Germany, 96 percent paid the full surcharge in 2017, while only four percent benefitted from exemptions, according to the association. At the same time, 41 percent of electricity used by industry is partially exempt from the surcharge, while 43 percent is not exempt at all. The remaining 16 percent of the power originates from own generation facilities, part of which is also exempt. The utilities forecast that German industry will use a total of 246 TWh in 2019.
And I was actually talking what the customer is paying, because that is what is relevant to most people.
Did you account for the footprint of building the plant (all that concrete manufacturing produces lots of CO2)? And the footprint of the waste storage (again concrete, potential for leaks)? Footprint of mining? Lots of Uranium produced in the the developing countries (Kazakhstan, Uzbekistan, Ukraine) which have poor safety standards.
The problem with peaks is not a defect of renewables, it is a temporary problem, which will be resolved once we build international power grid.
> Did you account for the footprint of building the plant (all that concrete manufacturing produces lots of CO2)?
Same can be said about renewables and such, which produce MORE pollution per amount of capacity, along with having a even worse footprint.
> And the footprint of the waste storage (again concrete, potential for leaks)?
Are you talking about waste from setting it up or waste from operation?
> Footprint of mining? Lots of Uranium produced in the the developing countries (Kazakhstan, Uzbekistan, Ukraine) which have poor safety standards.
The uranium mines definitely can be improved. I agree with that. Same could be said with rare earth mines needed for solar panels, for example.
> The problem with peaks is not a defect of renewables, it is a temporary problem, which will be resolved once we build international power grid.
We DO have a international power grid in europe. Still doesn't solve the problem, or even close to solving it.
In summary, I feel like nuclear is currently still the better option. I am not saying to not use renewables though, but that replacing nuclear with renewables/other fossils is currently a bad idea.
Really? Footprint of manufacturing a renewables based plant worse than building huge concrete buidling? Do you have data to support this?
Of course I am talking about operational waste storage.
Rare earth mining has so much smaller scale than Uranium mining however.
I honestly do not understand why are molten salt power plants not more popular. They have essentially zero pollution, they do not use anything exotic, relatively low tech, can run even during dark hours.
We do not have energy grid which would cover whole or most of the world. Once it covers USA, Russian and China there will be no need to store renevable energy.
> Really? Footprint of manufacturing a renewables based plant worse than building huge concrete buidling? Do you have data to support this?
As I currently do not have access to my list of sources, I'll have to get back to you on that later.
> Of course I am talking about operational waste storage.
Then nuclear wins, due to how compact the spent fuel/irradiated material is. Along with the HLW decaying rather quickly, while MLW and LLW not being hard to contain for a relatively long time (Enough to have it fall close to, or below background radiation levels)
> Rare earth mining has so much smaller scale than Uranium mining however.
I currently lack access to my bookmarks on that either.
> I honestly do not understand why are molten salt power plants not more popular. They have essentially zero pollution, they do not use anything exotic, relatively low tech, can run even during dark hours.
My guess is because you need to have either a lot of sunlight or use up quite a bit of land area to get a decent amount of energy out of it. Also frying birds that fly through it.
> We do not have energy grid which would cover whole or most of the world. Once it covers USA, Russian and China there will be no need to store renwable energy.
I don't think that is feasible in a timespan where we don't get power satellites before. And that would change the whole discussion on a fundamental level anyways. So, in my eyes it is a moot point. Along with some areas just being unable to produce enough energy to support the rest when needed. Eg.: During the northern hemisphere winter, solar output would be quite a bit lower.
And that is before even getting into the losses of transportation.
How is Germany a good example? Renewables were less than 20% 10 years ago and are now more than 50%. Meanwhile it has one of the most stable electricity network.
The 50% is for peak renewable usage. To keep grid stability, Germany depends a lot on French nuclear power plants, imports from elsewhere (usually not green), and ridiculously dirty lignite power plants with natural gas for load following.
And they are building more and more gas power plants and can't really decrease the amount of dirty coal (lignite fueled power plants make other coal-fired power plants look clean)
Did you actually look at the link that I posted? Those are the numbers for all of 2020.
Germany doesn’t depend on French nuclear power. Germany was a net exporter to France in many of the last years.
Many neighboring countries have even higher percentage of renewables (Switzerland, Austria, Denmark, Norway which is connected via nord.link).
Those are average values with shortest timespan being full 24hour days. Which don't show daily slumps in production, nor issues with overproduction at times.
Germany is net exporter in general, but that's again - net. If you look, right now as I am writing this Germany is importing ~294 MW of power from France.
> Which don't show daily slumps in production, nor issues with overproduction at times.
The atmosphere doesn't care. Less CO2 is less CO2.
>If you look, right now as I am writing this Germany is importing ~294 MW of power from France.
I think you're missing the entire point of a continental grid. The 294MW are a sign of cooperation, not of failure. If no country imports or exports energy then we could just get rid of the European grid.
What I'm complaining about is that energy transfer already runs into issues, and the weather differences might be not big enough to allow feeding a slump in wind/solar production at one end of EU with renewables from the other side.
Even with continental grid, we don't eradicate the chaotic nature of many renewable sources, which increases the strain on the system.
I can't read German so it's hard to consider this source. That said, it doesn't square with other sources I've seen that show Germany importing >50% of it's electricity, much of which is generated from fossil fuels:
I don't see why not. Renewables are already cheaper than nuclear. The only issue is the fact that it is intermittent and we don't have cheap enormous batteries yet. But that can probably be solved by over-provisioning, long distance HVDC power lines, and gas power stations as backup.
Agreed. The question I meant to raise was nuclear power versus other alternative energy sources, eg wind/solar/hydropower/geothermal. Comparisons of nuclear power to these other sources are typically dishonest in that they do not account for nuclear disasters. This may be an acceptable risk but it needs to at least be included in analysis, say one disaster per 100 operating years (my estimate of this value: 1 in 50-500 years). Globally, there’s only 440 operating nuclear power plants and there’s been ~100 nuclear disasters. In the last 20 years, there have been at least 6 nuclear plant disasters that cause more than $100 million in property damage.
> The question I meant to raise was nuclear power versus other [renewable sources]
(I'll assume this is still about safety, as the comment you're referring to with "meant to raise" started with "I’m continuously baffled by those that claim that nuclear power is safe".)
As far as I have read, nuclear is the safest option barring none. There are so few nuclear accidents that the casualties are a rounding error and the confidence is low.
But that is not the only thing we're optimizing for. What we need is to have a lower environmental impact so that later generations shall live long and prosper. Wind, solar, hydro, geothermal, and nuclear all fit that bill right now. Eventually we'll get rid of fission, perhaps in favor of fusion or perhaps of 100% renewables.
Given that we didn't do a large effort in the past few decades on shutting down carbon-based power generation and building 100% renewable green energy without nuclear, and we aren't managing to do it fast enough today, either, we need to make big steps to get there without fighting a billion small battles: one person doesn't like the sight of solar panels on the neighbours' roof (e.g. my dad), another doesn't like a wind turbine in their back yard, hydro power has environmental concerns and doesn't work everywhere... etc. We don't have time for this. Heck, we also don't have the time necessary to build nuclear power plants, but I just don't see any other option than to start now and finally cut down on carbon emissions.
If you're not convinced by nuclear, fine: by all means let us build renewable energy sources at the rate warranted to limit the impact of this climate disaster. I'm just not sure we'll be fast enough.
No one likes to talk about it however the Fukushima disaster could have been prevented with current technology but it was cheaper in the short term not to. Even IF you could have a super safe design a huge part of the problem was the lack of maintenance and actually implementing the safety designs they had. [1]
Why would anyone trust these companies to actually do what is right at the cost of the bottom line?
No-one talks about it because it isn't relevant. The fact that a 1970s plant didn't get every safety upgrade over the course of 40 years is possible.
But if you do a cost-benifit analysis of nuclear power and just add Fukushima to the cost column it is still an absurdly good idea to go nuclear. The status quo we currently enjoy is comparable to the worst-case in nuclear. If we applied nuclear safety standards I suspect coal fired power plants would have an exclusion zone too; they cause a lot of pollution and the health impacts around them are detectable.
>No-one talks about it because it isn't relevant. The fact that a 1970s plant didn't get every safety upgrade over the course of 40 years is possible.
You dont think plans on how to prevent a disaster caused by a Tsunami 3 years prior to a disaster caused by Tsunami is relevant? Interesting world view.
I can't quite figure out why you think it is interesting, so I'll post a reply to my top 2 guesses at what you mean:
1) If you think that the disaster should be considered, I don't see why you think my view is interesting. I'm arguing we should just chalk it up to bad safety practices, which does happen from time to time. If we assume one Fukushima every 20-25 years (which seems absurdly pessimistic given that all the new designs are much safer than Fukushima from the get go and it took somethign close to a 1:500 year disaster to breach Fukushima's design) then the cost-benifits are still in nuclear's favour. A nuclear catastrophe is less damaging than business-as-usual for coal. Living next to a coal plant will have detectable negative health impacts in the community due directly to the coal plant. Living next to Fukushima - even up to the meltdown - won't. The economic consequences of owning property in the exclusion zone probably even that up, but I would still want to see the stats before accepting Fukushima is worse. Coal dust is nasty stuff.
2) If you think that the disaster was nearly prevented and should be discounted on that basis; that is a bad argument and you should abandon it. The disaster did happen and that needs to be dealt with.
Oh jeezs, let's bury our heads in sand and never get out of our houses. How safe is air travel? Taking a car? Fact is, we take calculated risks every day - some smaller, some larger.
Unless you build the plant next to an ocean with on-going seismic activity, you should be pretty safe unless an asteroid hits straight to the vicinity of the plant. Counting out the crazy scientists who decide to do experiments in the middle of the night of course. I think we are past that stage.
And I'm tired of anti-nuclear arguments pretending that wind, solar and hydro energy will miraculously satisfy all our energy needs in the near future. If we phase out fossil fuels and switch to using electric cars and such, we need a lot more energy. Using uranium, otherwise quite useless mineral, we can produce some portion of that energy (as proven). Especially because it doesn't depend on natural conditions so it produces stable output all year around.
I would too prefer having all-green energy sources, but I'm pragmatist and in general not afraid of taking calculated risks in life. Maybe I'm too trusting of my nuclear engineers but then again, I still take planes and ride cars.
> Look at Fukushima for example. It seems hard to imagine a nuclear power plant design, even Gen III or IV that would be immune to any possible natural disaster.
For Fukushima, it seems that the panicked response of the local authorities (evacuating the whole area ...) was what caused the most problems.
The magnitude and extent of the radioactive release was largely unknowable in the immediate aftermath of the disaster. The local authorities were put in an impossible position, either gamble with everyone's health or evacuate at great cost.
The root cause of the dilemma is that the worst case scenario for traditional nuclear is so severe and nobody can tell decision-makers with high confidence whether or not you've just hit it.
The fundamental, unsolvable difficulty of making decisions with imperfect information seems to be often under analyzed. Are there any related fields that study this decision making difficulty?
I highly recommend "Probability Theory" by E.T. Jaynes. Don't be fooled by the generic title - the book is my Bible for reasoning with uncertainty.
> In my opinion, this book is a required read for anyone who wishes to understand precisely how the scientific worldview is, in a mathematically defensible sense, the best possible worldview, the one that lets us optimally use evidence to develop an interlocked Bayesian network of evidence supported beliefs that can change and evolve as the evidence is accumulated. It also shows the critical connections between physics and statistical mechanics and Shannon's theorem in computational information theory, laying the foundation for a fair bit of modern physics as it demonstrates that physical entropy and information entropy are very much one and the same thing, from a certain point of view.
Fukushima needed cooling pumps to operate. There were 3 ways to power the pumps:
1. the reactor itself, automatically shut down when the earthquake was detected
2. diesel generators, shut down by flooding
3. power lines from elsewhere, shut down by the tsunami knocking them down
Clearly, shutting down the reactor is a self-inflicted problem. Had they left it running, the pumps would have had power, and the whole disaster wouldn't have happened.
It's a stupid panic-driven regulation that a nuclear power plant must shut down for an earthquake. Once the earthquake hits, it is too late to reach a cool shut-down state. That would take weeks. There is no justification for doing the shutdown. It just caused problems, leading to disaster.
> It's a stupid panic-driven regulation that a nuclear power plant must shut down for an earthquake. Once the earthquake hits, it is too late to reach a cool shut-down state.
It might be too late to reach a cold shut-down state, but it should be enough to reduce a lot of the pressure within the pressure vessel and the piping. If the earthquake causes a crack in the pressure vessel or the piping, this could be the difference between it bursting open and a small leak (or even nothing, if the crack is small enough to not penetrate all the way).
Exactly zero people died because of radiation at Fukushima. And keep in mind that if the entire exclusion zone was covered with solar panels, it wouldn't produce nearly as much power annually as the nuclear plant did.
As others have pointed out, this is a 53 year old design. Not exactly the best example for modern nuclear power.
New reactor designs implement passive cooling that allows for 0 interaction for 72 hours. 72 hours is more than enough time for manual intervention to be possible.
>The design is intended to passively remove heat for 72 hours, after which its gravity drain water tank must be topped up for as long as cooling is required [1]
Look at Three Mile Island. That is the kind of accident profile with less shitty reactor designs than Chernobyl and Fukushima you should be looking at. Modern PWRs built today are even safer than TMI in accidents.
It is the 50 year old or soviet shitty designs that unfortunately caused the bad reputation of nuclear power. Plants which should have never started operating or should have been shut down a few decades ago, when the next generation (like TMI) came into being.
These "soviet shitty designs" are also 50-60 years old. So they are as shitty as American PWR/BWR designs used in TMI and Fukushima. Positive void coefficient is certainly a design oversight (same as design errors in the early PWR/BWR reactors), but without intentionally fucking with reactor and with a good control system, it can properly work without issues and 10 operational RBMK reactors demonstrate it in practice.
Guess how many people realistically died from Fukushima radiations? Likely zero [1]. People died from the tsunami, and from the irrationnal panic of the evacuation of people from hospital.
Read the Wikipedia article and check the sources: https://en.wikipedia.org/wiki/Fukushima_Daiichi_nuclear_disa...
One is the issues in Fukushima is that it did not have a working core catcher which is a feature in new (as in, last few decades) designs. You don't need to be immune - only handle failures which have been predicted for the region and warned about.
Core catchers do need emergency cooling working. Also, Fukushima had far more basic failures in far simpler safety features being lacking or absent.
No pressure-resistant containment to speak of.
No hydrogen recombinators.
No passive emergency cooling capacity or properly redundant active emergency cooling because of braindead placement of generators. A fish pond on a nearby hill would have helped, together with gravity...
Any later western reactor design has those. Look at TMI. Thats what it should have looked like, even without a core catcher. (granted, scenarios are not the same)
Everyone knows about chernobyl. No one knows about pike river. Yet they killed the same amount of people. Every single nuclear incident is propagandized, yet dirty energy gets a free rap. It's a shame as global warming will cause much more damage than the chernobyl exclusion zone which is essentially a nature reserve now.
When you dig down to it, they're claimed to be safe because of the difficulty of uniquely nailing down the cause of cancers - so any that are potentially caused are systematically discounted.
Nuclear power isn't flawless, but the fossil alternatives can kill people every single day.
Fukushima killed somewhere on the order of 10 people? That's a level 7 event on an ancient plant, a wind turbine falling over could easily kill that many people if it landed on a bus. This time it can be different, but your black swan argument isn't much different from our fear of flying.
To be fair, several hundred people died due to the Fukushima evacuations. Which doesn't change the result that nuclear power is extremely safe, even coming in under renewables in deaths per terawatt-hour: https://ourworldindata.org/safest-sources-of-energy
I think many oppose nuclear power because for the same cost, you can build a lot of wind, solar, and hydro instead. I don't know if efficiencies have caught up and all. There's less of a catastrophic risk with these compared to nuclear, at least in people's imaginations. (Hydro dams have been broken in the past though and lead to many deaths.)
Except that solar or wind power plant will require significant backing from other power sources (hydroelectric outside of microscale is dead due to environmental concerns and costs), usually gas and coal.
Energy storage is still very expensive in large scale except for pumped hydro storage, which again, is very problematic to arrange.
Wind blows around the clock and solar runs most of the time we are awake. If renewables are super cheap but storage is not viable, can't we simply overbuild?
Solar drops hours before daily air conditioning demand, but wind might do it. I always thought wind depended heavily on the solar cycle, but apparently Europe found it dips 20% or less at night.
Solar is still delivering 50% of peak as late as 5pm, and peak air conditioning is between 3-7pm. It's not a perfect fit, but mix in some time of use rates and (as previously mentioned) wind and it seems like you could do it. In buildings with decent insulation, cooling load is not hard to time shift.
Wind is not as predictable as it seems, and most importantly, you don't get to control the production except for clamping down when you overproduce (this results in negative prices on the market and such).
Then you have to add transfer issues, and you have situations where North Germany is exporting, while south Germany is importing, and there's a lot of fossil fuels burned just so you have capacity to keep the grid in shape.
There are of course alternatives, like controlling demand via methods such as informing people they have to reduce power usage ASAP or get cut off (hope you didn't just start washing machine or put food into electric cooker)
In my ideal future, demand doesn't need to be controlled that forcefully. Tank water heaters, electric cars, air conditioning, furnace fans, and dryers can all be networked and choose to operate when power is cheap. They can soak up spikes in production and back off in troughs. These things are also the vast majority of residential power (the only other heavy hitter is cooking)
Improved distance transmission would definitely be a big help.
It's odd to me that anti-nuclear is being labelled anti-science. It's almost like the pro-nuclear people have blinders on. Nuclear is fantastic, in theory. In practice, in the real world, the consequences of accidents are extraordinarily bad and costly. The odds of a bad accident may be very small, but they are not zero (cf. https://en.wikipedia.org/wiki/Nuclear_and_radiation_accident...). And dealing with the waste is another highly risky and unsolved problem.
I will be happily become pro-nuclear the moment that all the real-world externalities are actually priced in. How much do you think it cost to have 1,000 square miles in the Ukraine uninhabitable for the next 20,000 years? What if such an accident happens in a densely populated area?
How much do you think it will cost to keep all that nuclear waste safe for the next half a million years or so? Plutonium-239's half-life is 24,000 years, and isotopes are dangerous for 10 to 20 times their half-life (cf https://www.livescience.com/33127-plutonium-more-dangerous-u...).
The same problem of externalities exists for fossil fuels, of course. And even for hydro power in a different way: it has displaced millions of people and flooded many beautiful places.
The longer the half-life, the less we care. Bismuth and tungsten are radioactive, with half-lives longer than the age of the universe, but they aren't going to hurt anybody.
> In practice, in the real world, the consequences of accidents are extraordinarily bad and costly.
...not really. Fossil fuels kill a simply enormous amount of people. Coal is responsible for something like 13k deaths per year in the US alone; air pollution (from burning fossil fuels) kills something like 10k people per day.
> How much do you think it cost to have 1,000 square miles in the Ukraine uninhabitable for the next 20,000 years?
A number so low it rounds to zero in this context?
> The same problem of externalities exists for fossil fuels, of course.
I don't think you can handwave that away as an "of course". The externalities around fossil fuels are simply enormous; the issues and costs and risks of nuclear are multiple orders of magnitude less.
> I don't think you can handwave that away as an "of course". The externalities around fossil fuels are simply enormous; the issues and costs and risks of nuclear are multiple orders of magnitude less.
That wasn't intended as a handwave. Fossil fuel externalities are indeed enormous and well documented.
It's exhausting to talk to pro-nuclear people, because all everyone ever talks about is nuclear vs fossil. That was the 20th century's fight.
Fossil fuel for the generation of electricity is already doomed, because solar and wind are way cheaper now. Capitalism will take care of finishing off coal, the sooner the better, if we want to keep the planet livable.
In combination with rapid technological innovation in grid-scale storage, we will hopefully end up with a low-carbon power generation solution, one that does not involve risks of a nuclear accident, nor nuclear waste.
The negative real-world externalities of oil production aren't priced in, from explicit subsidies to global warming. Why does nuclear have to ascribe to such an unrealistic goal? That cripples the industry unfairly.
We already know and have well-studied the negative externalities of nuclear. They are significantly lower than fossil fuels where, for example, coal kills far more people with radiation than nuclear power plants do (even including Fukushima & Chernobyl). Yes, nuclear is dangerous and should be handled with caution. The only standard should be if it's better or worse than existing technologies where it's a resounding yes.
> I will be happily become pro-nuclear the moment that all the real-world externalities are actually priced in. How much do you think it cost to have 1,000 square miles in the Ukraine uninhabitable for the next 20,000 years? What if such an accident happens in a densely populated area?
We don't need to speculate here. That's precisely what happened in Fukushima. Evacuation orders were lifted in 2017. Radiation release in populated areas makes cleanup worthwhile. By comparison, the exclusion zone around Chernobyl still exists because the entire town existed to support the power plants. Once the power plants were no longer operational there was no real reason for the town to exist, and thus no incentive for cleanup.
And you're applying a double standard here. Do fossil fuel plants have to price in the estimated damage done due to climate change? That's estimated to
> How much do you think it will cost to keep all that nuclear waste safe for the next half a million years or so?
Million years or so? You realize uranium is a toxic heavy metal? Naturally occurring uranium is toxic. Spent nuclear waste is toxic forever. And it would have been toxic forever even if it was never used as nuclear fuel. In fact, uranium contamination of water is already a concern due to naturally occurring uranium [1]. The risk of uranium water contamination exists regardless of spent nuclear fuel.
Storing it isn't actually all that hard. You bury it in bedrock in an area with no aquifer. The main concern for uranium is water contamination. Putting it in a place with no aquifer eliminates the possibility of contamination even if the containment vessels deteriorate. The scenarios in which waste fuel results in contamination are borderline absurd, typically involving some sort of societal collapse destroying all knowledge of the disposal sites coupled with some future civilization digging up the waste for no discernible reason.
The cost of such a disposal facility is minimal: around $200 million for the Yucca Mountain facility [2]. Disposal isn't very expensive because the amount of waste generated is so small. The entirety of the US's nuclear waste from power generation occupies a volume the footprint of a football field and less than 10 yards high [3].
I've been reading "Normal Accidents" by Perrow. I started reading the book expecting an even-keeled explanation of risk, but I was pretty shocked by how prejudiced against Nuclear the tone was.
It was also a reminder of how TERRIBLE the industrial design (aka UX) of reactor monitoring and controls were at the time the book was written (1984).
So many of the things he seems to have felt were insurmountable could be solved by better design, something the book goes a long way toward dismissing.
Anti-nuclear sentiment seems to be one of those things that became widely fashionable, and Pro-nuclear became demonized.
It's still a thing today. Look at the Iran deal. I don't know enough to comment on whether its a good or bad thing but a lot of people think that Iran purifying Uranium == Iran developing nukes.
I have preached until I was red in the face that nuclear is the only solution we have currently that will get us to zero emissions on a proper time scale when it comes to global warming. I am all for wind and solar, but you have to be practical as well. We don't have anything that is even close to being able to provide stable 24 hour power like nuclear. Obviously we want a mix, but there are safe nuclear designs out there. And the feds will just have to overrule the NIMBYs on an official site or three for properly controlling the waste.
Neither the US not UK has built and finished a new nuclear plant in 40 years, and the single one (1) in progress in the UK is a 15-20 year project with a construction cost of £23Bn and a subsidy of £50Bn.
Trying to turn the small UK nuclear like this would cost £1Tn private construction, £2Tn government subsidies, and take 700 years.
Assuming it actually gets finished and not shelved by economic collapse/Brexit as its being built by a French company.
It goes with Patrick Collision’s question about why the West can’t build big projects quickly and affordably anymore.
Rolls-Royce were in the news recently with a mass-manufacturing small nuclear reactor design, but at this rate the political arguing will see us with Lithium battery storage for intermittent renewable years before 50 new nuclear plants for baseline/backup capacity. Or buying Russian nuclear power surplus in 2050.
> Neither the US not UK has built and finished a new nuclear plant in 40 years, and the single one (1) in progress in the UK is a 15-20 year project with a construction cost of £23Bn and a subsidy of £50Bn.
This is a great point and its why we should urgently be analyzing the failures of new nuclear projects to understand what’s going wrong and why we can’t do something that we could do in the 1960s and 1970s without issue (France nuclearized its power sector in less than 2 decades!)
Renewable energy sources have zero fuel costs. Their potential for life-threatening disasters - on the scale of Fukushima, Chernobyl, coal ash floods, etc. - is zero.
Just as with coal mines, uranium mines and oilfields, there's a large upfront cost ... but a much lower cost to the environment.
Furthermore, anyone can create solar-powered electricity, anywhere. There will be no wars over access to sunlight. Sunlight is a democratic power source, which cannot be monopolized by special interests. Nomads in Mongolia make their own electricity. Anyone living near a creek can make their own hydro ... thousands do.
Once renewables are built, apart from maintenance, the cost of the energy and its transport is free, and (apart from recycling costs) pollution-free. It will continue to be free until the generator has to be replaced, some stupid war destroys it, and/or the Sun burns out. Too obvious for some interests.
Attempts to distort these facts, to maintain monopolies and continue to enrich a very few, will persist. It's easy to invent lies and distortions and to spread FUD about renewables. Yep, there's a lot at stake. For a few.
But what's best for the biosphere and its people? For the people of the future, including our kids and grandkids? For all the lifeforms, the water sources, and the atmosphere of the planet? The answer is renewable -- and the technology to support its generation and storage is a superior and long-lasting investment.
That's not true. It costs fuel to mine the resourses needed, to build the equipments, to install them, to maintain them. The IPCC states that globally, nuclear power emits _less_ greenhouse gases than hydro and solar, and emits about the same as wind. [1]
The table linked lists the following lifecycle emissions (min/median/max)
* Hydropower: 1.0/24/2200
* Concentrated solar: 8.8/27/63
* Rooftop Solar PV: 26/41/60
* Utility Solar PV: 18/48/180
* Wind Onshore: 7.0/11/56
* Wind Offshore: 8.0/12/35
* Nuclear: 3.7/12/110
I've gotta say, Nuclear/Utility Solar/Hydro all have massive ranges in their lifecycle emissions. If you're basing "which tech has the lowest lifecycle emissions" from the median alone, you're not getting the full story. Rooftop solar is a lot more consistent than Nuclear, for example.
The crazy part is that all over the world nuclear is being phased out as it's uneconomic compared with renewable energy. I wonder why they chose now as the time to endorse it, just when it's no longer relevant. So strange.
It's not one or the other. Renewables on their own can't work. They need to be paired with another energy source. This is where Nuclear (or coal or else) comes useful.
Coal displaces renewables. Nuclear power displaces renewables. Gas plants don't displace renewables. I seriously wonder why people don't understand something this simple.
In the last 10 years there has been an explosion in new renewable power plants. Consumption of solar energy has increased by 20x. Wind by 5x. Even hydro has gone up almost 30%.
But for every 1 watt hour of extra renewable energy, fossil fueled energy consumption has expanded by 10 watts. Gas and oil usage has only gone up, and the increase from 2010 in just coal consumption is more than the total amount of wind generated in the whole world.
The biosphere and its people, the future, all our kids and grandkids, water sources, atmosphere, it all depend on us stopping fossil fuels. Burning fossil fuels when there are better alternatives available is a an on going crime facilitated by almost every government on the planet.
It would be good to say that the answer is renewable, but it the wrong answer to the wrong question. The answer to the short and long term danger to the planet is a immediate stop to the production and expansion of fossil fueled energy. No new fossil fueled power plant should be allowed to be built in 2020 and onward. The answer about what we do next is also related to fossil fuels, ie any alternative energy source which is not fossil fuels. We need to ramp up production of solar, wind, storage and nuclear and we need people to invest into that today. There is only so many trained people in those fields and only if everyone is working on fossil fuels alternative may we get a functional energy grid without fossil fuels fast enough.
Do you take into account storage? Having zero electricity at night or on cloudy days is not an option. So it’s either batteries or nuclear. On the scale of powering a city, what make more sense?
Why can't we create a nuclear power plant in the middle of the desert like area 51 type of setup so if there is a meltdown it can be contained. Could we safely store the energy somehow and transport it or make some sort of long-distance hookup to our grids?
Also anyone know why the nuclear site in San Onofre by San Diego failed?
> Why can't we create a nuclear power plant in the middle of the desert
In principle we can. Dry cooling is more expensive and less efficient than using water, but technically doable.
But the plant requires personnel. Said personnel has kids, spouses etc. You end up with a small town to run the plant. And that town requires fresh water which might be hard to come by in the middle of the desert.
> Could we safely store the energy somehow and transport it or make some sort of long-distance hookup to our grids?
We could store the energy in nuclear fuel, at the amazing energy density of 80 TJ/kg. Hard to beat that, except with fusion or antimatter. :)
Anyway, long distance electricity transmission is technically doable; HVDC losses are < 3%/1000 km. But again, it costs money.
> Also anyone know why the nuclear site in San Onofre by San Diego failed?
They detected premature wear on new steam generators. In the face of stiff opposition by local state politicians, rather than fixing it they decided to decommission the entire plant.
Because nuclear power is still just thermal power. You need access to coolant. Ever wondered why a tsunami prone island like Japan decided to place a nuclear plant near the ocean? Doesn't that sound like a very stupid decision? Well, the reality is that this a necessary requirement for monolithic nuclear power plants. Rivers vary in their flow rates depending on the season. If the flow rate is too low there is less cooling capacity and subsequently you will have to turn the nuclear plant off, which will seriously hurt the economics of the plant. The only reliable cooling source is the ocean. Of course, if you have smaller plants you can live with less cooling.
Why can't we create a nuclear power plant in the middle of the desert like area 51 type of setup so if there is a meltdown it can be contained. Could we safely store the energy somehow and transport it or make some sort of long-distance hookup to our grids?
Also anyone know why the nuclear site in San Onfre by San Diego failed?
Excuse my pedantry, but hydro is renewable, you have replies counting it as renewable, and a hydro dam failure long ago in china is the record holder of energy disaster casualties.
292 comments and no one talks about the Democratic candidate that was most vocal about nuclear, specifically thorium?
"Yang is absolutely right to make these points, and he has gotten some well-deserved attention. But it’s surprising that he hasn’t gotten more, given how much we’re hearing about the crisis nature of climate change. Because if you take climate change seriously, you have to take nuclear power seriously"
It’s not about climate change, it’s about controlling behavior via energy prices. The non-nuclear climate change advocates don’t care about “carbon,” they care about wealth redistribution. That’s why I oppose most “climate” policy. Because it isn’t about climate.
Carbon and wealth redistribution should be separate issues, but activists have made them the same and since I oppose wealth redistribution via government economic control, I can’t get on board with “climate.”
So I thought the consensus among economists, hn, etc was that the best most painless way to solve climate crisis is a carbon tax, that doesn't drastically alter the economy all at once. So what to do with the tax money? Presumably invest in green energy. A lot of that can help people directly, like solar and nuclear jobs, and indirectly, like better trains, or subsidies for the poor on any essential goods that price was raised by the carbon tax a lot. We can probably find a use for all the money raised by placing a carbon tax at the rate needed to prevent catastrophic climate change. But if we put the tax at the right rate and have some money afterwards, what's wrong with free college?
That’s the next next next level of climate change denial. After denying it’s happening, after denying it’s human-made, after denying it’s solvable, we deny it’s solvable without ideological tarnishments.
> We deny it’s solvable without ideological tarnishments.
No matter how you put it, climate change is completely unsolvable without politcs, because solving climate change requires, most of all, cooperation between countries.
My comment isnt about the linked document, but about briandears attitude, which essentially appears like another step in the moving goal posts of justifying inaction on dealing with climate change.
Folks should parse the article and the platform carefully, it actually reads "existing and advanced nuclear". This could be interpreted as maintaining existing reactors and building advanced (fusion?) reactors and NOT building new fission reactors.
From my perspective this interpretation would be desirable (although probably wishful thinking) given that nuclear energy is too expensive in practise (really only existing plants are competitive with solar), too slow to construct (10 year average construction time in the US?!), centralized and generally poorly managed. The construction of new nuclear fission plants for grid power in the United States isn't going anywhere, since it makes absolutely no economic, environmental or political sense. Yes, most of us on Hacker News know it is better than fossil fuels - but renewable energy is the new competition. Nuclear is going directly against solar with (or without) battery backup and it's been losing for years now - even China has slowed down the pace of construction.
Nuclear grid power advocates should take their arguments to Mars where they will actually have a case. Not much of an atmosphere to spin a turbine, far away from the sun and an environment that makes the Antarctic look like a Garden of Eden should anything go wrong.
> it makes absolutely no economic, environmental or political sense
Environmental? As far as I understand, the much lower emissions (not zero because of construction, people driving to the plant, etc.) compared to our current main power sources is a huge benefit for the environment (and thus for us: even if you are right that it's more costly per kWh today, it might save the next generation many trillions). Given the phrasing "absolutely no [environmental] sense", it sounds like you're very sure it must be negative for the environment but I don't understand why.
I am generally supportive of nuclear but only because from what I read, it seems to be a big help in reaching environmental needs. I get the economics part: nuclear isn't super cheap and gets easily outcompeted by renewables on sunny or windy days. I also expect we'll start abolishing nuclear fission in favor of fully renewable sources as soon as we finished turning off carbon-based power plants (and, in a perfectly rational world, no sooner). If there is more to the story like some environmental effect that I'm not aware of then I'd like to hear it (note that I did read up on nuclear energy so you can assume I know the basics; I pose the comment somewhat questioningly not because I haven't done any research but because I think this is a constructive way to learn).
In TFA 'fission' is only used once, and that's as the author quotes from a statement made in 1972:
" ... the party said it supported “greater research and development” into “unconventional energy sources” including solar, geothermal, and “a variety of nuclear power possibilities to design clean breeder fission and fusion techniques.” "
The continued muddling of fission and fusion is regrettable, as the former's increasingly looking unpalatable, and the latter's gaining more credibility & interest. Plenty of people would be for one but not the other.
Solar and wind are only viable with storage. Storage at immense scales that are not remotely possible with our current technology. What are we going to do to fulfill electricity demand at night, which is actually when peak consumption occurs?
With solar and wind, the answer is that we keep burning fossil fuels. California and Germany still get 50-60% of their electricity from fossil fuels despite large investments in solar and wind power. Hypothetically it's possible to get below that with energy storage. But the amount of capacity it would require to make that possible is immense. We'd need 12 hours of storage to get to 80% renewables and 3 weeks of storage to get to 100% renewables [1]. By comparison the US has ~5 minutes of storage currently, most of it in the form of hydroelectric storage which is geographically limited.
By comparison, France has been using nuclear power as its primary energy source for close to half a century at this point. Its carbon intensity is far lower than Germany's despite lower energy costs.
The cynical reality is that you're right: solar and wind make sense from a political perspective. Low cost, rapid installation time. The fact that it's a dead end won't surface until well after the current generation of politicians' terms are up.
I used to be an advocate for nuclear energy but over time I've become it has no future because:
1. Even if it's safer by any objective measure (deaths/kWh for example) the failure modes are much, much worse. A fossil fuel plant just can't make thousands of square miles uninhabitable for decades. This isn't an exaggeration. The Chernobyl absolute exclusion zone is currently 1000mi^2 [1]. This is like how people are afraid to fly but not drive when flying (on.commercial jets at least) is undeniably safer;
2. Processing of fuel creates waste we just don't have a good way of dealing with (eg UF6);
3. Spent fuel creates waste we just don't have a good way of dealing with;
4. Decommissioning nuclear power plants creates waste we just don't have a good way of dealing with;
5. The above three costs seem to be borne by governments. It's still unclear to me if companies who run nuclear power plants are paying the true costs;
5. I just don't trust companies to manage nuclear plants safely long term;
7. I don't trust most governments to manage nuclear plants long term; and
8. Many nuclear power advocates will bring up coal as the counterexample. That's a false dichotomy. Wind and solar costs continue to plummet. Natural gas, while still a fossil fuel, has way less negative externalities than coal.
I have seen 0 proof that mankind can handle the resposability that comes with this type of extreme risk but at low probability technologies. If anything. It is getting worse in that regard.
Not an american here, so it's more of a general comment.
I'm all for investing in and investigating nuclear power -- after all, the humanity needed several decades to make electricity itself safe at all; if we manage to make nuclear safer and indeed manageable, that's a fine thing, scientifically speaking. It's good to have options.
However, we should be keeping an eye on the costs. Nuclear energy is cheap, but disposing of its waste is anything but. In Europe, energy companies have essentially socialised waste disposal so that they can advertise for "cheap" nuclear energy. If the disposal costs had been placed on them, nuclear would be the most expensive energy source by far.
We are probably better off future-wise looking elsewhere for a clean and cheap energy source. Fossil and nuclear are neither.
The lack of transparency and the concentration of power is one of the biggest points against the nuclear energy sector. It affects their safety investments, oversight, subsidies, insurance contracts, responsibilities, and so on.
What if we shot it in to space? Doesn't Space X think they can get cargo down to $100/kg? That would be a few hundred million in costs for all of the worlds nuclear waste annually.
Funny how everyone is able to talk so much shit about nuclear being amazing and safe and all that, yet we've STILL not cleaned up the monstrous amount of TOXIC trash that has been produced by these plants. We have done nothing to stop creating more waste, and we have done nothing to deal with the toxic waste we have right now. To be honest I don't CARE if you want to call it safer when there is no direct proof of that, only proof of the contrary. There are hundreds of thousands of people still affected by major accidents, and the waste leftover from them worldwide. Trying to keep pushing nuclear for anything is an ignorant shortsighted choice.
And what about deaths and respiratory problems caused by burning fossil fuels? What about CO2 used to produce solar/wind powerplants? How to recycle retired or failed wind/solar powerplants? It is pretty ignorant to just look at couple of nuclear incidents and ignore the amount of energy those plants can produce. Can you imagine the amount of power the current humanity needs? If you want less waste, start reducing population growth in high-growth countries first... Here is a good video comparing various sources of energy and relevant facts https://youtu.be/lL6uB1z95gA
How much of the resistance to nuclear power in the US was due to the very unfortunately combination of the Three Mile Island incident and the release of the movie The China Syndrome both happening within two weeks of each other? Add in the nuclear arms race of the time and the emotional aspect for anything nuclear becomes even greater.
My uneducated gut feeling is that the only way nuclear is going to be relevant is if they perfect micro-nuclear reactors.
I remember reading about these 10 years ago [1], and have seen a few more since. Basically they propose small "nuclear batteries" kin of design - this avoids catastrophic scenarios and benefits greatly from economies of scale.
The only issue I see with this approach is political - you would have a lot more nuclear material spread around, spreading this kind of teach where it's easily accessible and hard to protect doesn't sound reasonable with the political situation in the world.
There certainly are mini reactor designs which can be put in a grid like network to create the same effect as our current huge-but-old reactors. Luddites, just won't have it, but maybe if leaders just go ahead and get a backbone we can have such things that might just save us from extinction (or at least the end of civilization, I'm sure at least a small cadre of humans will survive, we're pretty adaptable as a species). https://www.energy.gov/ne/nuclear-reactor-technologies/small...
The debate around safety in nuclear power is kind tangential to the larger issue: what do you do with all this radioactive material when you’re done with it?
This is a much trickier issue and is largely why countries like Germany have started to phase out nuclear power plants. But the US treats the whole world as their dumping ground and as long as they are the global imperial power, they can probably just dump radioactive waste in some poor part of the world.
Nuclear waste is not that much actually and you simply store it in sealed containers. The waste storage is a political issue rather than a technical issue. How many accidents have we had related to nuclear waste storage? Zero, that's how many.
At present consumption rates (10% of global electrical generation), 230 years' supply. That's expected to increase with technological improvements, but would of course be reduced by an increase in either nuclear fraction or total electrical generation, each likely.
Could you elaborate or link to a source that does?
Edit: Another comment[1] says "there's more than enough for couple centuries (and new reactor designs can make one-two orders of magnitude better use of what's available)". Your statement "not enough to make a difference" seems quite different from "enough for centuries". If you think this is wrong, a bit of elaboration beyond the simple statement couldn't hurt...
They also make the point which I was going to make even if there turned out to be a significant limit to the amount of material available:
> even if we only had 100 years worth of nuclear fuel reserve, that's more than enough to fix the climate problem and fully develop renewables
Consider that rising populations and standards of living, as well as shifts from fossil fuels, mean increasing total electrical generation likely by ~500% in the next 50 years or so.
The alternative is a large number of very disappointed people.
True, so we have to divide "centuries" by 5 or more, that's still long enough to help with the transition. Not sure if that's what you meant though? Please correct me if I misunderstood.
200 years / 5 gives about 40 years useful life. Some technologies (thorium MSR) remain unproved, so there's R&D lead time which is likely prohibitive --- we're going to go into this with the designs we have now.
Construction and planning still takes 10--20 years, and commercial viability remains dicey. (Illinois is looking to shut down two nuclear plants not for political/public opposition but economic reasons: https://www.chicagotribune.com/news/environment/ct-exelon-nu...)
Meantime wind and solar keep getting cheaper. They carry few long-time-horizon risks, and are as safe as nuclear within measurement error, a fact nuke boosters tend to omit. Even hydro, as horrific as past incidents have been, is safe when well-managed, and again lacks nuclear's civilisation-spanning risk time horizons.
If presently proven nuclear technologies can smooth the path, then maybe there's a role, but we're still looking at swapping out all but a minuscule fraction of nuclear within a generation (which will mean trying to smoothly phase out an entrenched, powerful, politically-connected, but dying industry, much as today's coal industry), bearing resulting near-term risks, addressing (all but certainly via government subsidies) unfavourable economics, and creating a long-term risk liability spanning millennia.
Meantime, nuke boosters generally continue to paint renewables as the enemy, misconstrue risks, and lowball opportunities, none of which does much for engendering institutional trust in the nuclear community itself.
Don't get me wrong: the challenges are huge, there's plenty of bullshit and opportunism on all sides, and we're going to need to make some really unpleasant decisions and trade-offs here. The Democratic party platform announcement is probably a good thing: it's another option on the table.
But this isn't smooth sailing, and going in with a very realistic view and eyes wide open is critical.
Well, no, it's not that simple. Some advances would require new reactors, such as breeders, but even in a closed system with breeders there would be maybe a 2:1 ratio of traditional burner reactors to breeders (producing fuel for the burners). So even in such a scenario existing LWR's wouldn't be a stranded investment.
But even if we forget breeding for a moment, an increase in usage of uranium would make it economical to exploit poorer deposits (that 200 year figure is at current prices and with current extraction technology), increasing the total economically recoverable deposits (this is similar to practically all other mining, as technology progresses and price increases the economically recoverable deposits also increase). And at some point we will hit the crossover point where, like in the SA article you linked to earlier, extraction from seawater becomes economic. Giving an additional 60000 years of deposits with current usage.
So between breeding (about a factor of 200 improvement in resource utilization) and seawater extraction, we have enough uranium for at least 60000*200 = 12 million years with current usage. Even if we increase usage by a factor of 100 (say, getting rid of fossil fuels thus increasing electricity usage by about ~3x, and increasing the share of nuclear to, say, 50% of the total electricity usage, and still have quite some room for increasing consumption), we still have fuel for 120000 years. Probably more than enough time to get fusion working, or if not, we're hosed anyway in the long run.
> we're going to go into this with the designs we have now.
I agree with that. While there's exiting things on the horizon, it makes sense to start with what's available and mature now.
That, however, doesn't mean we're locked into that forever and ever. We can start deploying traditional LWR designs today, while at the same time commercializing breeders, seawater extraction of U, Th, and whatnot.
None of this means that a "nuclear future" will be inevitable, certainly. I just don't think that the availability of fuel is the limiting factor. AFAICS, the biggest threats to nuclear energy is an inability to deliver on time and on budget combined with political opposition killing the industry.
If wind, solar, geothermal, storage, smart grids etc. manage to kill of the fossil industry without the help of nuclear, hey, I'm ecstatic. I just think having the nuclear option on the table makes success more likely.
Main point is that "200 year supply" is not all that impressive. Demand growth can dominate that rapidly.
When coal was first becoming a mainstream fuel in the US, reserves were estimated as sufficient for 1 million years. Current estimates are for about 100-250 years (latter from BP's Annual Statistical Review for 2019). Demand increased somewhat, and consequences emerged. Now 150 years into the million we're phasing out coal as quickly as possible.
Breeders, thorium (a breeder fuel), and uranium seawater extraction are possible but have proved challenging or limited to date. Seawater extraction particularly presents formidable challenges.
> Main point is that "200 year supply" is not all that impressive. Demand growth can dominate that rapidly.
Sure. But if we keep exponentially increasing energy usage, at some point we'll boil the oceans. And long before that we would have wrecked the earths ecosystem. So I'm assuming that the exponential increase in energy usage will stop at some point.
The 120000 year figure I arrived at in my previous post included a factor of 100 increase over current usage. Even if we add another factor of 100 increase (a total of a factor of 10000 increase over current usage!), we'd still have fuel for 1200 years, surely more than enough to get fusion working.
> When coal was first becoming a mainstream fuel in the US, reserves were estimated as sufficient for 1 million years. Current estimates are for about 100-250 years (latter from BP's Annual Statistical Review for 2019). Demand increased somewhat, and consequences emerged. Now 150 years into the million we're phasing out coal as quickly as possible.
Sure, but ~200 years ago our understanding of geology was quite rudimentary compared to today. And yes, starting from more or less zero we did exponentially increase usage for a couple of centuries. I don't think it's realistic to continue at the same exponential rate for several centuries more, regardless of where the energy comes from (maybe in the far future if humanity starts to look at interstellar travel we would have a usage for such truly stupendous amounts of energy).
Furthermore, we're not phasing out coal because we're running out of it, but due to climate/pollution/economics. From a climate perspective, it unfortunately seems we have more than enough coal left to wreck the climate if we would burn all of it.
> Breeders, thorium (a breeder fuel), and uranium seawater extraction are possible but have proved challenging or limited to date.
The main reason is economics. Uranium is currently just so cheap that it doesn't make economic sense to deploy breeder reactors and reprocessing yet. And without volume deployment, they remain expensive and underdeveloped compared to the current once-through cycle. However, there is no question whether the technology works. It does.
Earlier in the nuclear age (say 1950-1970 or so), uranium was believed to be scarce, isotope enrichment by gas diffusion was very expensive and energy consuming, and we believed the world would soon be powered by atomic energy. So a lot of effort was made to develop breeder reactor and reprocessing technology. However, all of this turned out to be incorrect. Uranium turned out to be quite plentiful, centrifuges made enrichment a lot cheaper, and nuclear power expansion ground to a standstill.
But the earlier R&D showed that the technology is viable, so if uranium prices would start to drastically increase, the option to deploy breeders at scale still exists.
Boiling the oceans would indeed be bad, and I suspect we'll see deviation from long-term growth trends well before that point. But, again, for the third time, readily available fissionable fuels are much less abundant than is commonly understood (or you assert), with a supply very likely much below 200 years at best, and quite possibly only a few decades.
What's changed with regards to coal is not geology or geological knowledge, but consumption. Not mereely increases in existing uses but new applications of the fuel.
Breeders failed commercially for a number of reasons, fuel costs being only one factor:
The story of the fast breeder reactors is a story about a technology embraced by large enthusiasm, which never realized its expectations, at least in the expected time-frame. The reasons for this are many. Partly, it was technical problems, as those with cooling and safety. There were also economical difficulties since the price of uranium did not develop as expected. There were military implications: the problems of handling and transporting plutonium. Also, there were social or ideological complications, since public opposition rose against breeder reactors. The political consequences were that the financial support from the governments disappeared.
It's quite possible that if most people owned a solar roof with batteries and redundancy across a specified and localized grid, there would be less need for large power plant owners and fewer donations to political parties. In short, it is easier for politicians to get donations from a small group of people than from a large group.
Once I saw a TV show about the challenges of constructing a deposit for nuclear waste that is expected to operate for thousands of years.
In this show, they mentioned that they did not want to use skulls to represent danger, because skulls are not seen as dangerous in some cultures (with "Dia de los muertos" as an specific example).
Major takeaway - you also can't say it's a place of death because an unscrupulous/desperate warlord might view symbols of death as ways to achieve power.
The article states that the Republican Party is pro-nuclear and anti-government, and the Democratic Party was anti-nuclear and pro-government.
While it seems from the headline that both parties are now pro-nuclear, it is unclear how that will play out at a policy level. Based on the quoted stance of being "technologically-neutral", it may well be the case that Democrats still won't support nuclear power, not because they are against it as a rule but because they see solar and wind as being superior alternatives.
A bit meta, but as someone from Europe where the countries aren't usually divided into two opposing camps, this seems oddly phrased to me. Could someone from the USA who considers themselves either neutral or a democrat comment on whether "just the Dems" sounds negative to you?
It doesn't sound negative to me at all; just a factual way of stating that the policy is only supported by one party. Perfectly normal figure of speech here in the states.
Yeah, and they were anti-Russia, for small government and personal responsibility. The GOP isn't what it used to be. I have no idea where they stand on anything and even if I did, I wouldn't bet that it's the same tomorrow.
But what's going to happen with the nuclear waste? I've heard too many times about water getting into permanent repositories and leaking containers contaminating the biosphere. Seems like a bad idea to me...
Nuclear waste is primarily a political problem (which actually makes it damn near impossible to solve in the near term).
There's no fundamental problem with it, since it's produced naturally as well [1] and sites exist that would allow for very safe long term storage if need be.
It's also possible to get rid of long lived decay products entirely using certain types of reactors that can "burn" nuclear waste.
Again, political will and major investments would be required to make that happen, though some companies are already working on it.
France does so, Japan does so, even Poland sold off nuclear waste from research reactors for reprocessing - the parts of it that aren't critical medical radioisotopes, which we sold separately for use in hospitals etc.
All of French fuel waste fits in one hall. That's smaller than space taken by one fly ash repository at a coal plant.
Within 5 years every machine, building and device may start the transition to self-charging nuclear diamond batteries with graphene super capacitors. [1] [2] [3]
So these huge nuclear power plants may quickly become obsolete along with coal, solar and wind power generation, hydro and fossil fuels.
Would you please stop posting political flamebait to HN? You've unfortunately been doing this a lot lately, which is not good. We don't want political flamewars here, or any flamewars—they're repetitive, tedious, and nasty.
Even if the rest of the world descends into hell, this site has a different mandate, and people here need to use it as intended.
To be fair, this is following a period of time which saw Democrats funding a lot of "scientific research" structured to study things like "would reducing the number of guns reduce gun violence" etc. Which is a foregone conclusion in the same way that reducing the number of red cars would reduce the number of collisions involving red cars.
It's a government-funded study structured in such a way as to produce a "scientific result" convenient to the politics of the party funding the study, rather than e.g. a cost/benefit analysis of all the possible solutions to reduce violent crime. It's not overly surprising that the response from Republicans was to become skeptical and demand for that to stop happening.
Which is unfortunate, since such social policy matters relatively little to the future of our nation and world when compared to, say, policy informed by climate science.
It's the same disease that leads to "if a metric becomes a target it ceases to be a good metric."
The purpose of science is to give you answers to questions you didn't already have. But it's hard enough to avoid things like selection bias even when you're acting in good faith. If you start using it to work backwards from a political platform to determine which questions you want to ask to lead to the policies you decided on ahead of time, the thing you're doing is the reverse of making policy based on science. It's manufacturing "science" based on politics. Which isn't actually science.
If you knew the conclusion of a study before it was conducted, its conclusion provides no new support for your position.
This kind of implies that if we want actual science, we can't have politicians deciding what to study, and we can't have scientists getting fired for their conclusions no matter how politically inconvenient they are.
"Doesn't believe in science" is pretty reductionist here.
Most Democrats and Republicans, like everyone else, is operating with heuristics about which risks are especially salient and concerning. Those heuristics are influenced by social biases.
Democrats are more likely to be enthusiastic about the practice of science than Republicans, but that doesn't mean that Democrats always carefully and dispassionately weigh risks as estimated by scientists, or that Republicans always learn about scientists' suggestions and then do the exact opposite.
One thing that you're seeing here is that Republicans have a social bias toward seeing industry and products of industry as not that risky, while Democrats have a reverse bias. In some cases (like nuclear energy and genetic engineering) the Republicans' bias may help them, while in others (like fossil fuels) the Democrats' bias may help them.
That's a gross over simplification of the Republican view point. Both sides have blind spots. Republicans on climate change, Democrats on other things like nuclear for instance.
Almost certainly nuclear accidents & other externalities were avoided. But would those have been more costly than the costs of fossil fuels (e.g. international conflicts, tens or hundreds of gigatonnes of CO2, many other contaminants, oil spills, etc.)?
You may need to get to know more Republicans. Yes, they host a fair bit of anti-climate science sentiment. Democrats host a fair bit of homeopathic sentiment. Both persuasions include competent scientists. Republicans are no more unidimensional than Democrats. In my observation, the conversations between them are far more tribal fueding than epistemological clarification: epistemology is just a prop. It seems to me that when we allow ourselves to be distracted by the category conflicts, we are distracted from the fight between those trying to maximize our well-being and those happy to throw us all under the bus to optimize for their individual circumstance.
> It seems to me that when we allow ourselves to be distracted by the category conflicts, we are distracted from the fight between those trying to maximize our well-being and those happy to throw us all under the bus to optimize for their individual circumstance.
That's a reasonable point I agree with. But you're just practicing bothsideism here.
It is quite obvious that the ones throwing everyone under the bus to optimize for their individual circumstance are the Republicans. Pretty much every Republican policy is a form of "screw the poor, screw the planet, it's all fine as long as I become richer".
Sometimes it's a bit disguised but it's often quite blatant. For example, all the gutting of regulations at the EPA so that the coal industry can keep polluting to their hearts content.
I disagree. I was noting a more complex reality where scientists who agree with climate science might also choose to identify as Republican given the totality of the platform. In fact, I have known some. To rephrase my earlier statement:
There exists at least one proper (accepted by the scientific community as opposed to self proclaimed) scientist who identifies as Republican.
I said that in counter to a universal statement. The reason is that the existence of one counter example leads to a contradiction with the generalization. As such the universal is false. It doesn't declare a statement on the relative frequency of scientists in either party. I choose to stay out of that conversation because I find people struggle to be rational in these discussions about politics.
What you call "screw the poor" can be seen as a way to prevent moral hazard. By that I mean the term as used by the insurance industry, not something religious.
Simply put, every economic system finds a way to force people to do miserable work. Passive systems (roughly "free market") use the natural consequences of poverty. Active systems end up with brutal prison camps, because normal people just won't volunteer to do miserable jobs for the common good.
Taking coal as an example.. Pro-climate folks would throw the livelihood of coal mining families under the bus, too, to achieve climate policies that pro-climate folks believe will help them long-term.
> Taking coal as an example.. Pro-climate folks would throw the livelihood of coal mining families under the bus, too, to achieve climate policies that pro-climate folks believe will help them long-term.
Let me fix that for you: ... that pro-climate folks believe will help EVERYONEshort to medium-term. As in, stopping the burning of coal will slow the rate of climate change, which will keep our planet more habitable. For example, avoid having the bulk of Florida underwater in a few decades. Avoid ever more powerful storms, forest fires, droughts, floods.
Calling this 'throwing the livelihood of coal mining families under the bus to help themselves' is disingenuous. Again, this is just bothsideism.
Because those pro-climate people also tend to be Democrats, who are the ones who actually care about providing enough unemployment assistance to allow people to live while they are looking for work. Who fund programs that allow people to learn new skills so they can start new careers.
Republicans are the ones cutting benefits, from SCHIP to regular unemployment benefits, and are going out of their way to make getting benefits as incompatible as possible with the daily life of someone struggling to get by. Have you looked at the hoops that some of the red states make the poor and unemployed jump through?
And finally, Democrats want to provide high quality, affordable health care for everyone, not just those people rich enough to afford it, which is the Republican platform. Coal mining is an unhealthy job. Are the coal companies going to pay for all the health care retired miners need?
That pro-climate folks think it'll help everyone else too is irrelevant to the example. Certainly, climate policy aims for outcomes they want for themselves.
The example assumes nothing about the outcome of any such policy other than it surely makes it harder for a coal miner to put food on the table in the near term.
That is, pro-climate folks seek outcomes that are at least short-term detrimental to others. This is a direct contradiction to the earlier claim that one party in the US has a monopoly on such behavior.
> Calling this 'throwing the livelihood of coal mining families under the bus to help themselves' is disingenuous.
Uhh, no.
Source: Extended family that was well-paid within the mining industry until regulatory changes during the prior presidential administration caused a sharp contraction in that industry.
You don’t have to be anti-science to be against building new nuclear power plants. And it’s a bit ridiculous to speak about human progress when talking about GMO in agriculture, when all it’s used for is plants creating their own insecticides and herbicide tolerance for furthering unsustainable monoculture farming.
> You don’t have to be anti-science to be against building new nuclear power plants
That needs a bit more justification. It certainly hasn't been true for the last 40 odd years and by extension most of the anti-nuclear types probably are also anti-science.
Generally they're the sort of people who'll hold global warming up as a real problem and then argue that Fukushima is an unacceptable risk. It is hard to hold both those positions and be heavy on the science. On the scale that global warming is a risk the risk from a nuclear plant can't even be detected. I've lived next to a coal fired power plant; the science is very, very clear I'd have better life outcomes if I'd lived near a nuclear one.
You mean reducing meat consumption? Livestock takes up nearly 80% of global agricultural land, yet produces less than 20% of the world’s supply of calories. It would even have a big positive environmental impact.
We will not be able to "defeat" climate change and keep this planet inhabitable for future generations without mass adoption of nuclear power.
> Nuclear energy is by far the safest energy source in this comparison – it results in more than 442 times fewer deaths than the 'dirtiest' forms of coal; 330 times fewer than coal; 250 times less than oil; and 38 times fewer than gas.
https://ourworldindata.org/safest-sources-of-energy