Growth in german wind capacity is slowing. Soo… then the plan is to keep on with lignite and gas? Am I missing something?

Installed Wind Capacty - Germany

German Wind Capacity

  • Don’t import Reddit’s extremely ignorant takes on nuclear power here, please. Nuclear power is a huge waste of money.

    If you’re about to angrily downvote me (or you already did), or write an angry reply, please read the rest of my comment before you do. This is not my individual opinion, this is the scientific consensus on the issue.

    When it comes to generating electricity, nuclear is hugely more expensive than renewables. Every 1000Wh of nuclear power could be 2000-3000 Wh solar or wind.

    If you’re about to lecture about “it’s not possible to have all power from renewable sources”, save your keystrokes - the majority of studies show that a global transition to 100% renewable energy across all sectors – power, heat, transport and industry – is feasible and economically viable. Again, this isn’t my opinion, you can look it up and find a dozen sources to back up what I am writing here.

    This is all with current, modern day technology, not with some far-off dream of thorium fusion breeding or whatever other potential future tech someone will probably comment about without reading this paragraph.

    Again, compared to nuclear, renewables are:

    • Cheaper
    • Lower emissions
    • Faster to provision
    • Less environmentally damaging
    • Not reliant on continuous consumption of fuel
    • Decentralised
    • Much, much safer
    • Much easier to maintain
    • More reliable
    • Much more responsive to changes in energy demands

    Nuclear power has promise as a future technology. It is 100% worth researching for future breakthroughs. But at present it is a massive waste of money, resources, effort and political capital.

    Nuclear energy should be funded only to conduct new research into potential future improvements and to construct experimental power stations. Any money that would be spent on nuclear power should be spent on renewables instead.

    • Wow I’m surprised to see people are actually downvoting you and arguing about this. It’s common knowledge that the cost, impact, and build-time of new nuclear plants makes them a poor choice for energy. Not only is wind/ solar cheaper, it’s faster to build.

      • Redditors are unbelievably brainwashed in this topic, and a lot of Redditors moved over to Lemmy. I have dragged this metaphor to water countless times before, and when I suggest that they could consider drinking, they just arrogantly declare that I don’t understand the facts around liquids, that I don’t have any basis for my claims that they should drink it, and that by arguing that people should drink more water, I somehow supporting Coca-Cola.

      • It’s also common knowledge that the more often you build something, the lower its price tends to go as that knowledge spreads. It’s part of the reason it’s so expensive to build trains in the US and so cheap in South Korea and Spain.

        • This famously isn’t true for nuclear power. It just keeps getting more expensive.

          The French nuclear case illustrates the perils of the assumption of robust learning effects resulting in lowered costs over time in the scale-up of large-scale, complex new energy supply technologies. The uncertainties in anticipated learning effects of new technologies might be much larger that often assumed, including also cases of “negative learning” in which specific costs increase rather than decrease with accumulated experience.

          https://www.sciencedirect.com/science/article/abs/pii/S0301421510003526

          And this research was done before Fukushima, which increased costs even further.

            • It is not a yes and, because urgency favors renewables even more. If it wouldn’t be for bureaucratic and political hurdles, from planning to operation is about 2 years for onshore wind and solar sites. For things like retrofitting a small solar plant on a residential or industrial building it can be as short as three months and for balcony solar power as a small hobby project it is as little as a day of planning + the delivery time + a day of installation.

              Nuclear plants on the other side take minimum a decade, more likely two decades and that is despite strong political and bureaucratic support that is needed to get it going at all. Otherwise with citizens protest it would stay in court indefenitely.

        • For centralisation - large areas of the grid are dependent on a few locations, so if there is an issue with one or two areas, the entire network can fail. Say for example if there is an earthquake which disables two nuclear power plants, that could cause massive issues with the grid.

          If you have many small power sources distributed across a larger area, it significantly mitigates the issue - the loss of even dozens or hundreds of wind turbines would be able to be handled much more responsively.

          Nuclear is uniquely disadvantaged at having very bad responsiveness to demand. Renewables are extremely good at that, coincidentally.

          For security, I’m sure you can imagine many scenarios, but nuclear waste is a potential target for creating dirty bombs for example.

          • First off appreciate the good faith response. It’s more than I’ve come to expect when I ask (probably) dumb questions requesting further explanation.

            Coming from an American perspective, I’ve only recently realized just how badly centralization affects the grid. It’s definitely a strong case for rooftop solar.

            But focusing on nuclear, I do think we’ve missed the window where building top-to-bottom nuclear generating facilities would be advantageous, but in the effort to bridge from our heavily fossil fuel based electrical grid to a completely renewable, I think that SMRs are a reasonable solution. I especially like the notion of converting old infrastructure (i.e. old abandoned coal plants) into SMR power plants.

            You seem to be knowledgeable and have opinions. What’re you’re thoughts on SMRs to help bridge the growing energy need?

          • Unfortunately simply using renewables alone is t enough to decentralize them. Lately Texas has been having near energy shortages and part of the problem is a few unexpected central outages at fossil fuel plants, but another is the vast majority of wind turbines are built in one sunset of the state, so if wind is low there it can (and has) cause massive decreased in available energy, far larger than a couple traditional large scale nuclear plants when other parts of the state are under fire warnings because of high wind and dry conditions. Of course this isn’t an issue with the technology itself, but rather a problem with implementation. The issue isn’t with what was built, but the lack of building more across the state (or joining one of the two larger grids to further decentralize power production over a broader area)

            Anyways, another issue with security is centralized power production make a good target for disruption. And if you have the side effect of causing a meltdown…

            • Man, the US is a total mess. Why does Texas have a separate power grid? If the US invested in renewables and energy infrastructure they would easily become the #1 renewable energy producer in the world. They have so many ideal geographical features it’s absolutely crazy how much they’re going to waste.

              • Ironically, I seen the claim that the original reason was because the US grid was outdated and Texas wanted to do better. Probably back when people who called themselves “conservatives” actually cared at little bit about conserving the environment (at least in some self-interested ways). Of course it didn’t work out that way.

                No clue why the rest of the US is divided into two grids.

          • Nuclear is uniquely disadvantaged at having very bad responsiveness to demand. Renewables are extremely good at that, coincidentally.

            Can you explain to me how you adjust renewable to the demand ? How can you increase the amount of sun or wind in the evening when there is a peak of demand?

            For the nuclear you can go from 100% to 20% or the opposite in less 30 minutes. It can also follow the load and have a variation of 5% in 30s.

            https://archive.wikiwix.com/cache/index2.php?url=http%3A%2F%2Fwww.oecd-nea.org%2Fndd%2Freports%2F2012%2Fsystem-effects-exec-sum.pdf

            • 100% to 20% in 30 minutes, huh? Even if that’s true - I doubt even a quarter of all nuclear power plants in use today can accomplish that - all wind turbines in the world can go from 100% to 0% in a matter of seconds, with no human intervention.

              Wind turbines are actually surprisingly complex machines with many ways to control the power generation, for all important metrics: voltage, power, frequency, etc.

              Essentially the main variables at play are rotational torque and rotor speed, and there’s a lot of ways to control those variables. For example, the rotor can be rotated to face the wind at the ideal angle, or the pitch of the blades can be tweaked. There are also components quite like those you’d find in a car - brakes, clutch, gearbox, etc. which control the rotor speed and rotational torque. All of these systems are intelligently controlled and responsive, and allow very fast response to changes in demand or weather conditions without human input.

              Solar panels, similarly, can be angled - commercial solar farms are usually motorised. This is mostly done so the panels can track the sun, making them much more efficient, but it also means they can be angled away from the sun, if need be, to reduce output. In reality, this isn’t really done, because it’s easier to control wind - solar provides baseline power and wind builds on top of that and adds responsiveness.

        • It takes a lot of money, planning, and technical know-how to build a nuclear power plant, especially a safe one. It isn’t like a new nuclear company can just pop into existence, and start offering reactors for sale.

          Traditional nuclear reactors are, therefore, a technology that requires a lot of centralization to implement. Only nation-states and huge corporations can assemble the resources to construct them.

          Compare that to wind or hydro-electric power. You can build a generator with some wire and magnets yourself, so you could call them more decentralized.

          This might be changing with modular reactors, I don’t know.

    • Again, this isn’t my opinion, you can look it up and find a dozen sources to back up what I am writing here.

      Although I agree with this comment, this is exactly what the covidiots said. “Just google it”. If you want us to believe your controversial opinion, you’re going to want to take the time to add the most credible sources you can find to back you up.

      • The difference between my comment and a COVID denial comment is that if you googled covid denial arguments you’d find that 99.999% of results refute their claims. If you do the same for my claims, you’ll find the exact same sources that I used to make my arguments on the top page of the search results. It’s not the same.

    •  lntl   ( @lntl@lemmy.ml ) OP
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      …Nuclear power is a huge waste of money…

      …this is the scientific consensus on the issue.

      A battery of tests were performed on the economics of mitigating the impending climate disater. These tests indicated that nuclear is a huge waste of money (p<0.05) (Blake, 2023)

      Hahaha :)

    •  Maldreamer141   ( @Maldreamer@lemmy.ml ) 
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      I agree with you on nuclear being more expensive as all facts point that way and future nuclear technology, but i dont understand how we could transition to a 100% renewable energy sector, It would be good if you could give a citation or explanation for that. Diverse and distributed source is how we get an energy secure grid, renewables could help with the distributed source part, but when it comes to diversity the popular renewable technologies wind and solar are very limited, both of these source cant power a base load without batteries (this applies mostly to solar, but wind too has low output at night). Also there is this issue witj managing generation and demand (Nuclear too have issue with this as its not possible to quickly adjust nuclear power generation like other conventional spurce). A full renewable energy grid would depend on batteries, currently we have much limitation with batteries. Mature technologists of acid based batteries require huge areas, and lithium based ones would require rare lithium which its mining alone would cause alot of pollution, and relying on other alt battery technology itself would be a long stretch as its development and commercialisation to usable form would take years to achieve as the same case afforable future nuclear technology.

      Other alt renewable energy like geothermal could help with base load (not sure, someone could correct me if this is not the case), but itsnt possible everywhere. The same goes for tidal plant as it depends on geography and specific time of day. With this scenarios if we were to move to a 100% renewable grid then, the price for energy will increase at night time in a way that i think could reach nuclear energy rate.

      A 100% renewable grid would need a lot of batteries and that too could drive the price up and possibly contribute to climate change. Also solar panel manufacturing is a very intense process with a lot of carbon impact, i read this on a text during my academics (havent checked the source for this other than that).

      •  Ooops   ( @Ooops@kbin.social ) 
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        Also solar panel manufacturing is a very intense process with a lot of carbon impact

        The carbon impact mostly is energy used in production. So it’s high when you produce solar panels powered by shitty coal plants and basically non-existent when you have build them once and are constructing replacements with solar energy. (The same is true for nuclear btw and also often completely misrepresented in discussion. Nuclear plants in a country full of nuclear plants have a much lower carbon footprint. That’s not some technological or scaling effect as often claimed but the simple fact of building the reactor and enriching the fuel with energy already green)

        A 100% renewable grid would need a lot of batteries and that too could drive the price up

        Actually no. The grid would need batteries (but also alternatives like capacitors or fly-wheels) for short-term stabilisation, but the amount is limited. The grid also need long-term storage but here batteries are completely inadequate. Also the requirements for batteries are usually misrepresented. No, we don’t neen some bullshit Lithium-ion batteries or similar stuff requiring rare earths and other rare ressources. Those are used in handhelds where energy density is the main concern. I can perfectly build a stationary grid battery cheaply and without rare ressources as nobody cares if that building-sized installation is 5% bigger and 30% heavier than a build with lithium-ion batteries and also gets 20° hotter in operation… because it’s not a handheld.

        Case in point: One of the very first things that happened in Germany the moment the new government was sworn in and long before they could actually do anything: energy companies started installing the first battery-based storage units as they now were no longer intentionally sabotaged in creating storage infrastructure for renewables. What did they use? Car battereis. Used ones that were already deposed. Dirt cheap for costs barely above the recycling value. Because the requirements in grid stabilisation and short-term storage are indeed completely different that in cars (again: energy densitiy vs. low price and car batteries with only 60% of their capacity left were completely okay for that job).

        • Thanks for the comment, you make some great points :) by the way, you should look into non-electrical power storage - pumped storage is the most common, 99% of electrical storage is pumped storage. Essentially, a volume of water is pumped from a low basin to a high basin, converting electrical energy into gravitational potential energy. Then when energy demands exceed supply, the water is allowed to flow back down, and the flow is used to turn a generator, converting the kinetic energy into electrical energy. It’s approximately 80% efficient. It’s less responsive than on-grid electrolytic batteries but all you need is water and simple materials, it’s easy to maintain and has a much longer duty cycle than lithium ion or sealed lead electrolytic batteries and even capacitors - which are too expensive for real on-grid storage solutions, and the benefits of capacitors (high current) aren’t really needed or even desirable for the grid.

      • Demand sheduling.

        The current grid is run on the idea that we ramp up power plants until the current demand is met.

        The future will be to make the demand flexible and follow the availability. Typical example is when to charge a car battery, but it also goes for heating and cooling applications, using power to x converters, like hydrogen production, sheduling household appliances like washing machines and industrial processes.

        Doing so we can close the gap between real baseload and available renewable supply, which in turns reduces the amount of storage needed.

        • Some argue that transitioning to 100% renewable energy would be too slow to limit climate change, and that closing down nuclear power stations is a mistake.[122][123]

          “Nuclear power must be well regulated, not ditched”. The Economist. 6 March 2021. ISSN 0013-0613. Retrieved 31 January 2022. McDonnell, Tim (3 January 2022).

          “Germany’s exit from nuclear energy will make its power dirtier and more expensive”. Quartz. Retrieved 31 January 2022.

          In November 2014 the Intergovernmental Panel on Climate Change came out with their fifth report, saying that in the absence of any one technology (such as bioenergy, carbon dioxide capture and storage, nuclear, wind and solar), climate change mitigation costs can increase substantially depending on which technology is absent.

          • Thanks for your sources which support my claims.

            Some argue that transitioning to 100% renewable energy would be too slow to limit climate change, and that closing down nuclear power stations is a mistake.

            So, what we have here, is two opinion pieces from business-focused news websites, vs the scientific consensus of domain experts in the field of energy production, the IEC, IEEE and countless others. Very cool, very good proof of your claims.

            Germany’s exit from nuclear energy will make its power dirtier and more expensive

            “Germany has committed to source 80% of its electricity from renewables by 2030”

            This article contains no arguments whatsoever that nuclear is better than renewables.

            Nuclear power must be well regulated, not ditched

            “Nuclear power has a lot of drawbacks. Its large, slowly built plants are expensive both in absolute terms and in terms of the electricity they produce. Its very small but real risk of catastrophic failure requires a high level of regulation, and it has a disturbing history of regulatory capture, amply demonstrated in Japan. It produces extremely long-lived and toxic waste. And it is associated with the proliferation of nuclear weapons. Most of the countries outside Europe that use nuclear power have some history of attempting to develop a bomb. All these factors contribute to an unease with the technology felt, to greater or lesser extent, by people all around the world.”

            This isn’t even all of the drawbacks. The advantages of nuclear power, according to that article? It’s safe (but still not as safe as renewables”, and “hey, at least it’s better than fossil fuels”. That’s not the argument. The argument has to be how nuclear is better than renewables.

            We’re done here.

            • Very cool, very good proof of your claims.

              I made no claims, I quoted from the wikipedia link you posted for us, which you may have not read yourself. You’re clearly a bigger expert than the IPCC though, so I wouldn’t even dare to make claims in your presence.

      • Wind tends to be higher at night (at least here in Texas), so solar and wind are good complements. The biggest issue here is in the summer right after the sun sets, but that just means having enough battery storage for a couple hours for temps to start dropping. But wind/solar are still cheaper after including storage for that amount of time by far compared to new nuclear or new fossil fuels. Only existing facilities have a comparable per kWh cost when compared to new solar/wind + storage. Even if you quadrupled the storage, it would still be cheaper than new nuclear and comparable to existing nuclear iirc. Granted cost of storage partly depends on what storage options are viable locally for small grids.

        Is PV common at commercial scale solar?

    • Germany literally just shut down their existing nuclear plants and replaced them with fossil fuels.

      So even if what you’re saying were true (and I’d happily sit here and punch holes in it if I thought you were actually open to an argument - anti-nuclear people somehow seem to think that you can build all the solar/wind farms and transmission lines you want without running into the same endless messy regulatory battles you get with nuclear), none of it would be relevant here because the plants were already built and already working and responsible for like 1/8 of Germany’s electrical production - it wasn’t a cost decision, it was a bullshit anti-nuclear one.

      Also: the graph at the top shows the growth in Germany’s installed wind capacity in Germany leveling off - do you think that’s happening because they just don’t feel like building any more wind power, or is it possible they’re running into some limits on how much they can generate efficiently that way?

      • Sorry, but this comment is so full of false information.

        If you are able to read German or use a translator I can recommend this interview where the expert explains everything and goes into the the details.

        https://www.n-tv.de/wirtschaft/Deutschland-ist-kein-Strombettler-erklaert-Bruno-Burger-von-Energy-Charts-im-Klima-Labor-article24357979.html

        Claiming that Germany is fucked after shutting down nuclear for good is repeating the talking points from the far right here. Don’t be that guy.

      • Germany literally just shut down their existing nuclear plants and replaced them with fossil fuels.

        That’s completely false.

        responsible for like 1/8 of Germany’s electrical production

        More like 2-3%

        it wasn’t a cost decision

        Not exclusively, but the high price of nuclear is one of the main points in the decision

        the graph at the top shows the growth in Germany’s installed wind capacity in Germany leveling off

        Because the graph stops in 2022. The growth now is accelerating and even more so for solar power which OP conveniently does not show us

        https://strom-report.com/photovoltaik/

      • Given this thread is about new nuclear, I’m not sure why you are making up beliefs about what someone else in the thread believes. Personally a fan of old nuclear plants since their biggest expense (financial and likely ecological) is making them, so keeping them running is good as long as we are relying on fossil fuels.

        is it possible they’re running into some limits on how much they can generate efficiently that way?

        Why just speculate on it while insinuation someone is wrong about something when you could look it up? From what I can gather, it looks like administration/licensing delays, court cases, and rules limiting how close they can be to residential buildings (apparently 10 times the height of the turbine) are the main contributors to the slowdown.

        Also, solar is still growing more quickly and 2023 is having quicker growth in wind than last year (which was itself an increase from the previous year), so the trend being shown may already be outdated. Granted, inflation apparently are an issue now (not when the slowdown happened, but now as the rate of wind installation is increasing). And the rate of increase isn’t enough imo, but building new nuclear instead of using the same resources to build solar or wind at this point means relying more on fossil fuels.

        • He is, in fact, arguing against keeping existing plants running too. (I suspected he believed this and he did indeed)

          rules limiting how close they can be to residential buildings (apparently 10 times the height of the turbine)

          These… don’t seem like crazy rules; I don’t know how this works in other legal systems but in the US every little podunk wind installation in a residential area is going to be tied up in years of lawsuits over this sort of thing.

          building new nuclear instead of using the same resources to build solar or wind at this point means relying more on fossil fuels

          I don’t think it is the same resources, that’s part of my point. I don’t think there’s a finite pool of money here; the limitations on solar / wind have as much to do with raw materials and suitable locations as anything else, if nuclear provides an additional path to getting carbon-free energy on line (and with the added benefit of not needing to worry about storage, which is going to bring its own rat’s nest of location + raw material problems once we get to it) then we ought to be encouraging it as well.

          • At no point have I said that we should shut down nuclear power plants that are still running effectively, I must request that you redact your false claims, I do not appreciate these libellous remarks. I explained reasons behind why nuclear power plants are decommissioned. I’m sure you understand that no-one believes that nuclear power plants should be built once and run forever and ever.

      • I’d happily sit here and punch holes in it if I thought you were actually open to an argument

        If you had just said this and stopped writing then you’d have saved yourself time and embarrassment. I can dunk anytime, anywhere on whatever arguments you dream up, because definitionally if you’re arguing with me about this then you have no idea what you’re talking about. It’s a fool-in-a-barrel type of situation, really.

        Anyways, enough merry-making, to the meat of your comment:

        Germany literally just shut down their existing nuclear plants… it wasn’t a cost decision, it was a bullshit anti-nuclear one

        Nuclear power has huge cost implications, economically and politically, which make it less viable. If Germany had built renewables instead of nuclear, would they have turned off the renewables that were producing the cheapest, cleanest energy ever known, with zero fuel costs and minimal maintenance costs? You make my argument for me.

        The decommissioning of the german nuclear power plants was planned in 2011 because nuclear is a waste of resources. German scientists know this as well as I do. You’re the one arguing with them.

        "Nuclear energy is also often more expensive than wind and solar power, there are no longer any real advantages with nuclear energy.” - Volker Quaschning, a professor of renewable energy at the Hochschule für Technik und Wirtschaft Berlin. “Nuclear power plants are a hindrance to the energy transition. They are not able to run in stop-and-go mode and cannot really compensate for power fluctuations that arise when using solar and wind energy. With Germany looking to expand solar and wind power very rapidly over the next few years, now is a good time to shut down nuclear reactors to make way for renewable energy,” he said.

        “In the German context, the phase-out of nuclear energy is good for the climate in the long term. It provides investment certainty for renewable energy; renewables will be much faster, cheaper and safer than expansion of nuclear energy,” - Niklas Höhne, a professor the mitigation of greenhouse gases at Wageningen University in the Netherlands.

        …and replaced them with fossil fuels

        I think you’re referring to the emergency recommissioning of German coal power plants in response to Russian gas being held hostage over the Ukraine war? It’s not like they went “meh fuck the climate lol lets just turn off nuclear and put on the old coal burner for old time’s sake”.

        • definitionally if you’re arguing with me about this then you have no idea what you’re talking about

          And this is why I said I don’t think you’re open to an argument. But I’m not actually trying to argue with you about this, to the extent I’m arguing here it’s for the benefit of other people reading who are perhaps a tiny bit less pig-headed than you are. Which is great, because I don’t have to actually persuade you of anything but simply to give other people an alternative perspective to yours.

          If Germany had built renewables instead of nuclear, would they have turned off the renewables that were producing the cheapest, cleanest energy ever known, with zero fuel costs and minimal maintenance costs?

          Yes, because they’re still tied up in anti-nuclear politics. (hardly a phenomenon unique to Germany)

          “Often more expensive” “no longer any real advantages” according to a “professor of renewable energy” who doesn’t actually seem to have anything against them except that somehow he wants to “make way for renewable energy” which he somehow perceives an existing, functional nuclear plant as a hindrance to? Again, politics.

          “Provides investment certainty for renewable energy” is likewise a weak / hypothetical / pie-in-the-sky argument - show me where existing nuclear power plants are actually getting in the way of new renewables.

          “Replaced them with fossil fuels” natural gas is also, y’know, a fossil fuel. Even the anti-nuclear people cited in one of your articles admit that the lifecycle emissions of a gas plant are 4x as high as a brand new nuclear plant. Coal is even worse, sure, but even absent the Ukraine situation they’d be producing a lot more carbon with a very, very thin justification.

          • Watch this, I can make you ragequit this entire argument with this one comment with like a 90% confidence rate:

            Prove either of these two statements as false:

            The total cost per kWh of nuclear electricity is more expensive than common renewable sources of electricity.
            
            The total amount of carbon dioxide equivalent emissions for nuclear is greater than the carbon dioxide equivalent emissions of common renewable sources of electricity.
            

            Either that or you can loftily declare yourself above this argument, state that I am somehow moving the goalposts, say that “there’s no point, I’ll never change your mind” or just somehow express some amount of increduiity at my absolutely abhorrent behaviour by asking you such a straightforward question? You may also choose “that’s not the question I want to talk about, we should answer MY questions instead!”

            But go ahead and prove me wrong, I’ll be waiting!

            • I’ll cheerfully concede both of those statements, I just don’t think they result in you winning the argument.

              It’s not clear that we can build enough renewables fast enough, or that we can build storage capacity fast enough when we do; you cite vague studies that suggest we might be able to do, but that’s all they are. I’d rather not bet everything on that and then discover in 20 years that we made the wrong bet.

              According to the anti-nuclear group cited in one of your articles, nuclear produces about 4x the CO2 emissions of solar but 1/4 the emissions of natural gas. (1/8 those of coal) And it also assumes we can’t improve on that any, even though there is a tremendous amount of money + research going on right now on lowering CO2 emissions from construction materials like concrete and steel. (perhaps we don’t have any of those improvements up and running for in 20 years, but meanwhile those shiny nuclear plants are getting rid of 3/4 of the CO2 from the natural gas plants they’re replacing)

              • Ah, what a gentleman! Since you’ve been so sporting, I’ll indulge you.

                It’s not clear that we can build enough renewables fast enough

                You can go ahead and try to prove this statement false:

                • The total time taken to provision 1 GWh of nuclear electricity is considerably slower than the total time taken to provision 1GWh of common renewable sources of electricity.
                • Again, I’m arguing we do both. And anyway this is a volume question, not a construction time one (enough renewables fast enough) - I’m OK with waiting 20 years for new nuclear plants if in 20 years we get a fuckton of them.

                  • You need lunch and you can choose between a nutritious and tasty $5 sandwich from an independent deli or a $10 expensive mass-produced sandwich from a chain. The independent deli is tastier, cheaper, and healthier, and it’s easier for you to get since it’s on your way to work.

                    Or you could just get both for no good reason if you want I guess.

                  • Hey, this you?

                    It’s not clear that we can build enough renewables fast enough

                    this is a volume question, not a construction time one (enough renewables fast enough)

                    Woah! What happened to those goalposts? I could have sworn they were here a second ago.

                    I’m gonna wait for your response to my other question to properly address this one since they’re so intrinsically linked.

        • Just so I’m clear on what you intend to say: you intend to show that the amount of energy Germany produces from wind has increased while the amount of energy produced by both coal and nuclear have decreased, the data standing as a self evident counter argument?

      • Would you like to elaborate? Renewables are a much better power source than nuclear in every single way that matters. They’re better for the environment, cheaper, lower emissions and are faster to commission. Every $1 spent on nuclear power is $1 stolen from renewables.