I looked into this a little because I was curious. I guess the ostensible "national security" rationale (which clearly is not the only reason!) for this is that turbines severely degrade the utility of radar surveillance along the coastlines.
This is particularly relevant for low-altitude incursions and drones.
Now, other large governments (UK) have resolved this in several ways, including the deployment of additional radars on and within the turbine farms themselves.
So clearly this is politically motivated, and they're using what seems to be a real but solveable concern as a scapegoat.
Result first (kill anything not carbon-based), find rationale later.
Same applies to how this admin forced layoffs at the green energy (hydro + nuclear) behemoth BPA [1] (which was funded entirely by ratepayers, not the federal government) then claimed an energy emergency to keep open coal plants serving the same geographies, coal plants that were already uneconomical and planned for shut down (or re-tooling to gas in the case of TransAlta's plant in WA). [2] Oh and they already re-hired some of the laid off staff at BPA because they overcut.
There is no point in taking these arguments at face value. It's an excuse generated after-the-fact, and in service of one outcome - kill renewable energy.
Well not them, they're too old to die to that. The goal is to have a cushy life for the ~5-10 years they have left. After that, it's somebody else's problem.
Not all humans, just the ones that can't afford buy property in low risk areas, start companies to help people move, etc. and for those who can, appreciating investments galore!
They might be the "wrong" oil companies. (In the case of Empire Wind, the administration is probably at best indifferent about screwing over the Norwegian state oil company.)
Should we understand this to mean that you are suggesting productive citizens should go on strike against a current dystopian United States administration?
BPA is a federal agency. The Trump administration has been very supportive of zero carbon nuclear i believe they have promised $80 billion dollars to build new nuclear plants. Staff cuts dont mean they oppose using those energy sources.
US deploys nuclear energy at over $10/watt meanwhile solar and wind are deployed around $2/watt (for levelized cost of electricity) including battery storage which means they are deployed for roughly the same cost as natural gas (so, direct competitors).
Don't let comments like this fool you, nuclear is far from being competitive with natural gas. Even in countries like south korea that can deploy nuclear the cheapest it's still $3/watt roughly.
Good news? Net new solar and wind plants can come "online" in less than two years. Net new natural gas takes four years. Part of why 95% of new energy deployed last year were renewables in the US, not just the subsidies.
Nuclear is insane levels of expensive likely due to overregulation.
It is important for base load power and overnight power and should always be the backing of the grid frequency. Total loss of grid frequency is much more difficult to recover from with synthetic inertia.
A healthy grid should have all of the following
- Nuclear base load that keeps the grid stable and pick up from low solar
- Gas plants for surge power and base load when
nuclear/solar/wind cannot take up the slack
- Battery storage for surge/storage during off peak
- Solar for very low-cost cheap energy during peak usage hours
- Wind for other power source ie when the sun isnt shining as much
Americans love to remove regulation to make things cheaper (and to enable capitalistic monopolies, but that's a different matter), then cry when people die (or worse).
Some things needs to be regulated, esp. if mistakes are costly to the planet and/or people on the said planet.
So yes, nuclear should be regulated, and even overregulated to keep it safe. We have seen what Boeing has become when it's effectively unregulated.
> We have seen what Boeing has become when it's effectively unregulated.
I think this is vastly overstated by the media. Boeing is still heavily regulated and has a pretty good safety record compared 20 or 30 years prior. The biggest disaster of recent times (MCAS) was because of the tight regulations around type certification and trying to avoid costs to carriers
> Some things need to be regulated, esp. if mistakes are costly to the planet and/or people on the said planet.
I absolutely agree. I am not for the removing ALL regulations from nuclear energy but there is a whole political servitude cycle that has taken place for a number of years to make nuclear "safer" when in actuality it has little to no influence on the technology and just adds burden and overhead especially in the new construction of a nuclear power plant
Nuclear is this big scary monster because its invisible death machine. Despite us being regularly exposed various levels of radiation in our lives most people are completely unaware of. Some people are terrified of dental x-rays but will happily jump on an intercontinental flight without any second guess.
I think arguing in the opposite of "you can never be too safe" is kind of like the whole double your bet every time you lose at the casino yes, its technically true but you need an infinite pool of chips for it to work.
> The biggest disaster of recent times (MCAS) was because of the tight regulations around type certification and trying to avoid costs to carriers
Meaning they tried to skirt around the regulations, including regulatory capture by pushing self-certification because competition caught up to them while they spent money on buybacks instead of investing in R&D, perhaps even investing in absorbing some costs of certification of pilots into a new type they could develop into the future instead of relying on a design from 60 years ago.
Mismanagement is what created Boeing's issues, not regulation.
> Meaning they tried to skirt around the regulations, including regulatory capture by pushing self-certification because competition caught up to them while they spent money on buybacks instead of investing in R&D, perhaps even investing in absorbing some costs of certification of pilots into a new type they could develop into the future instead of relying on a design from 60 years ago.
No, this is literally the opposite of what happened. They did not want all the operators to go through lengthy and expensive recertification processes as required by the FAA so they make the system as close as possible which likely cost them millions of dollars.
The issue was that pilots were not aware, they received very little training and knowledge on the subject when they should have had more (just not a new type cert)
Its also bullshit to say the EU has less regulation on developing planes than the US. Boing was just incompetent and mismanaged because of decades of government handouts keeping the business going and MBA wielding idiots cutting costs at every corner.
It became a private equity managed business without ever being bought by private equity.
> Boing was just incompetent and mismanaged because of decades of government handouts keeping the business going and MBA wielding idiots cutting costs at every corner.
>cutting costs at every corner
Costs like those incurred when adhering to safety standards set by regulations?
> The biggest disaster of recent times (MCAS) was because of the tight regulations around type certification and trying to avoid costs to carriers
Lost me right here, MCAS may have been motivated by losing type certification (as it should), but everything they did was not a result of regulations. Including upcharging to make the system actually redundant. Had they actually engineered the MCAS properly, they would have never gotten caught in the first place.
Yes but no. They wanted as many pilots to fly the new aircraft as possible without having to get them re-type certified which is pretty expensive. The issue is that pilots were completely unaware of the MCAS and when it malfunctioned there was not correct training in place because the system was "a hidden abstraction"
Clearly the system worked as intended because nobody had to be re-certified to fly the aircraft but being completely unaware of an additional control layer is dangerous and should have been known about by pilots, but Boeing kept it hidden.
There is room between under-regulation and over-regulation.
Given that we are experiencing high costs and other barriers to construction, we can do at least two things: reduce red tape where it makes sense or where the risk is acceptable to help lower costs, or the US government can, through a variety of mechanisms ranging from basic research funding to direct subsidies, spend taxpayer money to try and alleviate costs.
Given that we supposedly (and I agree) need to build nuclear reactors to help power our country and given that we aren’t building them, we can optionally use both levers to encourage construction. There seems to be this mind virus that has infected many people on the internet that seem to think that regulations are a moral good, and so having more of them must be more good.
This is not accurate.
Regulations are simply a tool we can wield to achieve desired outcomes within various risk and need-based calculations. More regulations can be good, for example we should ban highway billboards- that would be a good regulation. Or we can eliminate regulations - allow businesses to build more housing using pre-approved designs that meet existing zoning code. Neither is good or bad, except in that it helps to achieve some aim that society has.
The regulation or lack there of, of nuclear energy in the United States has absolutely nothing to do with Boeing airlines screwing up some plane designs. Drawing a conclusion that nuclear energy must be regulated (it is) or over-regulated (it probably is or else we would build more), because of a belief that Boeing airliners weren’t regulated enough is, to put it lightly, nonsense, and you are mistakenly using the application of some regulation or lack of causing some bad things to happen, to imply that more regulation in another area would mean good things happen through this framework of regulation == good.
And further, if you’re going to suggest that Boeing is effectively unregulated, which is untrue in practice and in principal, then I’d argue that was for the best given that it is a hugely successful company that employs tens of thousands of people and hundreds of millions have flown and continue to fly on their airlines every single day safely and without incident.
Correct operation of a coal plant has global impact, and therefore coal should be phased out entirely.
Absent that, when a coal plant goes badly wrong, the damage is small enough and localised enough to be affordable.
When a nuclear plant goes wrong, the upper bound for error includes both Chrenobyl and also "unknown parties stole the radioisotopes" followed by terrorists repeating the Goiânia accident somewhere.
Making all the failure modes not happen is expensive.
I would like to enforce a coal ban, but nobody gave me an army with which to do so.
Not that I could've enforced it for all those years even if I had an army, as coal was dominant for so long for the same reason it is now being rapidly displaced: cost.
> In the entire history of civil nuclear power "unknown parties stole the radioisotopes" has never happened.
This reads a bit like "why do we need a QA department when we don't have any bugs"?
The reason nobody stole the stuff from reactors is because everyone has, by international law and also nonbinding recommendations, security and armed guards making sure they don't. These are not free.
The Goiânia accident was stupidity, not malice, so you can't predict how many people would die if it was done maliciously from how many were killed. My understanding is what keeps people (relatively) safe from this type of attack at the moment, is the public deployment of radiation sensors since 9/11, which we know about because of people with radioisotopes in them for medical reasons getting caught by them. These are not free.
The Chrenobyl reactors were housed in what’s "best described as a shed" because that was cheap. Same for all of the other design issues with those reactors: it made them cheap.
The rules that make reactors expensive are written in incidents.
Chernobyl happened while I was alive. It wasn’t that long ago. The leader of the Soviet Union who presided over the disaster (Gorbachev) died only 3 years ago.
Aside from that, “because communism” is not a serious answer.
Whether a deregulationist considers themselves communist or capitalist is a red herring: being in favor of dangerous deregulation spans many different national economic persuasions.
Why do you think I am more generous towards the coal industry? We are talking about nuclear power. If you would like my opinion on coal, I will gladly give it to you. You never asked.
For starters: I think clean coal is absolute nonsense (I’ve cited the White House’s outrageous stance on this several times on HN) and people brush away the environmental, social, and general health impacts of coal to their own peril. We know the harmful impacts. We know the body count. We have alternatives and it’s time to move on.
I am absolutely 100% critical of the coal industry/power - far more than I am of nuclear. It doesn’t even compare.
So to answer your question:
> But why not same scrutiny for coal?
I’ll give you the same answer I give every person who gives me this tired refrain without ever even trying to suss out what I think about coal: I am. You are misinformed. And it has no impact on my desire to demand the highest safety standards for nuclear power.
Operating a commercial reactor and keeping it up to regulations isn’t exactly cheap. It requires people, periodic inspections, maintenance, and lots of paperwork to prove you are not cutting corners.
I guess I should separate what I mean by this.
If you need plumbing work usually you have to pull permits from the city, depending on where you live that could be a small portion of the cost or a large majority of the cost. I am not advocating for the removal of say skilled operators and technicians. I am against overwhelming bureaucracy with paper documents lengthy processing times and fringe regulations.
The biggest issues people usually have with any construction work is dealing with the city/county because they throw up the most roadblocks and you do not have the freedom to choose, in the case that there is no free market available the regulation must be good, cheap and efficient, a bit off topic but alas
> If you need plumbing work usually you have to pull permits from the city
Most work you'd hire a plumber for does not require any sort of permit. Fix a leak? Replace a toilet? Install a water hammer arrestor? Unclog a toilet? Hydrojet a sewer line? etc. None of those have ever required a single permit for me. A recent $450 quote to install another shutoff valve was about 95% labor, 5% parts, 0% bureaucracy.
In fact, I would be surprised if there was a single location in the US where permits constituted "a large majority of the costs" of plumbing work done in that location. I honestly don't know what you're talking about there. Maybe you could share such a location?
Indeed, the cost of most construction work is not dominated by any sort of bureaucracy or government-mandated paperwork, but by materials and people doing the work. If I bought a new house for $1M, regulation did not constitute $500,000 of it.
> The biggest issues people usually have with any construction work is dealing with the city/county because they throw up the most roadblocks and you do not have the freedom to choose
This is simply not the case. Maybe you're talking about the issues you personally have. The biggest issue people usually have with construction is the cost, and the biggest part of the cost is the labor and materials, because you live in a high-COL country. The current inflation and tariffs we're seeing don't help. I guess if we want to bring costs down by cutting regulation, the overwhelming tariffs (aka very expensive regulations) would be a good first target, and that would help address inflation, too – bonus cost savings!
> I am against overwhelming bureaucracy
So is everyone else, but is hiring a plumber expensive because of "overwhelming bureaucracy"? No, it's because it costs money to pay the people who do the work.
> There seems to be this mind virus that has infected many people on the internet that seem to think that regulations are a moral good
The people who don't agree with you are largely reasonable, as you likely are, and are no more infectees of a "mind virus" for holding their opinions than you are for holding yours. There's no need to denigrate them, or misrepresent their views to try to make your point. Indeed, many of them arrived at their opinion after seeing what happens when people push for not-enough regulation: Once bitten, twice shy.
> Americans love to remove regulation to make things cheaper (and to enable capitalistic monopolies, but that's a different matter), then cry when people die (or worse).
There's also the surprise factor that it just never gets cheaper, the newly formed monopolies quickly take over and push prices up beyond what they were before and milk the cow they were given until all customers are bled dry.
People that missed the solar bandwagon during the Biden admin are going to regret dearly not having installed it at the price and interest it was back then, we'll never see that again.
> Americans love to remove regulation to make things cheaper
Americans have no broad idea how anything works. Decades of attacks on our education system have left us civically illiterate (and for a lot of people, actually illiterate too.).
People who attack the “public education system” as an argument pretty universally agree with every destructive neoliberal policy the American government pushes on the West.
Regulation, I’d argue, is a far more efficient route to monopoly than “unchecked capitalism”. If you have enough money you can gain regulatory capture.
If you pay close attention the majority of “evil capitalists” the far left bitches and whines about so much are masters at this. Last mile service, car manufactures, medicine, law, construction, power, water, technology, banking, housing, etc. Most of the world’s billionaires got their money through fucking over the average person with regulatory capture. This must present the leftist with a conundrum they simple ignore because it doesn’t fit their paradigm. More government leads to more control of wealth by fewer people.
This isn’t to say all regulation is bad. However, the line between over-regulating and under-regulating is so thin it’s often better to err on the looser side. Otherwise, in many places, small business is immediately crushed and “late stage capitalism” is the result.
So yes, nuclear should be regulated, and even overregulated to keep it safe.
Here's what overregulation of nuclear power has done for us over the past several decades: "We can't risk releasing radioactive pollution in an accident, so we'll build coal plants that spew it into the air during normal operation instead."
Because Greenpeace and other powerful lobby groups convinced Americans that nuclear power was more dangerous than fossil fuels.
I'm not one of those tinfoil hatters who rants about how the anti-nuclear movement was seeded and sponsored by the Soviets... but I will say that if they didn't do that, they overlooked some of the most useful idiots at their disposal.
Nuclear is expensive because of the large amount of high-skill labor, including welding, that's required. For less economically advanced countries, that labor is cheap. For more economically advanced countries, that labor becomes more expensive. Regulation is a red-herring being pushed as an excuse, mostly by startups that are desperate to get the next round of funding, because it plays very well to the investor class, but it's not based in reality. I ask about this all the time and even if there are some half-baked critiques of things like ALARA, nobody has a path to actually making the Nth build of a reactor cheaper from changing regulations.
Even France, which is known for having far lower construction costs than the US on big projects, and for being very good at building out their nuclear fleet in the past, is at ~$12/W with their newest round of 6 reactors. And that's before they have even started construction:
This is roughly the cost of the latest US nuclear reactor at Vogtle, which is viewed as unrealistically expensive energy.
And even the most optimistic plans for reducing the cost of nuclear from the Liftoff report in 2023 from DOE doesn't place regulations as having much of a role in lowering costs:
There's significant political interest in having regulation be the reason that nuclear is expensive, but I find almost zero people in the nuclear industry that are able to articulate where regulations increase the cost of builds or whether there's anything that could or should be changed about the regulations.
Grid forming inverters for providing virtual inertia are only going to get better and better, there's no reason that as those control systems improve why synthetic inertia won't be able to be basically identical to real spinning mass. In the meantime while that technology matures, synchronous condensers can provide grid inertia without needing nuclear or coal, we already have about four in Australia supporting our grid and will probably have another dozen or so built over the next decade or two.
Nuclear is inherently expensive even with zero regulations you have the full costs of a coal power plant + more expensive lifetime costs for fuel + extra costs associated with nuclear such as more and more highly educated workers.
Meanwhile coal is dead because it’s already more expensive than the market is willing to accept.
The only hope for nuclear is massive subsidies, deregulation on its own isn’t going to work.
How come Sweden as cheap nuclear power? The main reason electricity is kinda expensive in Sweden is because the EU forces is to export our cheap nuclear energy to Denmark and Germany.
Paid off nuclear plants produce quite cheap electricity. The problem is that it takes 10-15 years of building and then 40 years of paying $180-220/MWh to get a paid off nuclear plant as per modern western construction costs.
In terms of pure operating costs ignoring everything else it can look good vs other sources that include all costs.
However, ‘Paid off nuclear’ in terms of construction costs still needs to worry about decommissioning, and their maintenance costs keep increasing every year.
Several power plants have looked at going offline for potentially years and spending billions at around year 40 to get to year ~60 as not being worth the investment. That’s the issue with projecting those long lifespans, the buildings/containment structure/cooling tower may be fine but that doesn’t mean the pipes, pumps, turbines, and control systems etc are still fine.
Somebody must be able to point to the nuclear waste by now. There it is, waving frantically in panic, the nuclear waste! It’s coming right for us!
Something is either highly radioactive for a short amount of time, or not very radioactive for a long amount of time.
But never both highly radioactive and for a long time.
In reality, there is so little nuclear waste that most of it has mostly been stored on site where it was generated, taking up less space than any grid scale solar or wind.
I don’t think nuclear waste is a huge deal, but it does increase fuel costs in a very meaningful way. The classic uranium is cheap therefore nuclear’s fuel is cheap is a tiny fraction of the story. Refueling generally means weeks of downtime, you can’t safely operate at extreme temperatures for maximum efficiency, you need enrichment, and fuel rods, and even with multiple trips through the reactor core a significant amount of fuel isn’t burned or economically useful, and when your done you also need processes do deal with highly radioactive material + the costs of dry casks, and then transport them offsite and then down into some tunnels.
Add all that stuff up and fuel is a major expense. Granted that downtime depends on the design, and is also used to do other maintenance tasks but without refueling you’d end up with different tradeoffs.
I know where the nuclear waste is stored here. Its storage is funded by the government for now (not included in electricity prices) and nobody can actually prove it will be safe for the centuries it will be dangerous.
Good question! Since you asked: it is largely in cooling pools and piling up in empty lots around nuclear power plants, waiting for safe, secure storage to appear.
> Something is either highly radioactive for a short amount of time, or not very radioactive for a long amount of time.
This is not true at all, unless you consider "short amount of time" to include decades to centuries to millenia.
> I mean, if you’re going to dispute my point without providing any evidence
Pure Americium-241 is extremely radioactive 0.0000045 grams of the stuff puts off useful amounts of radiation for smoke detectors, it’s half life is also 432 years.
As an alpha emitter it’s not that bad to stand next to but internally it doesn’t take much to be lethal.
This is a manufactured product not waste from a nuclear reactor. We use it because it’s an alpha emitter, there’s harder to shield material with similar half lives they are just less useful. I bring this up because longer half lives don’t mean safety. If you’re looking for a weapon, salted nukes are the stuff of nightmares if they use something with a month long half life or several hundred years.
> I don’t know how to gauge
And that’s the issue here, you need to do some more research before making such statements.
Actually, it's exactly what I said. Here's the quote:
>It is largely in cooling pools and piling up in empty lots around nuclear power plants, waiting for safe, secure storage to appear.
See? Exactly.
> Yes it is.
No it isn't.
> I mean, if you’re going to dispute my point without providing any evidence
lol, you never provided us with any in the first place! Why would I waste more time and effort disproving some claim of yours, than you spent trying to prove the original claim in the first place? That'd be falling for gish gallop.
Until you produce sufficient evidence to convincingly prove that your original claim is true, we can safely assume it is not. So, onus is on you: It's up to you to prove your own point, nobody else. If you’ve got data, let’s see the data.
Or maybe it's expensive because it doesn't scale. The per-unit cost of nuclear power plants is extremely high, making it hard to get economies of scale in building more of them. And if we /do/ hit economies of scale, uranium availability is likely to become a problem...
> The per-unit cost of nuclear power plants is extremely high, making it hard to get economies of scale in building more of them.
I disagree. building big infrastructure projects always scales well. As stated by the project managers at Hinkley Point C (the most expensive nuclear reactor ever) they estimate that build times and cost will be significantly reduced for the second reactor due to the knowledge and expertise baked into the workforce. Frances nuclear revolution during the 1972 oil crisis also shows the same thing with construction cost getting lower the more reactors built.
There are other reactor designs that do not use uranium that have been tested and hypothesized.
Those reactors were also very expensive, though, weren't they? I've heard lots of people look to them as a reason that SMRs might work, but not because the naval reactors were cheap. Plus they use uranium enriched to levels that we typically don't allow in civilian reactors...
Even at military contracting prices, estimates put them at $100-200M each IIRC. That's not terrible.
The highly enriched fuel is used because it simplifies the design and maintenance. It eliminates all the machinery you'd need to support things like operational refueling of the reactor. Old designs still needed to be rebuilt every 25 years but the new ones are sealed systems that are never supposed to be cracked open over their design life.
I think the main reason we don't use HEU in civilian reactors is non-proliferation concerns, valid or not. Ideally you'd want maximally simple, sealed reactors for the same reason the US Navy does.
At 1.5-1.7x the cost of diesel ship, and the "well-managed" Virginia class costing $3.6B, we are at over $1B for 60MW of power, 200MW thermal, which is far worse than larger civilian reactors per watt.
The reason we use nuclear submarines and aircraft carriers are their far superior operational characteristics when compared to hydrocarbon fuels. That benefit is massive and well worth it. For terrestrial grid electricity those benefits don't really exist.
Honestly not a terrible idea. Just have your reactor on a huge barge and if it goes meltdown just drag it out into international waters and let the fish deal with it /s
An actual meltdown at sea would have the now-molten uranium come in contact with seawater, which would instantly flash to high-pressure steam, throwing the uranium into a cancer-causing cloud that the world has never yet seen.
This is absolutely a terrible idea about how to deal with a meltdown.
Doing the math, it looks like the amount of uranium in pre-disaster Chernobyl is 200 metric tons. Apparently, that can bring 333ML (133 Olympic sized swimming pools) of room temperature water to a boil.
I suspect geothermal is going to quickly replace Nuclear as the most viable option for base load stabilization. Tech has come a long way towards letting us access it away from hot zones and it uses a lot of the same infrastructure and expertise that the oil industry has already developed.
You sound like you know a lot, I’m curious if there’s a case to be made that instead of batteries that take a ton of minerals and need to be replaced, instead using the excess energy to store energy by e.g. pumping water to higher altitudes and letting it generate electricity on the way down later when needed.
Or possibly under regulated. Where exactly is all the radioactive waste going to go? Especially the spent fuel rods pose major disposal challenges. The one site that was looking hopeful appears to have been discarded. It is a bit late in the game to be pending basic stuff that is piling up. Most nuclear power plants are not well sited for long term disposal, though that is what is happening.
Is there a comparison of how much nuclear costs versus the number of cities destroyed per year? Say, if we allow 1 meltdown per year does it become comparable to solar or does it require 10 meltdowns per year?
Allegedly the reason nuclear is expensive is that it's expensive to prevent Chernobyl. So I'm asking for a curve relating energy costs to Chernobyls per year. I'd like to read off the curve how many Chernobyls per year would be required to make nuclear energy as cheap as solar.
> How would you find the exact amount of correct regulation?
Difficult problem. The issue right now is that nobody wants to be seen to remove a regulation from a nuclear.
One of the biggest things is that ALARA/LNT needs to go away. It is not useful, and it is not based on good modern science
Creating new assessments based on modern research would be good and there is already a ton of evidence around that could be foundational for making real science based changes
This comment is also misleading. First, $/watt is not how levelized cost of electricity is measured, you need to use $/watt-hour (or more commonly, $/MWh) over the lifetime of the project. By definition, levelized cost of electricity does not include storage.
The cost is also affected by the percent of energy coming from wind+solar+batteries vs. from natural gas. Wind+solar+batteries are cheap when they are used to supplement natural gas. If they were supplying 95% of generation (Levelized Full System Cost of Electricity 95%, LFSCOE-95), then the price of wind+solar+batteries would be $97/MWh compared to $37/MWh for gas, and $96/MWh for nuclear. For LFSCOE-100, the price of wind+solar+batteries increases to $225/MWh, compared to $122/MWh for nuclear and $40/MWh for natural gas.
So yes, natural gas is much cheaper than nuclear. But that doesn't mean that nuclear shouldn't play a large role going forward. The moral of the story is that the price of energy is complicated. It's likely that a combination of nuclear, wind, solar, and battery backup would be the best option in terms of price and carbon emissions.
I didn't disagree that there is price parity for the levelized cost. There is still not price parity for levelized full system cost. If we used wind and solar for 95-100% of generation, the price would be much higher.
My point is not that we can or should replace wind and solar with nuclear. It's that it is far cheaper to use a combination of nuclear, wind, and solar than it is to use 100% wind and solar.
I think it’s quite conceivable that nuclear would be cheaper for a 100% carbon free grid.
But I don’t understand how the combination of nuclear, wind and solar would be low cost. Wouldn’t you effectively have to build out enough nuclear to cover still cloudy days at which point your wind and solar is not very useful? That sounds expensive.
I suspect we won’t end up building much nuclear because we will already have built out so much wind and solar. Nuclear is a poor fit for filling gaps in generation by intermittent renewables because fuel costs are negligible so it costs the same whether you run at 50% or 100% of rated output.
To eliminate carbon emissions entirely we will need some green hydrogen for turning into aviation fuel and as chemical feedstocks. Perhaps the gas backup will eventually burn that.
Green hydrogen is prohibitively expensive and are still way more expensive than using fossil fuels to create hydrogen (called black hydrogen). Burning green hydrogen for electricity when we have yet to make green steel economical viable is not a good idea. Nuclear is still a magnitude cheaper than that.
Green hydrogen has to first prove itself that it can become economical viable. One of the biggest test trials for that is the Swedish initiative, and that one is mostly paid through subsidies and grants. Sadly it isn't looking very great even if the government did decide to continue sending more billions into the project.
I completely agree that green hydrogen is prohibitively expensive at the moment and it currently makes no sense to burn it for electricity generation. But it will likely be necessary in the future if we are to decarbonise aviation fuel, steel making, fertiliser production, etc. What matters at the end of the day is reducing total carbon emissions for the whole economy.
Intermittent renewables and batteries will get us to 80% carbon free electricity generation for more quickly and cheaply than nuclear. While nuclear might make sense in the very narrow use case of 100% carbon free electricity generation, given we also need to decarbonise non-electrical emitters, it will probably reduce more carbon emissions per dollar spent to instead spend that money on even more cheap intermittent renewable generation capacity and use the excess to generate hydrogen. At the point hydrogen based fuels may make sense to use as a buffer for intermittent electricity generation.
Agreed. I misunderstood your comment and got too hot-headed. Sorry about that.
Yes, the 95% renewables is the number we should be shooting for not 100% as that causes battery backup price to explode.
I have been pro-nuclear for a long time, to disappointing results naturally. So, with how well renewables are doing I've really just jumped on this train and seen nuclear as more of a distraction from the critical next 10-20 years given how long it takes to come online.
At the end of the day the grid is only about 30% of the emissions problem (depending where you look).
I may have misinterpreted your original post as saying we should be going full renewables. I think we're basically in agreement about prices. We might just disagree about the percent of energy that should come from nuclear.
I don't see nuclear as a distraction, I see it as a piece of the puzzle. We will always need a source of reliable, uninterrupted power. Whether that comes from natural gas, nuclear, geothermal, hydro, etc. depends on geographical considerations and what tradeoffs we are willing to make in terms of cost and carbon emissions. I'm still optimistic that small modular reactors are going to see success in the coming decades.
Yeah, my opinion on how much should come from nuclear is that current levels (~20%) are enough to fill the rest in with renewables.
I'd love to be France (~50%) but there is so much pushback against the technology due to accidents that happened decades ago with generation II plants (chernobyl + three mile island). We're now building tech for gen III+ plants and there is just almost no appetite to build them, we finished the vogles and now are completely pivoting to SMRs, which is fine.
SMR is probably what makes the most sense even if they're less efficient because until now the nuclear plants have not been very standardized which increases costs.
Why do I think nuclear is a distraction? Because I don't think it's a like-for-like replacement of fossil fuels and this admin knows that. They're willing to invest because it won't disrupt their biggest donors. The time horizon on nuclear is long, and there is a future (I hope) where we have nuclear plants hooked up to carbon capture technology and we pull these gasses out of the atmosphere. But until then what is the cheapest and most efficient path between current emissions and a massive cut in them? Renewables and battery tech (that's currently undergoing very dramatic cost reductions!).
> We will always need a source of reliable, uninterrupted power.
Which can be for example gas turbines running on carbon neutral fuels. Optimizing for lowest possible CAPEX and acceptable OPEX.
The nuclear power lock in are engineer brained imaginary perfect solutions rather than accepting good enough.
> I'm still optimistic that small modular reactors are going to see success in the coming decades.
We’ve been trying to build ”SMR” since the 50s. It has never worked out. The industry likes producing fancy PowerPoint reactors in hopes for handouts and stupid money investment.
When they get far enough and have to present real costs and timelines the projects are shunned and forgotten. Like NuScale and mPower. And the boosters online move to the next juicy SMR project.
When they calculate that Solar + battery would cost $50-131/MWh, how is that number reached? What is the number of charge cycles and over what time span? It seems obvious that the cost of producing, installing and operating a 1MWh system of solar and batteries will cost more than a one time payment of $50-131.
Most of the time when I try to find any data there is the underlying assumption that the charge cycle is a day and night cycle, where the day produce the energy needed during the night, and not a seasonal storage that basically has a single charge cycle per year.
A cost model has a lot of independent variables. It can be a weird function of the quantity you want of each technology. Not everything gets cheaper at scale. And you need to be able to manage time-varying demand.
For easy example: a few solar or wind farms cost $X to bring up, but to go large scale you need to also store or transmit the energy, plus keep fallback options. That makes 95% or 100% reliance prohibitive.
There is also the speed of powering on/off. Gas combined cycle turbines are fastest to come online/go offline, followed by hydroelectric (if you have it). Coal and nuclear are at the slow end. You need to have the ability to match total sources and loads at any time.
Just some intuition why total cost is a complex function.
First. $120/MWh for new built nuclear power is cheaper than any modern western reactors. Real costs are ~180-220/MWh when running at 100% 24/7 all year around. As based on Vogtle, FV3, HPC, proposed EPR2s, proposed Polish reactors etc.
The problem with these ”system costs” analyses is that they don’t capture the direct physical incentive structure of our grids.
Why should someone with rooftop solar and a home battery buy $180-220/MWh when they have their own electricity available?
Why should they not sell their excess to the grid cheaper than said nuclear power? It is zero marginal cost after all.
You can call it tragedy of the commons but new built nuclear power simply is unfit for our modern grids.
We need firming for near emergency reserves coming from production with the cheapest possible CAPEX without an outrageous OPEX.
Likely gas turbines running on carbon neutral fuels. But only if we determine that they are needed in the 2030s.
New built nuclear power simply doesn’t even enter the picture in late 2025.
> Don't let comments like this fool you, nuclear is far from being competitive with natural gas. Even in countries like south korea that can deploy nuclear the cheapest it's still $3/watt roughly.
People still insist that ecofascists(?) or NIMBYism is what killed nuclear, when the reality is that it was the coal industry.
There is sort of some truth to that but its still pretty disingenuous to phase it that way. The more honest way to say it is that the NIMBYists are (probably somewhat unintentionally) keeping FFs in use by opposing nuclear.
Also, you (and everyone else in the thread) are listing capacity costs. Nobody cares about capacity costs except the CFO of a utility. Utilization costs are what matters. And by that (honest) metric, nuclear is quite cheap if you exclude the extra costs due to scientifically illiterate eco-activists and regulators.
People like to say that "A diamond is forever" is the best marketing effort of all time. I disagree, the ability of FF extractors to get ecos to do their dirty work for them is far more "impressive" (from a POV lacking in ethics).
PS The number of outright falsehoods in just this thread about nuclear should prove my point. Just research about how nuclear pays for cleanup and compare that to some comments in this thread for an example.
South Korea which famously had an enormous corruption scandal coupled to their nuclear industry. Leading to jail time and a complete regulatory retake.
The proposed costs for the Westinghouse reactors in Poland and EPR2s in France are pretty much in line with the unthinkably expensive Vogtle costs. They haven’t even started building.
> US deploys nuclear energy at over $10/watt meanwhile solar and wind are deployed around $2/watt (for levelized cost of electricity)
That's when storage is not considered. Once storage is factored in, the LCOE becomes anywhere between $5 to $20. In the US, solar makes a lot of sense in the southern states, less sense in Midwest and WA.
That being said, the US still has plenty of capacity to accommodate more "sewer grade" (no battery backup) solar generation. It will provide easy CO2 savings and it can work well with flexible power consumers (AI training datacenters).
That is not correct, and doesn't even pass the sniff test. Solar is deployed at ~$2/watt and you're saying batteries are increasing that cost 2.5x to 10x? So, someone installing a home battery system is paying up to 10x their solar install cost to also have battery backup? No way.
As usual, explain how you're going to power heat pumps in the Northern half of the country during a 3 week bomb cyclone. There are answers and they cost money.
The only answer we're using is to build 1:1 natural gas capability for solar, which is roughly double the cost. That's a solution, but it needs to be accounted for when comparing options.
Alternative to natural gas? Wind, geothermal, or nuclear. Wind is already in the northern half of the country and operates well when winterized, unlike the ones in Texas that broke since they were not winterized during that freeze a while back.
Natural gas and fossil fuels are not our only options, they are the easiest options.
It's also like to see a comparison to giving people/companies a discount if they have alternative methods of heating for 3 weeks and agree to be powered off. Places like hospitals and universities often have generators and do this. Sand "batteries" (aka electric resistive heaters in a few tons of sand heated to 1000°C) might be cost-effective if standardized. You keep it insulated and hot until the power goes out, then you let it bleed heat out to keep you from dying.
They get cheaper electric rates by agreeing to be the first loads shed if the grid is overloaded. This is a standard thing. If their generators didn't start, they wouldn't be cut off, but it'd be a big deal.
> You’re ok if governments give up and simply tell consumers “you deal with it”?
Paying people to be prepared and willing to go without electricity in times of extreme supply-demand balance is a part of the solution. It's a regular thing for data centers, hospitals, etc. It may be cheaper to pay people to install sand batteries than to install longer-distance interconnects, and if people voluntarily agree, why would you object?
Context is solar and pricing. You can't only build solar, because people will freeze to death. So you can't say "solar+batteries is only $X/W!!!” because you're ignoring that you must also have a rarely-used natural gas, or install a rarely-used long-distance transmission line, or install rarely-used storage capacity. Which is fine, but you're being dishonest about costs if you don't.
Yes, but you have to pay for a line you don't plan to use much, so its capital costs should be attributed to the generation method requiring it. Which is fine, but not including it is dishonest about the true costs.
I think if you designed and built it with the idea in mind that you're building your renewables in the sunny/windy centre/south of the US to be transported to a these places all year round it's a better idea than it being a backup. But I agree that the cost of over generation should be factored in to comparison pricing. But I also think we don't include enough of the costs in FF infra either.
The coal plant in my hometown was always running on cold days. It didn't need anything else to be available when needed besides several hours of lead time.
Mostly relying on long-distance transmission has high costs in capex, opex (losses), reliability, and security.
I'm not sure how often the upper Midwest gets Dunkelflaute. If rare enough, then overbuilding wind is a possible solution (especially combined with additional transmission) but, again, those costs must be accounted for or the solar costs are dishonest.
Those costs with storage are if you want 100% power from solar which is not reality. US alone gets 20% of power from nuclear today, we’re not going around tearing down the base load and adding solar. We’re keeping base load and adding renewables, which include wind.
Also if renewables are so dumb and are so problematic why were they 95% of new power generation installed in the US last year?
No, they're not for 100% (it's impossible with the current technology) but in the framework of a renewable grid.
> Also if renewables are so dumb and are so problematic why were they 95% of new power generation installed in the US last year?
Solar is not dumb in some parts of the US, like California or Nevada. It's dumb in the Pacific Northwest or Minnesota.
On the other hand, offshore wind is the _only_ form of renewable energy that is at least a bit reliable due to the inherent diurnal wind patterns near the shores.
This administration won't last long enough to see any of these nuclear ambitions to any sort of success (its takes at least a decade to build nuclear generators in the developed world). Words are cheap, and regime change is coming. Solar and battery storage is already the cheapest form of generation in most of the world, and will only continue to decline in price, while the US will continue to face system and labor challenges precluding the large scale construction of commercial nuclear. The US currently doesn't have enough labor to build residential construction and naval vessels, so it will be interesting to see where they attempt to source this labor from (assuming the usual labor pipeline challenges where it takes up to half a decade to turn a human into a skilled tradesperson from an apprentice or other form of beginner).
Its not clear what specific programs this $408 million cut would affect but frankly ARDP and Gen III+ reactor development are not needed. What is needed is large construction investment in existing approved designs like AP-1000 and BWRX-300 which is what the $80 billion pledge is for. “The full details of the $80 billion deal, including the precise allocation of financing and risk-sharing, have not been specified.” With no contract signed your skepticism is warranted.
https://www.ans.org/news/2025-05-05/article-7001/trumps-fy-2...
this point is very important. trump will take all sides of an issue rhetorically so you can almost always find some quote of his supporting whatever position you favor but they have a very definite political program that is concentrating control, cutting federal workers, rolling back renewables, doing spectacular stunts to favor racists, and aggression overseas
So why make the cuts in the first place? There are so many things that could have been changed like getting rid of ALARPA for actual scientifically backed methods other than pointless gratitude's of X dollars for X industry. If the Trump admin truly believed in move fast and break things why is nothing moving
More power is always good (see china being 1# in solar, nuclear and wind lol), and it's known that the cost of energy directly correlates with growth right now there is no excuse for cutting any federal workers in the energy industry.
Promises are cheap with this admin, don't count any money until it's actually being paid out. Used to be I'd say until it's in a bill but this administration claims the unilateral right to cut any funded program.
Seems like "national security" has become a phrase that can be used to circumvent many laws, facts, and balance checks. Just like the word "terrorist." It seems like if these ever get challenged to the Supreme Court the current judges will rule with something like it being at the president's discretion.
So obviously the government can spend some of that $1T military budget on fixing their coastal radar.
I thought Massachusetts just won in court to get their money or construction resumed, wonder if this means they have to go back to court.
>It seems like if these ever get challenged to the Supreme Court the current judges will rule with something like it being at the president's discretion.
Given that this is the same Supreme Court that ruled Biden (or Trump) could have them all shot[1], it seems near-certain that you're correct.
Here in Sweden a bunch of offshore wind farm project and even residential PV installations are blocked by the military for unspecified reasons that everyone assumes is that it blocks radar and other signal intelligence.
Even though you can partially work around the issue with better onshore equipment or just placing the stuff on the other side of the interfering equipment it is still a step down from not having any interference in the first place. Especially if you want to keep your listening equipment secret.
Since it’s all classified o honestly don’t have a clue. But passive radar is also a thing and something that the Swedish defense industry is fairly good at https://en.wikipedia.org/wiki/Passive_radar.
It probably has more to do with the fact that solar that far north is a non-starter. Any PV installed there will actually make AGW and carbon emissions worse, not better. Basically, the amount of carbon emitted due to manufacturing is greater than the carbon savings over the lifetime of the panel in those locations.
That makes sense but my first thoughts were that panels wouldn't be oriented so that the majority of that flat surface was perpendicular to the radar but instead much closer to parallel, and that aviation radar would be higher up than a house roof to avoid ground clutter.
Even if it is a pretense, it is pretty obvious that this would allow ship-borne drones to use the wind farms as an effective screen. Putting radar platforms beyond the wind farms that are as capable as the existing land-based radars would be quite expensive in both capex and opex. Some of the existing land-based radars would likely need to be moved, ideally. No one was really thinking about this type of threat a decade ago.
That said, Democrats have also been trying to stop offshore wind farms for years (e.g. Vineyard Wind), so there is probably bipartisan support.
The construction on some of these windmill farms started years ago. Before that permits & legal has been in the works for a long time. This surely included security clearances.
The orange shrimp pulling the “national security” card now, on the same day as he also creates a new Greenland debacle, is very clearly simply an attempt to strong arm the danish govt into Greenland concessions (in turn simply to please his fractile lille ego)
They were approved before the invasion of Ukraine and before our politicians could see how devestating drones can be. Just because the orange dictator did something does not mean it necessarily was wrong. Even a broken clock is right two times per day.
>"Even a broken clock is right two times per day."
That is incorrect. There are any number of ways in which a clock might be broken such that its hands are not in the correct position even once per day.
Can we stop overusing this term? It has already lost it's significance. Every political leader you don't agree with is a dictator nowadays. What kind of shitty dictator he is anyways if he is being shut down by courts left and right, and has to shut down the government waiting for the Congress to approve budget? You do know that dictators don't give a fuck about courts and parliaments?
When these wind farms were permitted many years ago, shipborne drones were not part of the threat matrix. It was considered purely hypothetical even a decade ago because it was not an imminent capability for any country even though e.g. the US DoD had studied it. In the last few years shipborne drones have emerged very quickly as a substantial practical threat, largely due to the Russia/Ukraine war. Governments around the world are struggling to adapt to this new reality because none of their naval systems are designed under this assumption.
Whether or not this is convenient for Trump doesn't take away from the reality of the security implications.
First of all: occam's razor. Political theatrics seems simpler than the US defence/intelligence forces sudenly realizing that drones can be launched from ships. Esp. with the timing involved.
Second: Established/traditional radar systems cannot spot drones. Take it from someone living in a country that recently had its airspace violated by (assumingly) Russian drones, affecting national infrastructure. It was considered an attack at the time. I don’t think thats the word we use any more, for political reasons.
Third: Trump already shut down one of these windmill farms once this year. Until the danish company building the park sued and got the courts word that the shutdown was illegal, and resumed construction. The current shutdown has much larger impact for many multi-national companies. Usually there is a political process expected between allied countries before such a drastisc move. We havnt seen that ie no attempt to solve a concrete (security) issue before punching the red button ie probably because there was no motivation for a solution ie the security issue was probably not an actual issue)
Fourth: Earlier this week the danish intelligence services released a new security assesment of USA (that takes Trumps behaviour on the international scene into account). That probably hurt the little mans ego, and now we see a retaliation. This provides yet another motivation for Trumps action, besides factual, real security concerns.
Looking at this purely from the security aspect is naive, and fails to consider the context of the real world.
Before Ukrain everyone though drones were easy to counter. Now that has proven false.
granted Trump probably isn't thinking that, but the concern should be real. We need better drone defense before someone (Russia, Iran...) starts anonymously shooting down airplanes.
The problem is that we have a Congress that cares more about in-group loyalty than they do about idiocy.
Meanwhile, we even have Michael Burry pointing out the obvious: we're losing to China because we're not building up every bit of energy capacity that we can. But, sure, why not just ban windfarms in a location perfectly suited to them:
Bringing up a map of wind power deployments tells the story; what you will see is a hot vertical strip in the center of the US.
That is where it actually makes sense to deploy windmills, and people will continue to put them there even if subsidies end.
It makes sense for the area, the amount of wind, the serviceability of the deployments, etc.
Off shore has always been politically contentious because it's much more dependent on subsidies, it's a battle for/against rent-seeking.
One party is in favor of this particular kind of rent-seeking and the other party isn't (they will be in favor of a different kind, no doubt).
The subsidies are necessary for these deployments to make financial sense, and if they went away, then it would just be a bad place to put a windmill.
There is no national security issue, there is no real case for energy infrastructure either. This use case needs government money to make sense, and is therefore sensitive to political fluctuations.
> Bringing up a map of wind power deployments tells the story; what you will see is a hot vertical strip in the center of the US
Idk what you mean by that. I pulled up a map and saw dots all over the place. They are concentrated on the east coast because you can’t build fixed on west coast (has to be floating) but they are pretty much anywhere on the east coast.
Why do you say it's rent seeking? Offshore wind is efficient, turbine blades can safely be much larger giving 3x the output, turbine arrays have unobstructed space giving twice the capacity factor. It's more efficient than onshore.
You appear to be starting from a premise that wind turbines don't generate profits?
Because that's what economists call it when you get something for nothing, as is the case with any subsidy.
I'm not going to argue this point; interested readers can look up how these energy projects are financed.
Windmills that are privately funded, including debt and risk show you where it actually makes sense to put a windmill.
> Offshore wind is efficient, turbine blades can safely be much larger giving 3x the output, turbine arrays have unobstructed space giving twice the capacity factor. It's more efficient than onshore.
Not going to argue with any of this, although you left out maintenance costs, and larger blades means more value at risk.
I'm not convinced that your efficiency calculation is measured in dollars and not windmill hours.
I would caution any engineer types reading from pressing their nose too close to the details of a particular energy technology.
Instead, it's better to focus on the business plan or economic shadow that a particular energy project leaves.
Dollars go in and energy comes out.
A bunch of money has to go in up front, then trickles of money slowly over time, and occasionally spikes of money have to go in randomly.
In exchange there is a modest, predictable flow of money out, which eventually is larger than all the in-flows in the bull case.
The question to ask is: how much in and out of dollars and of Joules at each point in time?
How does that compare to hamsters on wheels, people on bicycles, and lighting things on fire?
> You appear to be starting from a premise that wind turbines don't generate profits?
This was never a stated premise, and my post starts with the opposite sentiment.
Yea... I don't trust the motivations, but can confirm that on AA radars looking low (Where you might find UAS or just low-flying aircraft), wind farms show up as clusters of false hits.
Yea; it will be obvious if you've accidentally locked into one, then look at it with eyes or other equipment. And the 0 ground speed. But UAS could hide in them effectively I speculate?
It is more difficult than you may be assuming. How do you know the hits are false? These "hits" are collections of samples at points in time, not continuous tracks. The "tracks" are reconstructed by making inferences from the samples.
Determining whether any pair of sequential samples represents the same entity or two unrelated entities is an extremely difficult inference problem with no closed or general solution. If there is too much clutter, it becomes almost unresolvable. Aliasing will create a lot of false tracks.
History has shown that any heuristic you use to filter the clutter will be used by your adversary as an objective function to hide from your sensors once they know you are using it (e.g. doppler radar "notching").
For this reason the inference algorithms are classified but they will degrade rapidly with sufficient clutter no matter how clever. It is a limitation of the underlying mathematics.
> So clearly this is politically motivated, and they're using what seems to be a real but solveable concern as a scapegoat.
I approve of this, because they were going to come up with an excuse one way or another, but "it's classified" has been a BS excuse that has received far too much deference to cover for all kinds of nonsense going back many decades, and being sufficiently flagrant about it is exactly what it takes to create enough of a backlash to finally do something about it.
Trump has been charging at windmills ever since he was defeated in UK courts in a case where he didn't like that wind turbines (that provide enough power for 80,000 homes) could be seen from his golf course.
These things are also probably really loud if you happen to have a sensitive set of sonar buoys. I'm not entirely sure how you solve that one, because putting them in deeper water would also make them less effective.
Deployment of radars on the turbine farms themselves? I don't see how that's supposed to be a good idea. In the scenario we're talking about, war, electricity is one of the first targets. And those relatively defenseless turbines themselves are going to be targeted, and not only by air. The enemy getting to knock out military quality radar setups (which tend to be absurdly expensive), at the same time, is just icing on the cake.
> I guess the ostensible "national security" rationale (which clearly is not the only reason!) for this is that turbines severely degrade the utility of radar surveillance along the coastlines.
Could it be that they just feel that offshore wind infra is difficult to defend militarily?
No, they aren't any more difficult to defend than any other offshore platform. They do interfere with long-range land-based radar in a way that is problematic with the emergence of shipborne drones.
Order of magnitude increase in difficulty to defend a wind farm vs an oil rig. Wind farms are dispersed, not continuously manned, harder to monitor/enforce a 500m maritime safety zone of exclusion, have a greater attack surface (subsea cables, substations), and are easier to sabotage with plausible deniability
UK has a much smaller coastline, so it might be more cost efficient for them to install extra radars. Also I'm sure the wind turbines interfere in acoustic submarine detection due to the noise they generate.
Only reason is that orange mussolini does not like seeing wind turbines. That's it.
He sees them on Scotland's shores while flying to his resort - like a child he needs to have a personal vendetta on something he does not like, especially now when he has power to do it. God forbid he will need to see such monsters on God loving free country of US of A.
This may be the major reason, but I can think of another. How will you protect far away sprawling wind fields from attacks in case of war? They can be attacked by ships, aircraft and subs. You can expect them to be taken out almost immediately imo.
Wind seems like a waste of money compared to solar. We aren’t the UK where they are a tiny island holding on.
We have a massive land area on which we can build solar and plug it into existing power lines or build that part out. Probably way more feasible and better power generation results than building wind out in the ocean.
That you could come up with one reasonable-sounding explanation while they offered nothing makes me wonder if the administration is too lazy, or too inept.
This is particularly relevant for low-altitude incursions and drones.
Now, other large governments (UK) have resolved this in several ways, including the deployment of additional radars on and within the turbine farms themselves.
So clearly this is politically motivated, and they're using what seems to be a real but solveable concern as a scapegoat.