https://beyondfossilfuels.org/europes-coal-exit/ keeps track of coal phase-out commitments. 24 European countries still use coal generators, and 6 have not even planned to phase them out (Serbia, Moldova, Turkey, Poland, Kosovo, Bosnia).
Never used coal power:
Albania, Cyprus, Estonia, Latvia, Lithuania, Luxembourg, Malta, Switzerland, Norway
Phased out:
2016: Belgium
2020: Sweden, Austria
2021: Portugal
2024: United Kingdom
2025: Ireland
Phase-out planned:
2026: Slovakia, Greece
2027: France
2028: Italy, Denmark
2029: The Netherlands, Hungary, Finland
2030: Spain, North Macedonia
2032: Romania
2033: Slovenia, Czechia, Croatia
2035: Ukraine
2038: Germany
2040: Bulgaria
2041: Montenegro
"In 1979, a second oil crisis, this time due to the Iranian Revolution, again brought into question Malta’s energy policy and made the government seek alternatives. Between 1982 and 1987, four stream turbines were installed at the Marsa Power Station. This strategy could have worked if the environmental and human health impacts of the coal used at the power station had not caused the local population to protest. In 1987, construction of a new power plant, at Delimara, started; the plant was commissioned in 1994. In the meantime, the Marsa Power Station continued to be improved, with new turbines added to eliminate the use of coal. On January 12, 1995, Malta became independent of coal but consequently became fully dependent on oil."
For Sweden, the coal plants were exclusively for cogeneration (district heating with electricity as a byproduct) and only used as peaker plants in winter. Some of them still exist but have been converted to burn biofuels instead, mostly woodchips and other byproducts from the forestry industry.
For most practical purposes, Swedish electricity generation has been basically fossile free since the 1980's.
This is true. A nuance often missed. Different rock (that is considerably worse in several ways, needs heavy fuel oil to be added to actually burn and has I think even higher co2 output per unit of energy) but kinda the same.
> Albania, Cyprus, Estonia, Latvia, Lithuania, Luxembourg, Malta, Switzerland, Norway
I very much doubt this is true for any of those countries. In fact, I know it is untrue for Switzerland, although they did stop using it long ago (mid 20th century).
Edit: Norway actually ran a coal power plant until 2023, on Spitsbergen
This is now how we should be looking at the problem. It doesn't matter if you burn coal yourself or not. What matters is the source of your energy. Every single one of those countries imports energy from other markets which consume fossil fuels for production.
No country will be truly coal-free until they are a net energy exporter and they do not import any goods that use coal-based energy in their supply chain. Europe has de-industrialized which means it has effectively exported its coal burden.
Being coal-free is possible. Being fossil-fuel free is harder. Most of Irish energy comes from Natural Gas and Oil - the former is what supplanted Coal, not Wind.
Being coal free is a good enough goal in itself, getting off fossil fuels completely in the short term was always a stupid, irrational and religious idea.
If the world transitioned everything currently on coal to Nat gas, along with population decline that's happening, it solves the worst effects of climate change for the rest our lives (Nat gas provides the same power as coal at half the emissions, so 2X less Co2 and 10X less on many air pollutants).
And in the next 100 years if we haven't made fossil fuels irrelevant with cheap modular fission OR made fusion viable OR made space solar viable, then something horrible has happened and Co2 emissions will be the least of our worries.
I agree. Whenever numbers show that China is the largest CO2 polluter currently, it needs to be mentioned that China manufactures much of the world's physical goods.
- Peak coal usage is likely to be very soon in China (this year even according to some); after that coal usage flatten and start declining; all the way to a planned net zero in the 2060s.
The newer plants are designed to be more efficient, more flexible, and less polluting than the older ones. They are better at starting/stopping quickly/cheaply. Older coal plants used big boilers that had to heat up to build up steam before being able to generate power. This makes stopping and starting a plant slow and expensive. Because they consume a lot of fuel just to get the plant to the stage where it can actually generate power. The more often plants have to be stopped and started, the more wasteful this is. With the newer plants this is less costly and faster.
This makes them more suitable to be used in a non base load operational model where they can be spun up/down on a need to have basis. This is essential in a power grid that is dominated by the hundreds of GW of solar, wind, and battery.
What a lot of people also miss is that we’re in the age demographic bomb, where the global population is both aging rapidly and declining at the same time I.e. japanification
This means that global consumption will decline too which coincides with both factories and power plants shutting down
Their existing grid uses coal because they have coal, just like the US uses gas because it has gas. And obviously as old coal plants are retired they're going to build new ones. They don't use the new plants for additional capacity. As they add more solar and storage, which they're building a lot of, they're going to absolutely crush the coal burning too. It's literally a national security issue for them.
As other posters below you have pointed out, it's not as simple as you make it out. You can't just stop building power plants overnight. The population and demands of China are growing and those needs need to be met immediately. There is no simpler, more understood way of rolling out new energy than building coal & gas power plants.
But look at the data. They are building clean energy solutions at a faster rate than any other country on the planet - by a huge margin. Scaling clean energy solutions is what we need, and it has to be done alongside the gradual phase-out of coal and gas.
Coal is a lot cheaper and easier than modern energy sources when your goal is modernizing rural areas. Meanwhile, urban centers are decommissioning old emissive power plants and shifting to renewables. It's a fine way to do green transition and rural development.
Coal requires transport and extraction which are both pretty expensive processes.
In my home town of ~300 people, there was just a couple of houses which used coal for heating. That's because sourcing and transporting coal was quiet expensive.
Electric heating was much more common. Even the old expensive baseboard resistive heaters.
When we talk about extreme rural areas, what you end up finding is solar and batteries end up being the most preferred energy sources. This has been true for decades. That higher upfront cost is offset by not having to transport fuel.
It's why you'll find a lot of cabins in pretty remote locations are ultimately solar powered. This is long before the precipitous price drop of solar.
As other comments already point out, chinese coal power plants do not always operate under full load. They also decomission older more polluting ones.
Setting that aside, China has also dramatically pushed the electrification of their transportation sector like no one else. Considering BEVs and other electric modes of transport require less primary energy than fossil fuel equivalents, this checks out.
It should also be mentioned that despite being the factory of the world, China's CO2 emissions per capita are nearly half of the United States and comparable to some European countries.
> It should also be mentioned that despite being the factory of the world, China's CO2 emissions per capita are nearly half of the United States and comparable to some European countries.
To be fair, there's a large (~300mn) agricultural population in China who don't use developed country levels of energy. Nonetheless, this is still good.
Rural areas do not use much energy but Chinese cities are also more energy efficient per capita because of density and use of public transportation, walking, or electric mini scooters.
Europe is less industrial than in the past, but by every measure I can find many countries (especially Germany, Poland, Slovakia, Italy) are significantly more industrialized than the US - around 1.5x to 3x as much industrial activity and employment per capita, depending on the measure. Even the very least industrialized of the major EU nations (e.g. Spain, Greece) only just drop down to match the US numbers per-capita.
The issue is very complex. First - broad generalization - Europe's surviving industry is mostly made of less critical industries. If you look at important things in the world, and the important things that make up or make those important things, a tiny fraction of that is European, and that fraction is shrinking rapidly. There are some things - there is some green manufacturing stuff going on, there is some high-precision stuff in IT/CH/DE, there is ASML and Airbus, Poland can actually make things, etc. - but where will that be in ten or twenty years? I'll tell you: the high-precision stuff is rapidly moving to Asia, the green manufacturing is not very cost effective and uses a lot of imported core technologies, the C919 is going to fly with Chinese engines soon... the list goes on. The EU badly wants to make solar panels, cutting edge chips, fighter jets, rockets et cetera - and it simply can't, not at the cutting edge. The US, on the other hand, can make all of those things. It is still behind China in manufacturing overall, but it can still make a lot of the cutting edge, and it is still innovating.
Second, a lot of the EU stuff is already dead and only continues to exist through inertia. The median German cars and machine tools are worse than the median Chinese and they cost far more.
Third, those numbers often reflect the nebulous concept of "value added." Let's take the case of a refrigerator. Chinese company manufactures every technical part of the refrigerator and ships it to their EU business partner for €100. EU partner assembles it, fills it with foam, and sells it for €600. Most of the "value added" was in the EU! Win for the EU! Go EU manufacturing! The concept of "value added" is the basis for the entire EU VAT system and much of its economic indicators and incentives, while in the US it is almost never mentioned. This is also the source of the most hilarious comparisons (Greek manufacturing superior to the US per capita? χαχαχα)
If you want to cut through the bullshit, you have to look at actual things made. Among the US/CN/EU, who leads: Solar panels (CN), cutting edge chips (US), chipmaking equipment (EU), jet engines (US), aircraft (US), space launch vehicles (US), fighter jets (US), batteries (CN), nuclear reactors (CN), submarines (US), advanced missiles (US), cars (CN), CNC machines (CN), machine tools (CN), precision bearings and linear motion systems (CN), cutting edge medical equipment (US), gas turbines (US/EU), high voltage grid equipment (CN), telecom equipment (CN), construction equipment (US), ships (CN), advanced optics (EU), electric motors (CN), steel (CN), aluminum (CN), oil (US), cutting edge pharma (US), industrial robots (CN), wind turbines (CN), trains (CN), agricultural machinery (US/EU), drones (CN), smartphones (CN.) From that list, China leads eighteen, the US leads eleven, the EU leads two, and the EU and US are tied for two. And China is closing in fast on chipmaking. When China takes that crown, what will the EU have left?
Somehow that’s an often missed aspect of this. Yeah, ditching coal has a wide array of nice side effects. It has killed many, many more than the world’s nuclear accidents.
It's worse than that, it's every 3 to 7 hours of fossil fuel pollution roughly equaling the total death toll of all nuclear power accidents in history (around 4000 indirectly, most from cancer resulting from Chernobyl - but there's only around 100 total in a direct way).
I think that depends on where you draw the line around the term "coal plant." There have been plenty of coal ash disasters that result in years of exclusion (for purposes of habitation, drinking water, fishing, etc.)[1][2][3][4]
Nature would enjoy that. The economy not so much, depending on location. Around San Onofre (decommissioned now), a 30 mile Chernobyl-size exclusion zone would cover big chunks of Orange County and San Diego County. The US government recommended a 50 mile exclusion zone around Fukushima. 50 miles would cover southern Los Angeles and millions of people.
So The "worst case scenario" for nuclear power is creating a new wildlife park free from human interference [and emptying out half of Los Angeles]
If you look at net damage to the planet, fossil fuel burning energy sources kill literally 8 million+ people a year. Coal plants are vastly more radioactive than nuclear plants, and the effects of burning coal will have a vastly outsized share of damage to the planet in the long than nuclear. Its effects are just less concentrated to a single area.
And not all nuclear plants are the same. I don’t think it’s reasonable at all to compare Chernobyl to modern reactor designs, just because they both use the word “nuclear”.
Apso not sure if you are including coal mining, and all of the deaths and negative health outcomes as a result of the industry
Have you ever seen the common medical advice that pregnant women should avoid eating more than a few servings of seafood every week, and avoid certain kinds entirely, because they’re all contaminated with mercury? A huge portion of that mercury comes from burning coal. How’s that for an exclusion zone?
Most of the exclusion zone is political nonsense. And overall coal has made much more areas much worse to live in. I rather live in the exclusion zone then next many coal plants.
Also there is a single case that happened from a non-western design. When looking at western countries like France, it shows how incredibly safe the whole industry is end to end.
Chernobyl's political nonsense was mostly down to the USSR wanting to deny that anything had, or possibly could, go wrong; if anything, the exclusion zone is the opposite of the western nonsense about nuclear power.
It's our unique freedom-themed nonsense, not the Soviet dictatorial-nonsense, which means we have radiation standards strict enough that it's not possible to convert a coal plant into a nuclear plant without first performing a nuclear decontamination process due to all the radioisotopes in the coal.
> When looking at western countries like France, it shows how incredibly safe the whole industry is end to end.
Relative to coal, absolutely. But don't assume western countries are immune to propaganda on these things, nuclear reactors are there for the spicy atoms, not the price tag or public safety.
Because coal desposits in the ground have bits of Uranium and Thorium which are radioactive, they get concentrated in coal fly ash, and blow out the chimney in the smoke from a coal power plant, and kill people, they leach into the soil and waterways, and kill people.
That is, nuclear power plants only kill people by radioactivity in the case of an accident. Coal power plants do it in normal operation. As well as coal dust having a PM2.5 dust problem which kills people.
Make it about nuclear vs coal because people say coal is better than nuclear because it's not scary radiation, and it actually is.
> "Both are bad"
Nuclear generates more power from a Kg of fuel, with less CO2 pollution and fewer deaths. It's not bad, but even if it was bad it's not "both sides", it's much less bad.
Nuclear energy can be used to generate 24x7 energy as the grid-power to supply energy to a country whereas Solar and Wind require batteries.
I think that the last time I checked, when you take into factor the CO2 emissions and everything, Nuclear is the best source of Energy.
> I don’t think nuclear is the answer to things
I think that I am interested in seeing thorium based reactors or development with that too. That being said, Nuclear feels like the answer to me.
Feel free to correct me if you think I am wrong but I don't think that there is any better form of energy source than nuclear when you factor in everything.
Daytime doesn't mean the sun is out; the UK has heavy cloud cover and sunset near 4pm in mid-winter. https://grid.iamkate.com/ shows the UK is currently getting 10% of grid power from Solar at 3:30pm in March.
Sure. That's why there's the "interconnectors" section further down; the UK can take advantage of the fact that it's rarely simultaneously dark and zero wind across entire continents.
> Batteries are cheaper and faster to make in large quantities.
Yes I agree but their extraction at scale is still very C02 Expensive.
> No economy on the planet needs 24/7 peak power production. The times humans work correspond nicely with the times the sun is out.
With Nuclear energy, let's face it. If you have a nuclear plant running, the input is just some uranium which we have plenty of. Thereotically we have no problem with running at peak power production.
You are also forgetting that Sun can be blocked during times of rains and Wind is unpredictable as well.
If you can work with solar panels only that's really really great. Unfortunately that's not how the world works or how I see it function :(
You are forgetting that markets operate after work and the late night culture and so many other things. You need lights at energy and quite a decent bit. You are also forgetting that if we ever get Electric vehicles then we would need energy during late night as well.
A lot of energy in general is still needed during nights and would we be still burning coal for that?
With all of this, I am not sure why you'd not like Nuclear?
> You are also forgetting that Sun can be blocked during times of rains and Wind is unpredictable as well.
We already have wires that cross continents to smooth out supply variations. It's exceedingly rare you get no sun and no wind over entire continents for an extended period.
> You are forgetting that markets operate after work and the late night culture and so many other things.
> We already have wires that cross continents to smooth out supply variations. It's exceedingly rare you get no sun and no wind over entire continents for an extended period.
I can be wrong but you would probably lose tons of efficiency even within High Voltage DC lines if everyday late night we take energy from different countries. Also this is getting outside of topic of discussion for me because one of the reasons we want Nuclear or Green energy in general is also the environmental plus the sovereign plus the long term affordability plans.
Another point from your first comment but if we run peak production in nuclear say in a country A, then the country A can also give power to Country B at late night similar to what you are proposed for solars.
> Again, batteries.
Once again, within my first comment I raise issue of battery. You mention a comment and I respond and then we get to batteries again.
I have no problem with solar at all without batteries but batteries really flip the equation in terms of environmental concerns.
My question is plain and simple, Why not Nuclear? I understand, I am not against Solar. Although environmentally, I feel like battery is a valid concern.
I am just saying that long term, Nuclear seems to be the better/best option. Why not Nuclear? That is a question which it seems that you may not have answered and that's a discussion worth having as well In my opinion too.
HVDC is more efficient than you think, 3.5% losses per 1000km. Which means intracontinental is obviously good, and intercontinental will work in some situations.
Nuclear power is expensive, enough that “what about night” is solve by building extra solar and batteries. Also, renewables wreck the economics of base load power that needs to run all the time to pay back loan, but can’t compete with solar during the day.
> You mention a comment and I respond and then we get to batteries again.
Yes. Because they're the answer here.
> Also this is getting outside of topic of discussion for me because one of the reasons we want Nuclear or Green energy in general is also the environmental plus the sovereign plus the long term affordability plans.
Good luck with nuclear sovereignty, if that's your concern. How many uranium mines are in the UK?
> Why not Nuclear?
/me gestures at the last 50 years of historical evidence
"Why not try nuclear" is like "why not try communism?" for physics nerds. We have tried it.
> Good luck with nuclear sovereignty, if that's your concern. How many uranium mines are in the UK?
I can't speak about UK but considering how cheap Uranium is, can UK not do cost analysis. Uranium is abundant material compared to Oil/Coal.
> /me gestures at the last 50 years of historical evidence
> "Why not try nuclear" is like "why not try communism?" for physics nerds. We have tried it.
Maybe, but I think that, I can speak about the problem within US which I can better explain but US had nuclear fearmongering attempts and Senators passed laws which increased regulations on it to the point that some regulations contradict past regulations.
Nuclear power plants being built on loan in such a flimsy regulatory market was what lead to the downfall essentially within US
Nuclear fearmongering and lobbying efforts from Oil Industry as they are one of the most strong opposers of nuclear energy[0]
Once again, how do I explain this but nuclear produces 3.2x less carbon emissions than Solar[1]
We are able to build hydropower plants, we are able to launch spaceships into moon and outer space. It's definitely possible to build nuclear if lobbying effort decreases.
I'd say that its our dependence on Oil and Coal which have been the problem. I have nothing against solar and that is something that I am saying from the start. At some point we should look towards transition towards nuclear as well. To give up on that would simply not be ideal.
> I can't speak about UK but considering how cheap Uranium is, can UK not do cost analysis. Uranium is abundant material compared to Oil/Coal.
Wait until you hear how cheap and abundant sunlight and wind are!
Economically useful uranium deposits are only proven in a handful of countries.
> We are able to build hydropower plants, we are able to launch spaceships into moon and outer space. It's definitely possible to build nuclear if lobbying effort decreases.
This is the "well we haven't tried real communism" argument again.
Alright, So I think that some/most of my talking points were very inspired from the michael moore's documentary on the topic and I re-watched it after reading your comments. (Although Michael doesn't talk about Nuclear in the shortcomings)
I was going to ask you 3-4 questions but then I searched them upon myself and I do think that the results are more (positive?) than I thought.
Solar could feed world's energy needs by 0.3% and I think that Excess Solar could be used for green Hydrogen etc. too when needed for burstable energy source and smart grids in general to fix the ramp-up/ramp-down problem
I think one of the only things that I was sort of worried about mainly was the fact that Batteries produce lots of Co2 emissions and harm to the planet when mined but it seems that they have lifespan of about 10 years and can be carbon negative 3-4 years.
I don't know, I go through waves of doubt over Solar. I might need to learn more about Solar because I feel like I can just agree to whatever side I hear the recent data's from. Lies, Damned Lies and Statistics it seems.
But I feel like although solar is right direction too, we probably need smarter grids and just improvements within grid infrastructure in general too. Another point about Solar could be that there can be a more personal adoption of it whereas I can't build my own nuclear power plant so I do agree with you.
I'd still say that there is a lot of greenwashing in the Climate Change community to treat wood-chips and trees as fuel source and all the problems that stem from that with timber industry.
So although there are short-comings in Solar given its intermittent nature. I do agree that unless Govt.s create nuclear, it could be a good bet for personal actions/ even Govt.s to diversify at the very least from Oil.
I still think that though there is something wrong where People are wrongfully worried about nuclear. India for example had 3% of its energy coming from Nuclear and I looked at wiki and we planned even more but anti nuclear protests started happening after Fukushima Disaster :(
I am still really interested about Thorium Reactors and the race towards building it though. They are mostly disaster-free and Indian in particular has quite a large reserve of Thorium (25% of the world supply). The govt. is working on making 100GW to raise thorium's ratio in energy to almost ~10% estimate from 3% till 2047 which would still be impressive given that total energy would skyrocket as well till then.
India has true chances of being Energy Independent long term if it focuses on nuclear and Solar both rather than focusing on Solar given any advancement in Thorium reactor will be huge for us. For reference Coal : Thorium power ratio for same mass is 1:3.5 Million and its even more efficient than Uranium.
Also Thorium cannot be used for Nuclear Bombs in the sense of a fission unless you drop it at someone complete point blank but at that point its worthless compared to missiles so we can genuinely share this technology all across the world.
Thorium Reactors long term feel the future to me. So maybe I am too bullish on Thorium.
Solar is nice but atleast personally, Investments in Thorium Reactors could make India Energy Independent given 25% of the supply. We also recently found a huge jackpot in lithium and other minerals in Kashmir recently so I suppose long term India can be sovereign in manufacturing batteries for Solar production as well.
There is such a massive possibility in nuclear especially more so for India and general consensus also being within Scientific community that nuclear energy is cleanest forms of energy. The Combination means that, I'd want my govt. to take some risks in nuclear research/projects given how big the reward can be and that's also why I vocally support Nuclear. Much more than Solar. But I'd say that any govt. has their own risk profile and maybe Solar can be boring but works technology for Energy Independence so I just hope that Solar & Thorium both show some good numbers long term as well. So it isn't as if I am anti Solar as much as I am very pro nuclear energy long term.
Not cost competitive with solar+batteries in many locales (less so the closer to the poles), and no learning curve, if anything a negative learning curve, nuclear never was more expensive than new nuclear.
And off course societal (and geopolitical) acceptance issues.
Respectfully, Can you tell me more about it because I genuinely don't know how you think Nuclear energy is bad. It's one of the cleanest forms of energy.
Is there any particular reason why you think Nuclear is bad in all honesty as its worth having a discussion here? Why do you feel Nuclear Energy is a hazard?
I understand if you feel Chernobyl or any event makes it sound dangerous but rather, Please take a look at this data on the number of death rates per unit of electricity production[0]
Oil is roughly 615x more deadly than nuclear. Nuclear, Solar and Wind (the renewables) are all less deadly and are 0.03,0.02 and 0.04 respectively and nuclear is a reliable source of energy source which can be used in actual generation.
Nuclear is very much a green energy. I'd like to hear your opinion about it.
The goal of net energy exporter assumes that energy produced at one time can be exchange for energy produced at an other time for the same price, and that assumption has not been true in Europe for decades. You can be a net energy exporter and still be dependent energy imports for more than 50% of the energy a country consumes, as has been demonstrated by Denmark.
I will happily trade 10 unit of energy for just a single unit of energy, assuming I get to decide when I give the 10 units and when I can demand the 1 unit. A lot of profit in the European energy market can be made by such a "bad" deal.
The date when a country energy grid is free from fossil fuels, like coal, is when the grid has no longer any demand during the year for producing or importing energy produced by fossil fuels.
It's even more nuanced than that because the United States is made up of many different states, with many different energy policies. Ireland would most closely equate to the state of Massachusetts by population and economic size, and Massachusetts shut down its last coal plant almost a decade ago.
I don't know if I buy this argument. If the US sends oil to another country, which burns it for energy, produces a finished good and exports that back to the US, then the CO2 released isn't accounted for in production-based numbers. But it seems to me like it isn't really properly accounted for in the consumption-based numbers that Noah is holding up, because those are effectively giving the US a credit for exporting the oil in the first place that offsets the imported good. As he says, the US's exports are carbon-intensive and that largely explains the difference being so small.
Noah also tries to refute the perception that manufacturing is in decline in the US, but he doesn't adjust per-capita and doesn't account for the obvious fact that major US exports are looking more and more like raw materials and less like finished goods, while imports are the other way around. Aircraft and ICs used to compete for top spot on the US export list. Since 2008 it's petroleum and oil.
europes coal powerplants are in china, its polution is in china, the products of china are in europe and the producers from china live in europe and the us. China even offers greenwashing as a service, so people can buy for green notes a green consciousness.
> europes coal powerplants are in china, its polution is in china, the products of china are in europe and the producers from china live in europe and the us.
This is generally overstated. Emissions imported or exported via trade are significantly smaller than domestic emissions for almost every country. In the EU vs China case, accounting for imported/exported emissions basically changes which of the two is doing better, but emission levels are pretty close to begin with (US is already doing significantly worse than China either way).
For China, we are talking about ~1 ton/person/year from trade (in favor of China), while local emissions are at ~8 tons/person/year [1].
You make a valid point, but looking at the actual numbers it turns out that this makes (surprisingly) little difference.
This is what matters. The whole thing is an exercise in greenwashing. It doesn't matter if you stop burning coal in your own country, if the energy you import is also made by burning oil and gas.
The whole conversation about clean energy is polluted by the complete misunderstanding of the general population of how energy demands are balanced. Saying you're replacing coal and gas with wind is just nonsense. It's one solution to a bigger problem. The big problem is how to balance your grid across peaks and troughs and that requires a diverse set of clean energy solutions, with wind being one small part of it.
Irish man here - Over the last few years, we've graduated from providing cheap energy to now importing most of our energy. We've seen huge energy price increases as a result. We're seeing more and more cost-of-living protests, the war now means more will suffer with fuel prices and we're still going ahead with closing down energy suppliers (this is a 2025 article but the point still stands).
To anyone praising these stupid, politically incentivised initiatives - congratulations to us on making the poor and middle-classes poorer.
But it's all good - we're saving the world I guess. The poor folks can sort themselves out.
The actual causes of electricity cost rises in Ireland being higher than Europe are:
Lower population density on a grid without good connections to neighbours.
Previous underinvestment in network infrastructure.
Gas price rises combined with Ireland having less renewables that the EU average (middle of the pack for electricity, 3rd from bottom on total energy).
Maybe saving the world a bit harder would have helped keep prices down. It's certain that building more renewables now is the likeliest path to cheaper electricity.
No it's not. I'm not talking about the environment either, coal plants are just straight-up more expensive than gas plants and renewables.
Coal plants are necessarily steam turbines and not internal combustion, because coal is filthy and the mercury/sulfur/etc would wreck the guts of any machinery it goes through. Thus, it's only used to boil water.
Gas turbines don't have that problem, so they spin the turbine with the combustion products directly. They're far more efficient, the machines are smaller and cheaper, and because you don't need to wait for a giant kettle to boil before ramping up the power, they're far more flexible and responsive to demand. It also helps that the gas is fed with a gas pipe, whereas coal needs to be fed with a bobcat.
Which is why nobody is building new coal plants - they're way more expensive than gas plants, even if the gas fuel itself is more expensive than coal.
This. Fossil fuels are not cheap in Ireland, I think we only produce a small quantity of natural gas, everything else is imported. Ireland should be running towards renewables, we have no indigenous fossil fuels industry to lose and every watt we generate from renewables is money that stays in Ireland. We should be focused on reducing nimbyism and building out renewables.
For actual generation over a longer time period, in February 2026, 48% of energy used was generated from renewable sources, of which the vast majority (41% of energy use) was wind:
Ireland isn't sunny enough for solar to help with AGW. In fact, solar in Ireland actually just frontloads and exports to the 3rd world the CO2 generated. Oh, and the power to make PV panels...comes from coal. On the other hand, if you just put a windmill next to an Irish politician, you could power the entire country.
That would only be true if solar panels had be trashed and repurchased every 6 months. But instead they last > 25 years, and can be recycled rather than trashed.
What does the renewables supply chain look like? Do you build the systems right there in Ireland? Panels? Batteries? How does that money stay in Ireland?
does this renewable policy of wind farms etc also extend to the rain forest being cut down for balsawood? or the landfilles the massive chunks of fiberglass coated wings then get put into?
I guess we need a new planet when we're done filling it with junk and have depleted all the rain forest etc
Like fossil fuels are somehow ecologically clean and don't cause massive deforestation themselves? Sure, renewables aren't a silver bullet and there's a real conversation to be had about proper disposal of turbine blades and PV cells, but it's pretty convenient how that same scrutiny never seems to get applied to fossil fuels.
That's because the EROEI of FF are in the 100s. The EROEI of renewables is 4. I'm sorry that the laws of physics are inconvenient to your politics but they don't care about your politics (or mine).
If you want solar PV to help with AGW, they must be sited somewhere with an solar albino > .25. That's about Barcelona in Europe and SF in the US. If you put solar PV somewhere with less sun, you are actually making AGW worse.
I didn't know about balsa wood in Wind Turbines either until this thread - looked it up and found that it's being replaced with PET foam because of the problems caused by deforestation (etc)
The UK's deep mines would be spectacularly uneconomic. Some have been sealed permanently (for expensive values of permanent) and the supporting knowledge and infrastructure would have to be rebuilt.
Coal makes as much sense as a modern fuel as horse drawn buses do for transport.
...and, oddly enough, coal provides over half of China's electricity supply.
I suppose nobody told them about the future, where bauxite reduction can be done w/ wind energy.
Rankine cycle efficiency can be up to 45%; monocrystalline solar panels ~25%? I suppose you aren't paying for the sunshine, but if cloudy days affected coal power, James Watt wouldn't be famous.
Luckily solar panels work for 30+ years while coal works for only as long as you burn it. You can also recycle solar panels, but try reversing entropy to get your coal back and you’ll see what’s up. Cloudy days are solved by wind, ocean energy, geothermal, storage, etc.
"Cloudy days are solved by wind, ocean energy, geothermal, storage,"
Or, as Homer Simpson famously put it..."I dunno; Internet?"
But seriously, there's no significant recycling of solar panels, coal extraction is a known process, and good luck running an industrial economy exclusively on renewables.
There’s the direct answer to your question, cost of installed grid battery storage are getting cheaper by the user and it’s completely viable option at present. It’s not some vague fantasy idea like power plants in space or something, just look at California’s energy mix during peaks that in just a few years has become dominated by solar+batteries.
For longer periods of low-sun in a climate like Ireland see the other renewable options he mentioned. Plus a couple natural gas plants for fallback that can comfortably sit idle until needed.
If some combo of renewables are used 90% of the time when possible, no one is going to be mad about modern clean-burning LNG plants compared to a toxic, expensive relic of the past like coal.
Current trends make it clear the future will be renewables, grid battery storage, and however many natural gas plants are needed for reliability based on local climate (plus keeping nuclear online if you already have it). And that “future” is pretty much here already in places like California.
If you're going to make that comparison, you need to compare apples-to-apples and include solar efficiency in the coal too. After all coal's energy originally came from the sun. Plants converted the sunlight into energy at an efficiency of about 1%. A miniscule fraction of that energy went into the plant growth, and then a miniscule fraction of that energy was captured when the plant was converted into coal.
But it is abundant in Russia, Ukraine, Germany, and Poland. Also, there is nuclear power in France.
However, Russia and Ukraine are at war. Germany is willing to go green and destroy itself. EU hates Poland and other east European countries. And EU and the rest of the world can't disassociate nuclear power with weapons.
So I guess EU can enjoy their limited and expensive green energy.
> It seems logical that ending the use of existing coal energy infrastructure puts upward pressure on prices
Only if you externalize environmental costs. The point is that coal is actually really expensive. The only real argument is how fast the implicit subsidy on these externalized costs should be removed. The world has had decades to slowly remove these subsidies and failed to do so. The impacts caused by these externalized factors are starting to stack up and so should the prices.
> Most Europe has way too high electricity prices.
Way to high compared to what? Some countries do not even have a problem with prices but with capacity (Netherlands). They would be willing to pay but they do not have the grid to deliver where the thing is needed, and it's hard to build new grids in high density areas.
> It seems logical that ending the use of existing coal energy infrastructure lead to an increase of prises.
But doesn't this depend a lot on planning and investing in alternatives rather the just closing or not the coal? Sure, if you just close one source and leave everything else untouched prices will increase, but doesn't sound like the smartest approach overall...
If it's due to tax it can't be used to advocate the pros or cons of market arrangements, since we don't know what the market would be doing in the absence of the tax.
It's because of the rules of the European Energy Market where all electricity has to be as expensive as the most expensive source.
So as soon as Germany lights up their gas powerplants, that follow gas prices (wars, etc), French nuclear electricity has to be sold for the same price.
Yes, but that's assuming that there should be a free electricity market.
The fundamental issue with electricity markets is that they cannot rely on any signal other than the electricity price to control whether a given plant will be running at a given time or not.
I think a real alternative would be to set-up an entity charged with negotiating prices with the electricity producers (which would also be a sort of partial reversal on the whole market thing in a lot of countries).
If you don't count the externalities, sure. Healthcare is a cost too. We need more holistic accounting, the financialising of everything into a tidy but ultimately false P&L column is literally killing us.
Upfront costs... then running costs (in the UK at least, it has to command a premium over other energy prices, to be profitable)... afterwards costs (in the UK no private company is on the hook for decommissioning their nuclear plants, the population will pick up that cost through taxes)...
But sure, nuclear is cheap if you ignore all those things.
Which to we ignore for coal? Cost to build a new plant? Cost to run? The decommissioning costs? (Yes we ignore the externalities, and no I don't think we should burn coal. My point is Nuclear has yet to pay its way anywhere in the world, without heavy heavy govt support - far exceeding that given to renewables)
Some figures on running costs:
Coal costs about £62 per MWh - (£31 for the coal and £31 for the CO2 premium we already charge the energy producers).
As a fossil fuel comparison, Gas costs about £114 per MWh.
Nuclear - Hinkley C will cost about £128 per MWh - but likely to be even higher when it comes online. And we will be on the hook for this price as long as it runs, no matter how cheap renewables are.
> As a fossil fuel comparison, Gas costs about £114 per MWh.
You're comparing the cost for coal as baseload to the cost for natural gas as a peaker plant. When using both for baseload, natural gas is cheaper than coal and emits less CO2.
Meanwhile renewables are cheaper than both until they represent enough of the grid that you have to contend with intermittency:
Which doesn't happen until it gets close to being a majority of generation, and which most countries aren't at yet so can add more without incurring significant costs for firming.
In other words, the currently cheapest way to operate a power grid, if that's all you care about, is to have something like half renewables and half natural gas. Add some nuclear -- even just, don't remove any -- and CO2 goes down by a lot because then you're only using natural gas for peaking/firming instead of baseload, while still having costs in line with historical norms.
The obviously bad thing many places are doing is shutting down older power plants without building enough new capacity in anything else to meet existing demand, and then prices go up. But that's not because you're using e.g. solar instead of coal, it's because you're trying to use demand suppression through higher prices instead of coal. It's easy to get rid of coal as long as you actually build something else.
>Which to we ignore for coal? Cost to build a new plant? Cost to run? The decommissioning costs? (Yes we ignore the externalities, and no I don't think we should burn coal. My point is Nuclear has yet to pay its way anywhere in the world, without heavy heavy govt support - far exceeding that given to renewables)
Yes, all three. Building a nuke plant without the additional concern for outcome that we put on nuke would be relatively inexpensive. It's just concrete, pumps, and a turbine. It's a ismilar level of complexity to a coal plant. Same with running cost, same with decommissioning costs.
Suppose we designed, operated, and budgeted every coal plant to make accidents like this a statistical impossibility. Not very unlikely, that's not the standard we hold nuke to. An impossiblity. Imagine what that would cost.
A nuke plant is concrete, pumps, fuel storage and (re)processing, a huge pressure vessel, some very complex moderator machinery, and some of the most complex industrial plant control on the planet.
Even if you ramped down the safety, it still wouldn't be cheap or simple.
"Fuel storage and reprocessing" isn't that much of the cost and a significant proportion of that is compliance costs and extreme safety measures. The pressure vessel is likewise a small minority of the cost.
Industrial control systems are fundamentally sensors, actuators and a computer. None of those is actually that expensive. Nobody should be paying a billion dollars for a valve.
Older reactors have somewhat high operating costs because they're so old, many of them were built more than half a century ago. Newer reactors often have higher costs because of the lack of scale. If you only build one or two of something you have to amortize the development costs over that many units, mistakes that require redoing work are being made for the first time, etc. Build more of them and the unit cost goes down.
Do not discount how easy that is to do. Your list is of costs not to any bottom line of a company with bean counters. Those external costs are out side the scope of their concerns. Your list of concerns would be something for C-suite types, but the pressure of stock prices again make the external costs easy to set aside.
Coal is teetering on the edge of economic viability. In the US, our coal-obsessed administration is now at the point of forcing coal power plants to remain operational against the wishes of their owners who want to shut them down as they’re no longer profitable.
The new one going to France will probably have the most impact initially, the French love to sell their Nuke's surplus capacity. The new British ones by the time they're finished should have access to British's big wind energy generation, much of which will be online at that point.
They must have been real quiet. Most the protests are related to how expensive it has become to rent / buy in this country.
Ireland has encouraged and allowed a huge number of data centers to be setup here and been very slow to implement legislation for other green forms of energy generation. We don't need dirty forms of energy production here like coal and peat just to make energy cheap. Relying on Oil and Gas leaves us hugely at the whims of the international markets.
> Ireland has encouraged and allowed a huge number of data centers to be setup here and been very slow to implement legislation for other green forms of energy generation. We don't need dirty forms of energy production here like coal and peat just to make energy cheap. Relying on Oil and Gas leaves us hugely at the whims of the international markets.
It's grid capacity more than anything which is the issue, and (like many other Irish issues) this is downstream of failures in our planning and permitting process.
Agreed. As I said in another comment it is a policy decision to rely on market forces while making little effort to reform the planning process. We should be a world leader in wind energy but the planning process holds us back hugely.
You always need some backup when the wind does not blow, although in Ireland it blows almost everyday. A deal with the UK (although Milliband has idiotically jumped way too far on the green bandwagon and prevented North Sea drilling) should guarantee that.
Real estate and energy prices are both two sides of the same coin and included in the cost of living...if you aren't aware?
Also, both of these problems are caused by the same thing: NIMBY-ism.
Modern western governments generally hate people new building new things. Whether its a renewable energy project, a fossil fuel plant, a housing development, etc. It's all the same problem.
They are the same side of the coin but one has a much larger effect then the other depending on where your are. Energy has always been expensive in Ireland and home insulation poor (though there have been lots of grants)
| NIMBY-ism.
True but it effects are much worse due to poor planning laws
Ireland is richer than it has ever been. Poverty and housing difficulties have nothing to do with reducing emissions.
Ireland partly got rich by being a massive CO2 polluter per capita. Now we are rich it’s only fair we lead in transitioning to renewables. Renewables are cheaper now than most forms of energy production. Grids need investment.
I despair at these short sighted and fairly wrong on the facts views.
Isn't that more about big tech companies using Ireland as a tax dodge, rather than a sign of average people doing well?
For less-well-off people, energy costs in the UK are a huge issue, they're more than twice what they were pre-Covid. Energy bills are second only to housing costs when it comes to the cost of living crisis. Although grocery price inflation/shrinkflation has been pretty shocking too.
21% of all energy is now being consumed by data centers with not enough investment in new forms of energy generation.
This is a policy decision by the government. More realistically it is a decision to not proactively do anything and instead rely on market prices to encourage new entrants to the market.
It's not a free market in Europe since there is vast amount of planning regulations involved etc. If you want to see free markets in action, look at the electricity prices in Texas, where ironically renewables are also the dominant source.
https://www.gridstatus.io/live
Texas is an interesting example because they allowed true unregulated rates for residential consumers. Consumers liked getting lower rates until that winter storm a few years ago had bills for some in the $thousands. Then they didn't like the free market so much.
weird, because wouldnt part of the price for electricity include the network?
Are you telling me that the electricity purchasing is like me purchasing from amazon, but but never charges shipping, or factor it into the products, and then suddenly cant ship because all trucks are used and no money to buy new?
Demand has gone up largely because of data centers. Supply has not increased enough so expensive options are the marginal supplier. Grids costs are also build into tariffs.
A very fair question and the answer is complicated. Production costs and transmission costs are separate. Also demand changes the market rate. And even if renewables are cheaper to produce in a market usually the highest price regardless of source sets the price. This is to incentivise the cheapest production methods to be invested in.
It’s a massive topic and I encourage everyone to go and dive into it. It’s endlessly fascinating and also one of the really positive stories in the world right now which can help balance your emotions in a sometimes depressing world. At least for me it does.
> This is to incentivise the cheapest production methods to be invested in.
It's also just a rule of economics. The price is set at the cost of the most expensive production necessary to meet demand.
So if solar could fulfill 100% of energy demand, price would be the cost of solar, and any other more expensive generation would either lose money, shut down or idle.
But if we shut down or idle those today we wouldn't have enough electricity, so the price rises until the more expensive plants can stay open and demand is met.
Because at the moment wind has been the winner in the Irish climate, especially when you look backwards long enough to account for the time scales over which energy buildouts occur. Renewables have grown to 40% of the overall supply, resulting in the most expensive plants (currently coal plants, and before that peat) closing. Solar is entering the market rapidly though, it grew from like 1% to 4% in the last 3 years. So I wouldn’t be surprised to see some gas plants closing in the next few years, given the more expensive options are now already gone
It is. But solar produces most around midday and then tapers off toward dawn/dusk, so it might supply 100% of demand at midday but only 10% around sunset.
If you build more solar it'll meet 100% of demand for a larger portion of the day, which is what we're doing.
That rule is a rule of free markets. Electricity is not a free market, so it only partially applies. Texas is closer to a free market, and unsurprisingly it is adopting solar faster than most.
It is not that complicated. When the energy crisis in EU happened a few years ago, it demonstrated clearly that people and industry is willing to pay a years worth of energy bills for a single month to keep lights and machine operating. What this mean is that you could in concept give people free power for 11 months, and then increase electricity prices by 12x for the remaining month, and people would still pay it.
This also demonstrated through most countries in Europe that citizens will vote to have government that fix the energy market. Citizens do not want a free energy market that can raise prices to any degree, and its their tax money that fund grid stability.
This all mean that the cheapest form of producing energy do not result automatically in reduced energy costs for consumers and companies. The product that people pay for is not energy in a pure form, it is energy produced at a given time and given location. Make the energy free but the time and location expensive, and the total cost will still be expensive.
Transmission can help Ireland, but it can also hurt it by linking it to a larger market that can create a even higher demand spikes than exist in the current local grid. If the linked grid has locations which has higher energy costs than Ireland, then Ireland will subsidize those people by linking the markets together. Rules like highest price regardless of source sets the price, and higher amount of transmissions, also tend to result in more companies getting paid to maintain operations and thus more parties getting paid that is not linked to the marginal cost of producing energy.
It's really not. Energy grids are not designed for distributed generation. In my US state, that means billions of infrastructure investment.
The people using carbon to create forcing functions to transition to renewables conveniently forget to mention that. Which sucks, as solar in particular is almost a miracle product, but at this point my delivery charges to get electricity exceed the electricity supply by 10%. 20 years ago, delivery was 30% of supply.
My state, New York, decided it would be smart to turn off the nuclear plant that supplies 20% of NYC electricity, and replace it over a decade with a rube goldberg arrangement of gas, offshore wind, solar, and Canadian imports. The solar is hampered by distribution capacity, gas was slowed down by corruption and is being limited by environmental activists, we elected a president that believes that windmills give you cancer, and of course we are picking fights with Canada now.
If you don't have competent government, that's not the fault of renewables.
This is not snark. With forward-looking rational planning the transition could have started decades ago, and we could have had a low carbon energy economy by 2010 at the latest.
But fossils make so much money they can buy the policy they want, and here we are arguing about national tactics instead of planetary strategy.
In a vast over simplfication, the most expensive producer that gets to supply sets the overall price. So even if you supply 99% from wind and hydro, the 1% of power that comes from gas sets the price for 100% of the electricity in the market.
When gas gets more expensive, electricity from gas gets more expensive. The more you have to rely on gas (because you don‘t have batteries, not enough solar, etc), the more you pay high prices.
There are different ways to address these issues. Demand side load management, batteries, etc.
Solar is priced based on gas prices as a financial incentive to encourage producers to build solar. That’s because profiting from the difference between the cost of production for solar and the cost of production from gas is supposed to be the incentive to build solar.
The gas prices went up massively in 2022 with the war in Ukraine, and even though that subsided before the war in Iran a little, the existing supply companies are not going to give back an increase in the price they’ve gained because their prices dropped.
You would have to normalize against other costs and do a deep dive to really understand. My first question would be whether electricity (commercial and residential) has become relatively more expensive than gas, beer, and other commodities. If it's the same rate then it's more of an overall inflation thing. If electricity really is far and away higher than the rest over time then one would have to look at laws, the grid, demand, and of course supply too.
> You would have to normalize against other costs and do a deep dive to really understand.
The tricky part here is that energy is an input to basically everything. It's a major (through fertiliser) input to food, and then all of transport and stocking of said food which tends to be how energy changes influence downstream inflation. So I think you'd probably need a deeper analysis to tease out these issues.
> Ireland partly got rich by being a massive CO2 polluter per capita. Now we are rich it’s only fair we lead in transitioning to renewables. Renewables are cheaper now than most forms of energy production. Grids need investment.
Sorry, what? While I agree with you about reducing emissions, most of our transition from poor to rich(er) was driven by capital light businesses. To be fair, the pharma companies did come here because we refused to regulate spillovers up to EU standards, but that's less than half of the story.
tl;dr loads of golf courses, english speaking population, smart industrial plannng and tax dodging was really how it happened.
None of those things were possible without the fossil fuel based energy underlying everything. Every single wealthy country used energy from fossil fuels to escape poverty. Some to a greater degree than others but that’s the basic reality. Now we have a way out of fossil fuels and we must take it or things will get even worse than they are already going to get anyway. And I did say it was only part of the story, albeit essential.
> Now we are rich it’s only fair we lead in transitioning to renewables
Unfortunately it's not the people/generation who reaped the rewards from cheap energy and polluting who are now being made to feel the pain of the transition.
> they know windpower and solar are not viable long term
That’s why they are installing it all over their country at the fastest pace of any country by far? That’s why they probably hit peak oil consumption?
The coal thing is complicated in China. They are replacing many old coal stations, local governments are fearful of being caught short in a cold winter which has happened. Rate of coal consumption increases is slowing. Peak coal may have happened last year.
>"China is the world's top electricity producer from renewable energy sources. China's renewable energy capacity is growing faster than its fossil fuels and nuclear power capacity.[1] China installed over 373 GW of renewables in 2024, reaching a total installed renewable capacity of 1,878 GW by the end of the year. The country aims to have 80% of its total energy mix come from non-fossil fuel sources by 2060, and achieve a combined 1,200 GW of solar and wind capacity by 2030.[1]
>Although China currently has the world's largest installed capacity of hydro, solar and wind power, its energy needs are so large that some fossil fuel sources are still used."
Seems more renewables came online than non-renewables, perhaps your take is outdated?
With its population and size, China will top production. But their coal plants have been coming up more than every other country combined. It's the percentages, not the absolutes.
People keep forgetting in all the China-posting that China is a country of 1.4 billion people, approximately 256 times the size of the Irish population, and therefore it's not really surprising when it tops a "top consumption" or "top production" list of any kind.
(second most populous after India)
Alternatively, if all Ireland was a city in China, it would not be in the list of top 50 cities by population.
While it's not surprising that's in the top, it's surprising by how much. ~1/7th of the world population, but ~55% of coal consumption is pretty unbalanced IMO. Of course, the real reason why is that China is the world's factory so the energy consumption is huge as well.
I think the real takeaway here is that the world depends on the industrial production of China, which is powered by coal. We are all using that coal to buy cheap Chinese manufactured goods, and the sooner we come to terms with this the better. Whether a single country uses coal or not is irrelevant for tackling carbon emissions, if we're all basically exporting our carbon emissions to China.
India is building 41 coal plant, China is building 289. India approved 5 more plants, China approved 405. China is building more coal power than all other countries combined including India.
This thread is crazy. guys just look at numbers first...
Believe it or not, you're both correct! China is closing more (old, inefficient, polluting) coal plants than anybody else, and opening newer ones than anybody else.
> "This argument that we have to self destruct to have the moral highground"
That's not the argument they made.
> "they know windpower and solar are not viable long term"
Thanks for the nonsensical, unsupported, right-wing talking points, throwaway account. Great contribution.
> "Web search how many Chinese coal plants came online in the last six months."
I web searched and found that "China installed a record 315 GW (AC) of new solar capacity in 2025". The entire UK national grid is currently providing 35GW of power from all sources combined. That's 1/9th of the power China deployed in just solar panels just last year. And China deployed 119GW of wind turbines in the same year as well.
And are you sure about your claim? Every time I hear anything about China and Solar the core of it is that solar in China is growing more than anywhere else on the planet ( 40% increase in 2025 and creating ~11% of China's energy already )
And that there is no sign of that trend slowing down anytime soon. And why would it. Solar panels are dirt cheap and they have more than enough space for it.
China is also really strong in the battery space, so they have everything they need to ditch oil/coal eventually
They also are building more coal, gas, and nuclear than anyone else at epic yearly increases.
That they have the internal political means to get large infrastructure projects done is laudible - they can actually build transmission lines that make unreliable energy sources like solar and wind feasible. In the US that is effectively impossible due to the NIMBY legal situation.
That they lead in battery production is going to be pretty interesting to watch. I admit I was skeptical that current battery tech could be scaled up enough to make it financially doable, but China is very close to making me wrong on the topic. If they can be the first to truly seasonal storage that works without hand-waving games like pretending you can "just use another source" when you run out of storage I'll be very impressed.
They seem to understand that you need to back unreliable sources with reliable sources - and have the political means to build a coal plant that will sit idle 95% of the time.
No other country is close - it's parlor tricks at the moment. China seems to understand how energy works, and that you need a reliable grid to run an industrial economy. They are very much being pragmatic in how they are building out everything they possibly can. The West has forgotten this.
They’re building more dirty plants than anyone, but they’re STILL making their mix cleaner at an impressive clip. Over 80% of new electric demand growth was met by renewables in 2024.
> They also are building more coal, gas, and nuclear than anyone else at epic yearly increases.
Are they really? Coal use for power generation stopped growing, so newly built coal plants are replacing older, not adding to them. Nuclear while still being built does not seem to be accelerating anymore.
There's plenty to criticize about China, but as far as energy production goes they are a leader and have demonstrated what can be done when the country is aligned (albeit by force in this case) to provide cheap and clean energy to power their economy.
The US, under the current admin, is literally the opposite of that.
if solar and wind is subsidized by europe or usa, selling solar and wind to them is great. taxpayer money goes east, everybody is happy, meanwhile china is constructing more coal plants than all the other countries combined https://worldpopulationreview.com/country-rankings/number-of...
China leads the world in solar energy, by a wide margin. Yes, they have hedged their bets somewhat with coal, but you cannot claim with a straight face that China believes renewable energy is nonviable.
Steelman: in the 2000's and 2010's China did not know if wind power and solar were viable in the long term. They put a lot of money in wind & solar, but also lots of alternatives: nuclear, coal, hydro, geothermal.
By 2020 it was obvious that wind & solar were viable long term, so investments in nuclear et al dried up. But they weren't convinced that batteries were viable long term, so they built a lot of coal peakers for night power.
By 2025 it became obvious that batteries were more viable and cheaper than coal peakers, so they've started to build battery storage at a vast scale.
So steelman is that the OP's viewpoint is ~10 years out of date.
Ireland hasn't mined any coal in 35 years, this plant was not operating on domestic resources to begin with.
Anyway your actual problem are data center buildouts that are causing demand to skyrocket. They've gone from 5% of your electrical demand to >20% in less than a decade, and are the primary cause of your electricity crunch.
And even when we did mine coal, it was a small amount, and this plant never received any of it. It was designed from the start to run on imported coal, brought in on ships, and did not even have a rail connection.
Taiwan and perhaps other Asian countries that successfully make stuff don't expose their industries to this, the government sets a fixed energy price for them rather than leaving them at the whim of speculators.
"TAIPEI (TVBS News) — Premier Cho Jung-tai (卓榮泰) announced on Tuesday (Nov. 19 2024) plans to subsidize Taiwan Power Company (台灣電力公司) with NT$100 billion to address rising international fuel costs and stabilize prices"
=> over $3bn USD! This is not a small amount of money.
You are right that Taiwan doesn't. But it has consequences, Taipower is forced to undercharge against market prices, but is backstopped by the government.
At the end of the day, it's a global market, and if you want it 'cheap' someone has to pick up the tab. Either it's taxpayers now, taxpayers in the future or consumers now.
I agree that the government should ensure low energy prices for industry, but Taiwan is a remarkably poor example.
Taiwan's energy policy is, as far as I know, the most pants-on-head stupid of any country in the world. As anyone knows, they are a small island at constant risk of a sea blockade and yet rely on sea imports for 98% of their energy. Not only that, but they _had_ more domestic production (nuclear) that they have been phasing out. Writing giant checks to import yet more oil by sea instead of boosting domestic production is a terrible idea for so many reasons.
Nuclear also relies on sea imports - nuclear fuel still needs to be imported, unless Taiwan has a uranium mine on the island. So nuclear doesn't solve the problem, it just kicks the can down the road.
You don't have to, but you make more profit if you do. An energy producer that has the choice to sell energy for a lower price domestically or a higher price internationally will obviously choose the higher price, but you can make laws to make that illegal, if you want to.
> Over the last few years, we've graduated from providing cheap energy to now importing most of our energy.
Back in days of yore (2006/07) I read a well-argued policy paper from a quango that no longer exists where it pointed out that Ireland was one of the most fossil fuel dependent nations in the world (particularly due to oil imports).
Our energy prices first spiked around the same time, to "incentivise competition" in the words of a minister of the time.
All the while we have vast, vast reserves of potential wind energy sitting unused because of (mostly) grid and permitting failures. This was and is entirely in our control, but the government(s) (even with the sad exception of the Greens) simply haven't put enough resources into it (although the grid is getting investment, we need a lot more).
Also the critical infrastructure bill will (supposedly) help, but I'm sceptical as none of this ever seems to help.
Which is to say, that I completely agree with you that the costs here shouldn't be born by the poorer people in Ireland, and we need a whole of government approach to driving down the price of energy. This will take time, but the best time to start doing this is now.
My personal belief is that we should also aim to drive down the price of land, as the two biggest costs (for many countries) are land and energy, as they input into almost everything, but reducing land prices is a lot more controversial than reducing energy prices so we should start there.
Yup, things kinda suck because of our complete failure to get our fingers out here. Again, people keep trying to build better stuff, but the planning process and our very decentralised democratic processes don't. help.
I do often wonder with this kind of thing whether an unspoken aspect of it is about not depleting the country's fossil fuels
From what I understand Ireland has very little natural gas, very little coal and a not particularly large amount of peat. If they didn't shift towards importing all of that would be gone in the very near future.
It's a bit weird how it gets branded as a solely green move when there's clearly other motives for it.
For practical purposes no coal. There are no working coal mines in Ireland, and Moneypoint would have run entirely on imported coal since it was built. It was built with a bulk handling terminal for this purpose (very visible in photos of the plant: https://esb.ie/news---insights/inside-esb/moneypoint-power-s...).
Note that it doesn't have a rail link; even if there had been the desire to use domestic coal and someone had gotten a mine going, there would have been no way to get it there.
Lots of signal that this top post is now an LLM an not "an Irish man". The generous use of dashes to complete the thought process..have a look: https://www.dcaulfield.com/chatgpt-learning-dev
Here in England we now drag the coal over on smoke spewing ships from Japan and Australia, rather than mine it here. The sum total of CO2 is higher than if we just mined it here. Net zero box ticking.
Goal-shifting aside, and be that as it may for offshoring, but Neoliberalism was Thatcher, and she was popular in part because the trade unions were seen as too powerful, which in part was because of the then-recent history of the coal miners' union going on strike and forcing a three-day week for much of British industry: https://en.wikipedia.org/wiki/Three-Day_Week
Another Irishman here, completely agree with your comment. My domestic gas and electric bills have never been higher, insane inflation for nothing more than political virtue signalling.
> Another Irishman here, completely agree with your comment. My domestic gas and electric bills have never been higher, insane inflation for nothing more than political virtue signalling.
The only part of your bills that could be regarded as virtue signalling is the carbon tax, which is driven by government regulation. The vast increases in energy costs were driven firstly by Russia (when they invaded Ukraine) and the US (when they attacked Iran).
And this hits me too, I have (unfortunately) oil heating which has gone from about 500 to 800 over the course of the last week. Fortunately we filled up last month, but it's really worrying.
Ultimately though, the only way to fix this is to build a lot of wind (industrial scale) and solar (residential scale) as otherwise we're at the mercy of world events.
An LNG terminal wouldn't help with cost (it would probably increase it a bit, if anything, as the cost of building it would have to be paid back). It's desirable from an energy _security_ perspective; as it is we are very dependent on a pipeline to Britain.
Actually it should help with both, because a on-island terminal would also provide LNG storage capacity which would buffer short-term price fluctuations. We have zero such storage.
Again, our poor decision making around national infrastructure is on our governments. They left have left us completely exposed to international markets.
A lot of it relates to the planning process, they do keep trying to build things. One could argue that this is also their fault (and I do!) but there are good historical reasons (cough ray burke cough michael lowry) why we've ended up with such a bureaucratic, byzantine planning process.
Yes, there are many problems with the planning process, but as you conceded in another comment, the actual reason that we don't have an LNG terminal is that Eamonn Ryan nixed the possibility.
As usual with the Greens, perfection was the enemy of the good.
Yeah, even though I voted (happily) for the Greens, I was very disappointed in them not building an LNG terminal, purely for energy security reasons. I'd be super happy if it never got used, but it's a cost worth paying just in case.
American energy exports are turning around in the mid-atlantic to go somewhere else instead because Europe is getting outbid.
"My energy prices are high" because you are getting outbid. You can't stop getting outbid by building more transport infrastructure. That terminal will go unused.
An LNG terminal would not help for the current high prices. Europe is experiencing a gas price shock precisely because LNG is easy to store and transport. Asia gets half it's gas through the Strait of Hormuz, which is currently experiencing troubles. This means Asia is willing to pay a lot of premium for LNG, which in turn means that Europe has to match this premium otherwise LNG will go to Asia and not Europe.
Being dependent on gas is equal to being exposed to global shocks, unless you can cover your domestic needs purely with domestic gas extraction.
> Ultimately though, the only way to fix this is to build a lot of wind (industrial scale) and solar (residential scale) as otherwise we're at the mercy of world events.
I'd add that this is only part of the equation because: what do you do on an overcast day with no wind?
You need significant storage capacity before you can become isolated from world events. Until then, you need power generation that you can bring online on short notice: coal, gas, hydro, etc. Traditionally, gas was used for this because it's easy to store, quick to get going and gas plants can also burn coal if needed.
Unfortunately, the nice properties of gas (easy to store and transport) mean that it's a global commodity. It will go where they pay the most, which means that far away events can cause a price in gas prices globally.
> I'd add that this is only part of the equation because: what do you do on an overcast day with no wind?
Battery technology is really, really getting there.
And in the absence of any more improvements here (unlikely) you integrate your grids with other countries. That's harder for Ireland, but it's still worth doing.
Does this battery technology grow on trees in Ireland, or does it exist in a foreign (and perhaps one day adversial) nation, like China?
The sheer number of people in this thread saying, "we need renewables to be independent!", from countries that don't actually manufacture anything, is astonishing.
Carbon taxes are huge, and they are 100% politically imposed.
And they're often disingenously included in fossil fuel pricing to claim that green energy is fundamentally cheaper.
I believe in climate change, and I believe in doing something about it. But being disingenous with the public is only going to create resentment and resistance to Net Zero.
> And they're often disingenously included in fossil fuel pricing to claim that green energy is fundamentally cheaper.
There’s nothing unreasonable about this: fossil fuels have huge costs associated with them that are invisible to the consumer. They’ve just been getting pushed off onto other people forever.
Don't let the populist sentiment gain you, this has nothing to do with environmentalism. You want a scape-goat? Blame the decades of neoliberalism that led to such under-investments in our public infrastructure.
Even if you ignore the climate impact, fossil fuels pollution causes millions of premature deaths a year, and unlike with global warming, that effect is localized. That alone should be reason to transition off of fossil fuels, especially coal which is the dirtiest.
Coal is the most expensive form of power still widely used and it's not even close.
Coal is literally just bad. It's hard as hell to transport, it's extremely inefficient to burn, and it produces a shit ton of harmful byproducts you have to clean up.
We never had particularly cheap energy. The recent increases in energy cost were largely driven by gas price increases due to the war in Ukraine.
> we've graduated from providing cheap energy to now importing most of our energy.
... Eh? We've always imported most of our energy. Or, well, okay, since about the mid 19th century we've imported most of our energy. All coal used in Moneypoint was imported. We do produce some of our own gas, but it is not and never has been enough. The fraction of energy that we import has actually fallen somewhat due to wind and solar.
Electricity generated from peat peaked at 19.5% in 1990, apparently.
And that's far outstripped by the current figure for renewables (42% in 2025) - so renewables have enabled locally-sourced production to reach more than double the share that was ever managed in the peat-burning days.
(And the comparison is actually even better than it seems at first glance, given that the 2025 figures are all-island and the peat figures would be 3 or 4 points lower if you included NI. A good chunk of the 23.2% imports can probably also be classed as renewable, given that GB had a 47% renewable mix)
Ireland hasn't mined coal at all for about 40 years and _never_ really mined any significant part of its usage; even in the 19th century Ireland imported coal. Moneypoint was designed from the start to run on imported coal; it had no rail link, and a bloody great bulk-handling port attached to it. Getting rid of Moneypoint actually increased energy security (we do produce _some_ of our own natural gas, and the renewables don't require imports).
It's a marker of low IQ populism to believe things are simple and that the elite/technocracy/whatever is trying to hide that truth from us while making sure to never research why that might be so that they can keep on playing the blame game.
No if you allow to exit the simplistic low/high IQ paradigm you set up, I just can't take seriously comments like this who have not even started to try to show that they have any grip on the subject at all. Heck you haven't even tried to assess the quantity/availability of Ireland's "own resource". Do you seriously want Ireland to relay on peat ? How long would that last ?
On the one hand there are scientists who say it is happening.
On the other hand there are sock-puppets for oil billionaires who say it isn't happening.:
"Established in 2015, the CO2 Coalition is dedicated to “educating thought leaders, policy makers, and the public about the important contribution made by carbon dioxide to our lives and the economy.” The Coalition has received funding from the Koch brothers — the right-wing libertarian U.S. oil billionaires who have been at the heart of climate change denial in the United States"
The real insanity is to keep burning that coal, that we know will render large part of the Earth uninhabitable if we don't stop ASAP. Also, it's more expensive than cleaner energy. You want a culprit so bad? Blame EU neoliberalism whose auterity has diverted important, necessary funds from our energy grid and left us in this delicate position.
So glad you're taking the hit for the rest of us. Your sacrifice is totally worth the .001% difference you make, every little bit counts.
Why is it people can clearly see the recycling scam for what it was, but the idea of coal or carbon fuels makes them entirely unable to handle any sort of thinking that isn't entirely superficial and one-sided?
Maybe, like everything else in life, it's a complex series of tradeoffs, costs, and benefits, and you decide whether the cost is worth the benefit.
And if a policy being pushed doesn't make sense when all the costs and benefits are accounted for, then someone is doing something shady and making a shit ton of money, especially if there's a huge amount of smoke and mirrors and politicized talk.
Ireland's being used for things and it's obvious those in power don't care about and don't think the Irish people being affected by these sorts of policies can or will do anything about it. As that largely seems to be the case, I have to wonder if we're going to see a repeat of what seems to happen every time a government thinks that about the Irish and takes advantage of them.
Another Irishman here.
Stop trying to harken back to some notional "good old days" that didn't exist. People are better off than they've ever been.
Energy was always expensive relative to income. When I was a kid in the 80s, we weren't allowed to turn on the central heating unless there were arctic conditions. The main issue driving COL issues is the complete lack of social housing construction for the last 15 years. You can't blame the tree huggers for that. Renewable energy is a matter of national security, and prevents our hard earned money being sent overseas to regimes like Russia and all the charmers in the Middle East. Our very first electricity plant as a free state was hydro ffs.
I have never been to a country where the wind blows at plus 60kph for months at a time (Wexford). I don't think I have ever been there in the last 20 years where the wind has not been howling, the potential for Wind Power there is insane.....
Hey you're still better than Germany that closed all their eco friendly power down and started importing so much energy it's had an effect on prices in Sweden!
I mean, at least you shut down the coal plants, those are legit bad for the environment. Germans shut down nuclear which is clean.
Their comment is kinda nonsense, tho. Every single lump of coal burned in Moneypoint over its operating life was imported. We don't have significant coal reserves, and Moneypoint was designed from the start to run on imported coal; it does not even have a railway link.
Their comment is talking about a wider context than this single coal power station.
In the UK, Net Zero politics means we are killing our own North Sea fossil fuel extraction, only to purchase North Sea fossil fuel from Norway, at an increased environmental (and financial) cost.
That's the kind of political lunacy the OP is aluding to.
Okay, but do you have any examples of such alleged lunacy in Ireland? Ireland has no economically exploitable oil or coal, and what gas there is is largely exhausted.
For Ireland, it's not so much the sourcing of fossil fuels, but the imposition of political taxes on fossil fuels onto consumers.
About 50% of the retail price of petrol in Ireland is tax (excise + carbon + VAT).
Overall fuel taxation in Ireland is ~50%, compared to 15-20% in the US. Although to be fair, most of Europe is doing the same thing to its population (during a cost of living crisis).
Ireland isn't importing most of its population. Have you been scrolling social media too much? You know anyone can write anything they want on there, right? Lol
Just for the record, neither of these things is suicidal. There are many prosperous countries importing energy and allowing foreigners to settle. Probably even most of them.
You did not provide any fact supporting the 'suicidality' of anything, or even any definition of 'suicidality'. Also narrowly defined ethnicities are not humans, they cannot commit suicide.
Same in the UK. Instead of us generating electricity via coal, we get other people to do it less cleanly and import it instead. That way our hands are clean.
ChatGPT : "tell me about China use of coal energy"
"China is by far the largest consumer and producer of coal in the world. Coal has historically been the backbone of China’s rapid industrialization and still plays a dominant role in its energy system."
- ~55–60% of China’s electricity comes from coal (varies slightly year to year).
- China consumes more coal than the rest of the world combined.
- Annual consumption: roughly 4–4.5 billion tons per year.
- China produces about 50% of global coal output
The west suffers while China does whatever it wants, at a Grand Scale.
Yes, China consumes a lot of coal. But they are trying to consume less. You cannot ask a developing country to go back on its merging into the first world by consuming less energy or investing in more expensive sources only. We westerners are here because we grew on cheap and dirty energy, what moral ground do we have to ask them to stop growing?
Coal was almost 100% of China energy consumption only 15 years ago, with a bit of hydro. Today they are very aggressively shifting towards anything but coal, as you found in ChatGPT, to less than 60% of coal in the mix. For comparison, the US is almost at the same point today than 15 years ago, only significantly replaced coal with more gas. A country that is consuming about the same amount of energy since 2000, while China consumes 5x.
Great to see, hopefully they can end turf burning too. (For those unaware it's basically where you take a wetland habitat that's also an amazing carbon store, cut it in to chunks, dry it out, and burn it for a very dirty heat source)
It will virtually end when it is no longer economically advantageous. In my mother's hometown in Mayo, most home heat was solid fuel, and it's gradually turning to electric heat pumps. The other alternative, heating oil, is very expensive and not renewable, but also used a lot. I think the turf is starting to run out because the use of it has gone way down. Either that or fewer homes have a legacy parcel of bog.
Unfortunately I think that's going to be very, very hard to sell to many people here in rural Ireland (Roscommon in my case). I would really love to see people stop burning turf but it's such a strong cultural thing that in some parts you'd be ostracised for even thinking the thought.
I've personally spoken to people (who are otherwise quite environmentally aware) who suggest they'd never vote for the Green Party because they'd take their turf away. It's a tough sell.
How much impact does it realistically have on climate change? I would expect it to be relatively small compared to things like owning a car?
In a perfect world we would want to reduce emissions as much as possible in every facet of life, but in the real world I think we should pick battles that have the biggest impact.
I think the domestic heating use is a drop in the bucket compared to commercial extraction of peat for export, or historical use for electricity generation.
I've only so many shits to give, and people heating their homes doesn't rank.
People heating their homes can be very sigificant. In the UK ~15% of all its territorial GHGs come from heating with gas: actual CO2 from the home boiler flues.
CO2 from small amounts of rural home heating is probably not the big thing to be worried about, especially if local recent biomass, eg wood from forest management. But there are still nasties (PMs, biodiversity losses, etc) to be considered and that should be dealt with in due course.
On cold mornings you can see the wood smoke hanging over the town of Taos New Mexico. It's easy to see even a little bit of haze in the otherwise crystal clear air. Taos is in general a very environmentally conscious place. The KTAO radio station has been solar powered since the early 1990s. It also has a significant population of low wage tourism industry workers.
If you use Renewable Energy Sources, it may happen there will be no wind or no sun. So you need some auxiliary source of energy. If you want it at hand, this must be something with fast cold start. So black/brown coal power plan will not help you, similarly nuclear. You need to burn either gas or "biomass", that is wood/turf, etc. Those power plants have about 1h cold start.
Hence, in order to have RES you need to emit CO2. Deal with this. The other option, and UK goes that way, is to purchase electricity when it is lacking, paying spot prices, that's why they have such a big electricity bills, economy is down, people get mad and vote psychos.
The solution is dead simple, as France example shows. Simply use nuclear power plants and does not bother with RES, as it does not make any sense now.
Maybe, when we have technology to store efficiently electricity at scale, we can start using RES. But we just do not have that.
The end result now is that electricity in Europe is the most expensive on the World, so all manufacturing is moved to Asia, who does not bother with climate that much, that's why, despite all Europe efforts, overall CO2 emission keeps growing.
> If you use Renewable Energy Sources, it may happen there will be no wind or no sun
I still find it staggering that people feel like this is something that needs to be said as if it’s surprising or a novel idea. Do you really believe smart people haven’t been working through these challenges for decades?
Yet somehow we don't need a similar reminder for the possibility of fossil fuel power plants running out of fuel after a short time if not regularly restocked. Why is it worth bringing up one, but not the other?
> If you use Renewable Energy Sources, it may happen there will be no wind or no sun
If you have to import fuel, it may happen that no ships can get through. Or the fuel becomes too expensive to buy because of war, natural disasters, or market forces. Ain't nobody turning off the sun or wind.
> Maybe, when we have technology to store efficiently electricity at scale
Battery storage that works at grid-scale is a fairly recent technological innovation. It's good that humanity figured out this technological innovation, and demand for better battery technology from the smartphone and electric car revolutions had a lot to do with it. But battery storage is still expensive and relatively-new physical infrastructure that takes time and expense to deploy at scale, and it's still in the process of happening now.
> If you use Renewable Energy Sources, it may happen there will be no wind or no sun.
Yes, but this rarely happens, so any potential solution should be designed around it being idle 99% of the time.
> Those power plants have about 1h cold start.
Gas turbines can spin up significantly faster. However, the weather is quite predictable, so it is unlikely that this will be needed. Besides, battery storage is the perfect solution as an ultra-fast ramp-up holdover source until the turbines are at 100%.
> Hence, in order to have RES you need to emit CO2.
Or you equip the handful of gas turbines you use to make up for that 1% gap in renewables with carbon capture? It's not ideal, but it is very much doable.
> Simply use nuclear power plants and do not bother with RES
... and have your electricity be even more expensive?
Pumped storage hydro is extremely cheap and efficient and has been around for more than a century. LiFePo4 batteries are now cheap enough that they're a cost-competitive alternative. Flywheel storage plugs the inertia gap nicely.
The tech exists - it's mostly just a matter of political will. The economics already justify it. People are making considerable money by starting up BESSs (Battery Energy Storage Systems) and doing time arbitrage on energy.
cf. Iberia, who recently learned that effective storage and intertial pick-up is integral to a stable and efficient power network, and are now spending heavily on both.
It's a pipedream. Yes it's cheap and efficient, but it requires the geography and the will to destroy a local ecosystem.
BESS is what will ultimately win. It's pretty energy dense and it can be deployed on pretty much any junk land location. The only fight you'll have is with the neighbors who don't like it.
My power company, Idaho power, is deploying a 200MWh BESS on a slice of land they've owned for decades near one of their substations. The hardest part has been the permitting (which is now done).
To cover Europe's need you only need to build 70 1.5 GW hydroelectric stations at a cost of $92 billion (in reality much higher) while greatly damaging ecology in large areas.
This source also offers an option of $1 Trillion USD to do it with battery storage.
All of Europe. $1 Trillion USD. Oh, and that figure has already fallen by 1/3rd in reality and the article claims it should drop by half again.
And that seems to be assuming you only have wind power as input. The long lull periods that drive the high storage requirements are, as that article claims, caused by large high pressure air masses. High pressure systems like that often come with clear skies! Indeed, go look at weather history for that same 2015 period and you see that the skies were calm and clear, and precipitation was about half the "normal" amount for that time of year. While there is perfect correlation between a windless day and a night without sunlight, battery to get you through the night is trivial and solved far more cheaply than this article seems to understand. Enough battery to maintain 24 hour output for a solar farm is cheap enough to compete with fossil fuels. Long term, wind and solar do not correlate, so it's very rare to have long lulls in both at the same time.
So this article is leaving out important details and also is way more pessimistic than even it admits is true.
That also ignores that even in the "lulls", wind never seems to go to zero, so even in lulls, you can always just have more wind. Building 10x as much wind as you need is not as feasible as building 10x as much solar as you need though IMO.
Oh, and a very very very important fact: Renewable generation is almost entirely a one time cost, or one time every 30ish years on average. OPEX per kilowatt hour is dramatically lower than fossil fuels. In fact, today Europe imports 10 million barrels of crude oil a day, and at $100 a barrel (a number which will rise quite a bit in the coming months), Europe spends $1 Trillion every few years.
Europe's current energy spend is to buy an entire continent's worth of energy storage and just turn it into CO2 every few years. Every single day of crude oil import, Europe could instead pay for one of the Coire Glas model plants this article is doing the math with.
Storage is beyond feasible and will reduce energy costs.
Note: This article is about making wind energy constant over month long time scales, not about building enough storage to power Europe durably, so that explains some of it's misses, but also doesn't really explain much. The 2.1 TWh of storage it suggest would be enough to power all of Europe for 8 hours a day.
> this must be something with fast cold start. So black/brown coal power plan will not help you, similarly nuclear.
Nuclear plants provide base load and they are extremely fast at ramping up/lowering production. All modern nuclear plants are capable of changing power output at 3-5% of nameplate capacity per minute: https://www.oecd-nea.org/upload/docs/application/pdf/2021-12...
You don't shut down power plants. None of the power plants ever do a "fast cold start"
> The end result now is that electricity in Europe is the most expensive on the World, so all manufacturing is moved to Asia
The production moved to Asia due to extremely cheap labor, not due to electricity costs.
5% per minute is not extremely fast. Simple cycle gas turbine (peaker) plants routinely go 0 to 100% in less than 10 minutes. Nuclear plants can only hit 5% per minute in the 50 to 100% interval (per your own source).
And all of this is confused by the way the nuclear industry uses the term "load following". You'd think it means "changing the power output from moment to moment to match electricity demand" but for nuclear plants it means "changing from one pre-planned constant level to another pre-planned constant level, up to four times per day".[0] There are only three[1] sources of electricity that can be ramped freely enough to exactly match demand: hydro, simple-cycle gas turbines and batteries. All electrical supplies will need some of those three mixed in. Which is why France is still 10% hydro and 10% natural gas in their electricity supply.
0: Some of the most modern Russian plants can move to +-20% of their current target at 10% per minute, but "the number of such very fast
power variations is limited, and they are mainly reserved for emergency situations." per your source.
1: OK, there are some obsolete ways too, like diesel generators. At least obsolete at the scale of the electricity grid.
> You'd think it means "changing the power output from moment to moment to match electricity demand" but for nuclear plants it means "changing from one pre-planned constant level to another pre-planned constant level, up to four times per day"
Which is clearly invalidated by the very source I provided, and which you then somehow quote back at me.
> "the number of such very fast power variations is limited, and they are mainly reserved for emergency situations." per your source.
Imagine if you didn't omit the full quote/context:
--- start quote ---
Also, AES-2006 is capable of fast power modulations with ramps of up to 5% Pr per second (in the interval of ±10% Pr), or power drops of 20% Pr per minute in the interval of 50-100% of the rated power. However, the number of such very fast power variations is limited, and they are mainly reserved for emergency situations.
--- end quote ---
Oh look. What's limited is an actual emergency ramp up of 5% per second or power drops of 20% per minute.
Which is literally an emergency that is not needed in a power grid.
For the foreseeable future, building enough nuclear for peak capacity is exceedingly expensive.
> None of the power plants ever do a "fast cold start"
Somewhere in each grid you will have “black start” capacity contracts, dunno if nuclear can fills this role (or if grids exclude nukes for one reason or another).
Plenty of peaker plants built with the intention of running double digit hours per year and therefore the tradeoff supports being largely “off” in between those calls. Batteries might fill that gap.
> Nuclear plants provide base load and they are extremely fast at ramping up/lowering production
The obvious counterexample is Chernobyl, where a big contributor was the fact that they were unable to scale it down & back up as desired. Yes, nuclear reactors can scale down rapidly - but you have to wait several hours until it can scale back up!
Besides, the linked paper only covers load-following in a traditional grid (swinging between 60% and 100% once a day) and barely touches on the economic effects. The situation is going to look drastically different for a renewables-first grid, where additional sources are needed for at most a few hours a day, for a few months per year.
> You don't shut down power plants. None of the power plants ever do a "fast cold start"
The answer is you don't scale nuclear up or down, it's a silly waste of time and effort to even think about it. The fuel costs are effectively a rounding error, so running at 100% 24x7 is the only way to ever think about how nuclear should operate.
If you are going to curtail, you curtail other sources including solar and wind.
Nuclear fits quite well for the baseload you need. It's more expensive, but if you are going to need X capacity 24x7 and build nuclear, you simply build enough to provide just that plus perhaps a few extra for redundancy when another one goes offline. Then use gas peakers for the "oh shit" days difference between what nuclear is providing and solar was expected to but could not.
I don't understand the fascination folks have about nuclear not being able to following the grid. They don't need to, since they only ever remotely make sense when operated 24x7 at 100%. If you always have 1TW of grid usage every night during your lowest usage period - build that much nuclear as your starting point and figure out the rest from there. Nuclear's share of the total mix should be a straight line on a graph outside of plant shutdowns for maintenance.
You mean the obsolete design that is not used even in old reactors, not to say of modern designs?
Quote:
--- start quote ---
The minimum requirements for the manoeuvrability capabilities of modern reactors are defined by the utilities requirements that are based on the requirements of the grid operators. For example, according to the current version of the European Utilities Requirements (EUR) the NPP must at least be capable of daily load cycling operation between 50% and 100 % of its rated power Pr, with a rate of change of electric output of 3-5% of Pr per minute.
--- end quote ---
> The situation is going to look drastically different for a renewables-first grid, where additional sources are needed for at most a few hours a day, for a few months per year.
Because there is no place for nuclear waste in Europe? Especially not on smaller islands like Ireland. Why do Americans hate the idea of cheap renewable energy?
30 years of anti nuclear propaganda. They should all be like France, what a dream to have almost all of your electricity coming from a stable, essentially perpetual source.
I think it is unfair to specify safe here, as probably all nuclear powerplants are considered safe until they are not, including Fukushima. But plenty of European countries are either building or planing nuclear new nuclear power reactors, and Finland just opened a new reactor in 2023.
But the simple matter is thought that the economics of nuclear power simply are not delivering. They are expensive and slow to build, while at the same time wind (particularly off shore wind) and solar are getting cheaper and easier to build every year (or month even). Germany also stands out as a success story of nuclear phase-out, that by replacing these expensive to run nuclear power plant has offered the economic wiggle room to phase in renewables a lot faster then otherwise.
There's a declaration that a 915 MW power-plant was removed from the grid, and moved to emergency status only.
However, every other number in the piece is mentioned as some multiple of Wh's (GWh typically). That makes it very hard to tell what proportion of capacity was removed from the system as a proportion of the total generating capacity. I think the writer might have served us better with the use of some helpful percentage comparisons.
AIUI it’s barely been operating for about a decade. Even before it closed (nearly a year ago; this is an old article), most days the eirgrid dashboard showed little or no coal in the mix.
Our goal shouldn’t be to be coal free. Our goal should be to be 100% renewable.
If we set up our goals in terms of what we don’t want, we end up in the situation we are right now: high energy costs, very dependent on energy imports and a high risk of loosing our industry
No, our goal is to reduce CO2 emissions as quickly as possible.
Shutting down coal plants is a quick and easy win, as pretty much every possible replacement is less polluting. It might even make sense to replace them with gas turbines: base load today, peaker plant tomorrow, emergency source later on.
Reducing is frivolous today. We will break through the tipping point in 2030. This will be the coolest century this millennium. There's no way to stop it. We needed to shut down emissions years ago. The only thing we can do proactively is invest in moon-shot tech such as fusion and ocean wave generation and wait for the planet to recover.
> This will be the coolest century this millennium.
While you are making predictions 975 years out, could we see your projected graph of human population? Time estimate for establishment of a permanent extraterrestrial colony?
I am not sure it's a matter of how you frame the issue, to be honest, although I have seen this argument used quite a lot.
100% renewables is the exact opposite of "100% non-renewables" and that's including also oil, gas, etc. So "coal" is only a part of the 100% non renewables, but it seems your goal is to get rid of all the non renewables.
And here the question is: why would you want a single goal? Why 100% renewable?
What drives us should be: save where it makes sense, don't where it doesn't. Iterate every 10 years and recheck.
All these single radical goals are literally killing our economy and society. And I am not just talking about coal free or renewable.
Even the "let's tear down the windfarms" is dumb because it's radical and non sense.
Or unrelated, even this "we need to digitalize everything" (although given our jobs we would profit the most) can lead to a lot of problems (privacy, security, etc).
I don't know why we have become so radical in the last 20 years.
> And here the question is: why would you want a single goal? Why 100% renewable?
Overlapping goals can coexist on varying time frames.
Setting aside nuclear (technically not "renewable", but also not carbon-based, and very energy dense) the goal is to stop releasing CO2 into the air from energy generation and return to pre-industrial levels.
This is because the surplus of CO2 generated so far has already caused clear and undeniable problems (not all of which are yet fully realized), and continued excess will only make things worse.
> What drives us should be: save where it makes sense, don't where it doesn't. Iterate every 10 years and recheck.
Solar is already economically competitive in many places and is expected to improve further.
Coal is about as dirty as it gets (besides peat and lignite). _Even if you were not reducing CO2 output_, getting rid of coal would be greatly beneficial as you'd reduce COPD and other lung diseases.
Just last week they were talking about the future of Irelands energy generation, and the pressure between now and 2028 from data centers and EVs. Reopening moneypoint as a backup has been discussed. It's been kept as a oil fired backup station, but given the current surge in oil prices I could see it turning to coal again.
I really hope they just turn heavily toward renewables. We have enough offshore wind in Ireland to power most of the world, if we could just build enough turbines and harness it. We could become a net exporter of green power
> The new analysis for Carbon Brief shows that electricity generation from coal in India fell by 3.0% year-on-year (46 terawatt hours, TWh) and in China by 1.6% (90TWh).
Seem to be on their way. Solar power is cheaper than coal now for some projects. In 10 years coal will be entirely obsolete. Though of course phase out will take longer
1. There are coordination issues that have caused them to overestimate the need for such plants, which have been running at low capacity. There have also been perverse incentives to build plants that weren't needed, in order to placate the relevant stakeholders.
2. Battery storage (including pumped hydro) is being pursued aggressively, specifically (among other things) to address the reliability concerns that motivated the recent new coal plant construction. Government policy, furthermore, is clearly focused on "new energy", i.e. not fossil fuels.
3. Coal power generation in China has been level or declining for a little while now. Generation from new renewable plants is outstripping the overall increase in demand for power. There is a graph titled "New coal power has no predictive value for future coal power generation".
4. Historical, global evidence shows a persistent trend of capacity reduction lagging behind generation reduction. As should be expected. It takes effort (= money) to decommission a power plant, and an inactive (or less-active) one is a safety net. "In most cases, what ultimately stopped new coal power projects in those countries was not a formal ban, but the market reality.... In China, the same market signals are emerging: clean energy is now meeting all incremental demand and coal power generation has, as a result, started to decline."
5. As a share of total power generation, coal power in China has dropped substantially (from nearly 3/4 to scarcely half) over the last decade or so. In absolute terms, it is likely near or even past the peak.
6. The article concludes: "While China’s coal power construction boom looks, at first glance, like a resurgence,it currently appears more likely to be the final surge before a long downturn. The expansion has added friction and complexity to China’s energy transition, but it has not reversed it."
You asked:
> So are China, generally shifting away from coal?
Your own source clearly argues that they are, in fact, shifting away from coal. Presenting an article that refutes you as if it supported you, while employing this style of repeated "pointed" questions, is disingenuous and obnoxious.
Not sure how this refutes my rhetorical question whether China are building more coal power stations. Nothing disingenuous about giving an answer deliberately picked from a source favourable to the carbon scare mongerers. As for obnoxious, I replied in the manner the question was asked.
There's a lot of misinformation and misunderstanding of the global energy supply presented around me nowadays. I would urge anyone to stop what they're doing and read "Clearing the Air" [1]. It's completely reshaped my understanding of this problem, and I am far more optimistic after reading it.
It addresses key questions such as "What about China?" and "Can we stop it?"
Ireland is a net energy importer who imports electricity from Great Britain. She, in turn, often imports from nations including France, Holland, and Denmark, who use coal power.
As such, it's not really the whole story to call Ireland, "coal-free". It's the same as America outsourcing heavy manufacturing or chemicals to China and claiming environmental victory. It's true in a narrow construction of the concept; it does reduce the burden on one's own country. It is false in the sense of one's contribution to the global commons and externalizes those externalities previously more internalized. It is, in other words, a shell game. Ireland's dependence on imported energy continues to rise and the number continues to tick up on the books of other nations and down on hers, with her people paying the "guilt premium" associated with this accounting trick. They're not exactly dirty grids, but the fact remains, Ireland still relies to some extent on coal.
Also note that, though she is building OCGTs and fast CCGTs elsewhere, she converted Moneypoint not to gas but to heavy fuel oil. HFO is quite dirty stuff, only a dozen or so per cent cleaner than the coal it replaces per Ireland's own EIS. This is likely influenced by the fact that the plant was specced to burn some of the cleaner thermal coal on the market, largely from Glencore's Cerrejon mine, with pretty low sulfur and ash relative to others. So, the delta from relatively clean coal (excuse the expression) to some of the dirtiest oil; large boilers like that are likely burning No. 5 or 6, aka bunker B or C in marine. Not sure if you've ever seen (or smelled) this stuff but it's the next thing from tar.
Ireland could instead have chosen to pull in gas from the North Sea and reduced the emissions of Moneypoint by not twelve but fifty to sixty per cent with modern CCGTs. Even older, more readily-available OCGTs would give thirty to forty per cent. This is ~250mmcf, i.e. probably a 24" spur line. Though this likely necessitates a few hundred km of loop for the ring main to the west, it's less than a year's work with a competent American crew.
Instead, she chose a paltry twelve per cent a few years earlier; when the other gas peaker capacity is installed, cooling infra and existing thermal plant talent base while paying to reconstitute all those on the other side of the island.
None of this is to say Ireland's work on decarbonizing her grid isn't real, but "coal-free" rather tends to obscure the present state of things; it is generally understood to make a strong, binary truth claim that isn't subject to "mostly" and implies one is no longer dependent on coal. It therefore demands consideration of electricity's fungibility in a grid.
Ireland is building the Celtic Interconnector with France next, will import a lot of her electricity from there which predominately uses nuclear power to generate her electricity. I fear you're making perfect the enemy of better and genuine progress.
I'm not the enemy of this progress at all and think it's a good thing. Same goes for the Celtic Interconnecter, though. My point is basically a) "coal-free" is misleading and this progress can be framed in other ways, and b) Ireland would have been better-served in terms of cost and environment to rely on even OCGTs than HFO.
Ireland imports less than 10% of it's electricity from the UK. The UK _already_ decommissioned it's coal-based eletricity production. The UK imports roughly 14% of it's electricity, and most of those imports are from nuclear and hydro-electric power.
No, it isn't. Power in a grid is fungible so grids operate based off consumption-based accounting. Britain continues to import at times from countries still burning coal. As such, Ireland is not free of coal dependence. It's really that simple. It is accurate for Ireland to say she no longer directly burns coal, no longer operates coal power, but the common understanding of "coal-free" is, "we are no longer directly dependent on coal for our lights to turn on." That simply isn't the case.
The way to think about this is, "If the grid had zero reserves and coal cut off, who could POSSIBLY go down?" You may figure this is constructed, but in a few days' dunkelflaute, Ireland needs her interconnects. Wind is then possibly low across much of Europe, meaning Holland and Germany ramp dispatchable capacity, including German lignite.
I saw nobody making those arguments. Most people were thinking that Ireland doesn't burn coal anymore. People who think or care about this stuff know that interconnects exist.
Ireland is not industrialised in a similar way to other EU countries like Germany or Italy which has lots of heavy manufacturing. Irish industry is mostly composed of US pharmaceuticals and data centres occupying much of the energy demand. There is a bauxite facility in limerick which does come to mind but that sort of thing isn't common in Ireland.
Dirty power generation, and dirty toxic hazardous industry in general, discriminate against the poor and minorities. That carries an enormous social cost that goes uncounted in discussions like the ones on this thread.
Nuclear discriminates against capitalism. The cost makes the choice of nuclear irrational. The inability to insure nuclear in the private market makes it a travesty of free markets.
The top comment currently on this post is talking about the cost impacts being transferred to the poor and middle class with lots of discussion. I think people are well aware of and discuss the social impacts.
They discuss "social impacts" from the point of view that dirtier power is cheaper, supposedly, hypothetically, net of externalities, while ignoring the cost dirty power inflicts on the people living near the dirty power generation.
Definitely a step in the right direction, but believe it or not-- I overheard a customer in Aldi asking for coal only last week! I couldn't believe it, the staff member didn't know where to send them
A lot of these plants were built in the 70s-90s and were expected to run 40–50 years. Instead many are shutting early because renewables plus carbon pricing have simply made them uneconomical
They'd be better off with (and are building out) offshore and onshore wind. If you've ever been to the west coast of Ireland you'll know they've got almost unlimited wind energy. The country is targeting 5GW of capacity by 2030 and 37GW in the distant future[1].
If only they could harness the power of rain, Ireland would truly be an energy superpower.
> If only they could harness the power of rain, Ireland would truly be an energy superpower.
I know this is in jest, but that's basically "dam up some valley rivers and put a hydroelectric generator on the end", and unfortunately Ireland isn't so good for that. (It's not just the physical geology, it's also all the people living in the places you'd flood).
Hydro as a battery is easier and works in far more locations, but that's not harnessing the power *of rain*.
But yes, Ireland and the UK have an absolutely huge wind power resource available around them, IIRC enough to supply all of Europe if the grid connections were there to export it all.
There has been a lot of proposals to dam up massive unpopulated sea-facing valleys in Mayo and Donegal and use pumped hydro with seawater. Was a bit topic 15 years ago, but never happened. All that happened was the silvermines pump hydro plant that seems behind schedule.
Ireland briefly had the biggest hydroelectric dam in the world until the Hoover dam was built… but that was before electricity production really took off. Ireland doesn’t really have the geography for dams, the hills and rivers are far too small.
Onshore wind in England was de-facto but not de-jure banned by the Tories in 2018, due to a footnote inserted in their National Planning Policy Framework. Labour removed this footnote in 2024, immediately after winning the election. [0]
Offshore wind was never affected, nor onshore wind in Scotland, Wales or Northern Ireland.
Well, Tories would argue that you can't get the really big turbines onshore that you can offshore, so it doesn't really matter. Tiddly little turbines don't generate that much, and why spend lots of money on the planning process and fighting NIMBYs when you can generate it offshore?
However, it does matter, when looked at in whole with the need for capacity in the National Grid. A pile of turbines across SE England would have really helped, because a lot of the offshore wind and Scottish wind power has to be dumped, and gas generators fired up instead, due to lack of grid capacity to distribute that power across the country.
We should, of course, have completed upgrades to the grid by now, but they're late.
The 'sell electricity to Ireland' bit here is doing an awful lot of work. It's more complicated than that.
For those who don't know, Ireland operates an all-island grid, and EirGrid (the grid operator for the Republic) owns SONI (the grid operator for Northern Ireland). That means that 'UK' and 'Ireland' in this has a large Northern Ireland shaped lump of ambiguity that statement.
It shouldn't be that complicated. The UK sells electricity to Ireland (and vice-versa?) in the same way that Belgium, France, the Netherlands, Denmark and Norway sell electricity to the UK, and vice-versa.
Don't tell me EirGrid's EWIC that comes onshore at Dublin and Greenlink at County Wexford are an "NI-shaped lump". They are sources of electricity for the whole island, when it's needed, just like the UK's interconnects with the continent.
Tories during 2015-2023 made construction of new onshore wind farms all but impossible (removed subsidies and made planning permissions very difficult). I would assume Labor could reverse these polices but haven't seen anything in news about this.
In 2000, coal was about 20% of the energy mix, gas another 20%, oil about 50%. Wind was 0%. In 2024 coal was about 2%, gas still 20%, oil still 50%, but wind grew to about 15%. It seems that wind actually replaced coal. It is not only logical, but good, that wind first replaced coal (dirtiest), and maybe from now on is will start to replace oil. Only after many decades, or maybe never, gas will be replaced.
Primary energy compared to electricity as energy. The first adds energy used in driving, chemical industry etc. the second is just the amount of electricity generated.
Still, in the second figure of your link, you can see how gas is more or less stable since the start in 2005, and coal + peat is being slowly replaced almost 1:1 by renewables, mainly wind as hydro is stable and solar is marginal in Ireland.
crude oil and petroleum products (37.7%)
natural gas (20.4%)
renewable energy (19.5%)
solid fuels (10.6%)
nuclear energy (11.8%)
(2023 numbers)
So natural gas was just barely more than renewables in 2023, but according to the source below the line was crossed in 2025 and renewables now provide more than all fossil fuels put together:
For those following along at home, it appears enir is (edit: as well as using EU wide data, not Irish data..) including non-electricity generation, or non-grid, energy use. Grid stats available here https://www.seai.ie/data-and-insights/seai-statistics/electr...
Ireland has essentially no working oil power generation capacity these days (I think the only ones are a couple of small diesel units on islands, which are not even connected to the national grid). Moneypoint was replaced with some combo of wind, gas and imports.
(Moneypoint was actually built originally due to Ireland's over dependence at the time on oil for power generation; after the oil crisis, initially ESB attempted to build a nuclear plant (https://en.wikipedia.org/wiki/Carnsore_Point#Cancelled_nucle...), but it was such a political minefield that it was canceled, leading to Moneypoint.)
I think this is very strategically stupid decision (or crime committed by high management). Those should be preserved and be ready for use in case things go south which is not inconceivable judging by what is happening around
Am am not against "saving planet" etc. Just make sure you still have a way to survive if high tech fails. Same as with let's abolish all cash without thinking what a nightmare it can / will cause one day
From the article: the Moneypoint plant will continue to serve a limited backup role, burning heavy fuel oil under emergency instruction from Ireland’s transmission system operator EirGrid until 2029.
I understand that American shale gas (the largest fraction of LNG imports to the EU) is by certain measures as polluting as coal. If correct, Europe needs to reconsider if the price (and political) volatility is really worth it.
Highest[1] base electricity price in the EU, some of the worst conditions for solar generation, a war in Iran, and now they've closed the coal plant. Great. Guess I'll just go bankrupt.
Edit: instead of downvoting my post, feel free to pay my electric bill, lol
Not everyone is supposed to read every single news. There will always be someone who didn't see it, but that is not my point.
It would feel weird to see this as a headline on a newspaper or on TV today, but maybe that is just me and people like to read new that are from last year.
This happened almost a year ago. Ireland has no normal oil generation capacity (ironically moneypoint has been retained as an emergency-only oil burning plant til 2030, but it would generally only be used in this capacity as an emergency measure when gas plants unexpectedly go down).
1. Emissions matter, not the particular fuel source they come from. Most places cannot meet 100% of their needs, or even 100% of their growth in needs, with renewables so they must use and even grow some fossil fuel sources.
India has vast coal reservers, and is the second largest producer in the world, whereas they aren't a major oil producer. Hence they use coal. Similar with China.
If the story was about some country shutting down their last natural gas plant instead of their last coal plant, no doubt someone would be pointing out that meanwhile the US is increasing natural gas production at a record pace.
In 2025 the US added 7 GW of natural gas electricity capacity, and India added 7 GW of coal. Natural gas generates about 1/2 the CO2 as coal, but India has over 4x the population, so the US added about twice as much new emissions per capita.
But we also need to consider how much renewables were added. That will be part of point #3.
2. India's emissions are 2 tons per year per capita, which is under 1/2 of the global average, which is about 1/3 the EU average, 1/5 of China, and 1/7 of the USA. Even if it takes them longer to get off fossil fuels than the other large countries they are likely to never come near the emissions levels per capita of those other countries.
3. They are actually making better progress at this than most others. 50% of electricity used in India is renewable, compared to 25% in the US, 40% in China, and 47% in the EU.
They are not just adding coal. They are adding wind and solar at record paces too. In 2025 they added around 7 GW of coal capacity last year, 38 GW of solar, and 6 GW of wind.
The US is doing the same, but with natural gas rather than coal. 7 GW of natural gas, 25 GW of solar, 13 GW of wind. About the same percentage of renewables (~90%) as India.
4. Yes, per capita is the correct measure, because the atmosphere is very efficient at distributing CO2 emitted anywhere to everywhere. A ton of CO2 has the same impact no matter where it is emitted. Unless you can make a good argument that some people have some sort of natural or divine right to a bigger share of whatever CO2 budget we decide Earth can afford, it has to be per capita.
China is building solar panels at a record pace, and building wind turbines at a record pace, and building nuclear power plants at a record pace. Meanwhile, the construction rate of coal plants has been dropping over the last decade and a half.
They build new coal plants as a backup, or to replace existing older plants. But they're very clearly not using them more than they already were. They burn coal because they have coal, just like the US burns gas because the fracking boom made gas cheap.
I think they'll follow China's lead soon. The economics are inevitable. Ember projects India will be at 42% renewable electricity by 2030, up from 10% today. This is obviously staggering renewables growth in a poor country.
Both India and China lack oil. Reducing fossil fuel usage is a national security issue for them. They're also poorer. As solar and wind become the cheapest sources of electricity, thanks mostly to China, they're going to rapidly transition. No dumb political games.
Unclear to me why you've been downvoted here. The data clearly shows that China is taking more serious action on this issue than any other developed or developing economy.
I didn't downvote (as the information is correct and relevant) but I flagged. Accusing others up front of lying, or of being motivated by various political outgroup boogeymen, is not on.
If someone gives incorrect information in a shallow, dismissive way they're either lying or seriously misinformed.
> being motivated by various political outgroup boogeymen
If OP wasn't lying then they were misinformed. I made reasonable guesses to the source of that misinformation. I didn't attribute any political motives to OP themselves.
I don't see how "right-wing" or "right-wing media" is an "outgroup". And it isn't a boogeyman because the majority of the "climate change is fake but it's China's fault anyway" opinion pieces come from there.
Did you also flag OP's lies/propagation of incorrect information? If you did, I appreciate your consistency and fair-mindedness. If you didn't, then why not? What's worse - lies/propagating ignorance or being slightly curt?
China is not - Chinas coal consumption is stagnating with about zero growth from 2024 to 2025.
China is far more serious than the EU about the green transition. Despite being poorer than the poorest EU country they are dominating renewable deployment.
I think that attitude is poorly informed whataboutism.
Never used coal power:
Phased out: Phase-out planned:reply