Really curious about the difficulty of doing a self install with Solar. I'm moderately handy (built a Sauna from no plans) and confident with electrical. Any gotchas?
I have a similar project, I'm so overpaneled I bought an electric heater so I could actually see how many watts I brought in during a nice summer day. The victron UIs have an excellent graph history.
Right now we're limited by the charging capacity of the inverter/charger. It can only do 50A in from an external solar controller. In hindsight I should have gone with a 48V inverter/charger to get twice the power going in. On a sunny day we're maxing it out at 1200W for several hours at a time.
Hi, from the other coast. I wish I had solar maybe someday. Do you ever watch Artisan Electric from the UK? He tried to run his shop on 100% solar+battery. He ran into a problem where sunny day batteries full shop using power but the panels themselves were throttling. They had no where to send the extra power. He bought a bitcoin floor heater (lol), charged EVs, and some other stuff. https://www.youtube.com/watch?v=evkdqTcMbWM
I know some people who are adamantly against solar and wind
(personally I like both but I can see some shortcomings - for example I have heard that ai datacenters are using gas at times because of its flexibility)
So what are some of the best talking points to "sell" solar and wind to the unconvinced?
Or will they just adopt it once it's seen everywhere?
Solar/wind is the cheapest form of power generation by far. You just can't beat it because they don't have any fuel costs. Gas peaker plants will always make sense until we have enough grid scale batteries. They will hold on for now until the price of natural gas hits rock bottom. But with the current advances in low cost battery technology I see them becoming less and less necessary. They would probably already be dead if hydrofracturing hadn't propped up the cost of gas.
I think you've missed that all generators have upfront cost. That's why the monetary payoff time for installing solar is non-zero. Versus a backup generator you're paying 2-3x the cost upfront. And yes we know the running cost is almost 0, the maintenance is almost nothing, etc etc, but I could see that argument not holding as much water as we need it to.
Are you talking backup generator vs solar for a home?
If so, solar continually supplies power without paying for an input vs a backup generator which is only meant to run infrequently and is costly to run and requires you to pay for inputs and of course maintenance of an ICE.
I appreciate his ability to talk renewables for almost an hour and barely mention climate change. This video has a bit of a twist ending, but he gives you a solid out before he becomes political if you're showing it to someone who won't be receptive to that messaging.
Is this the version he reuploaded? I saw it the day he posted it, and I have never seen that man more passionate and awesome. He mentioned later that he toned it down, which is almost a bummer!
Correct - the version I linked is his more aggressive version, but he does give a soft out with 30 minutes remaining. He mentions that he has also uploaded the alternative version for those who want to share it with someone who wouldn't enjoy the ending of this version.
>I don’t know how you can be against solar unless you’ve been given some uninformed talking points.
One understandable (not saying it's good, just understandable) reason is if your business is selling electricity from a source more expensive than solar. Which is just about every source.
I think power producers will eventually have to combine power generation with activities that generate money separately from selling electricity. Like heavy industry, datacenters etc.
I'm not against solar, my primary issue is that in northern Europe there's not much sun at some times. Energy storage and "smart grid" are not there yet, in my view, but maybe should have come first. Hydrogen (electrolysis) sounds a bit wild and impractical to me.
> The net result: Pornainen fulfilled all of its municipal climate targets with a single installation. Oil use dropped 100 percent, emissions fell 70 percent, and woodchip combustion was cut by 60 percent. According to the Mayor of the Municipality of Pornainen, Antti Kuusela, the municipality now heats all its public buildings, including a new sports arena opening in September 2026, entirely through this district heating network.
That's for 5000 people. And only covers heat. Happy if it can scale and move from prototype to long-term deployment at a reasonable cost, serving heavy industry in manufacturing.
Don't get me wrong, this is cool. We just have some stricter requirements on a country/state/union level that while this might help with parts, I don't see how it can easily scale up and generalize
They are buying electricity and storing it as heat and time-arbitrage it to when the heat is needed, they make no mention of the electric power source. In any case, during the depth of winter, when it's needed most, they're still burning carbon. Previous paragraph to your quote:
>During the coldest, most expensive stretch, the wood chip boiler became the primary unit, and the sand battery supplemented it.
Remarkably: heat is pointed to as "wasted energy" when doing EROEI analysis and discounted, this is done to strengthen the case for Solar vs Gas.
Finland's energy mix is ~6% solar [1]... maybe it's not a larger portion of the grid supply because Finns realize it doesn't work in the winter?
That doesn't really make sense, you need the ability for significant overproduction before you start thinking about storage. The other way around is just wasting money. We are just starting to get there, but still have significant fossil fuels that we can replace even by just building out solar more and just having more over production.
There's a lot of selective concern. They'll be outraged about the environmental damage from mining and manufacturing needed for panels, but ignore the orders of magnitude worse damage from burning fossil fuels. My favorite is outrage over wind turbines killing birds. Cats kill a thousand times more birds but nobody cares about that.
> They'll be outraged about the environmental damage from mining and manufacturing needed for panels, but ignore the orders of magnitude worse damage from burning fossil fuels.
I always try to point out that, after all of the "environmental damage" done to create the solar panels, the panels will exist for 30 years before they can be recycled into new panels. Whereas, after all of the environmental damage done to produce gas and coal, it will lead to a one time use only energy output that has to be repeated until the end of time.
It makes zero sense environmentally or cost-wise to prefer fossil fuels.
> My favorite is outrage over wind turbines killing birds
I've coined the phrase True Bird Lover. Someone who's never seen a picture of a bird covered in an oil slick from the Exxon Valdez and wants to tell everyone how bad windmills are.
I am against it for one reason only, but it's very solvable, IMO, and it's the amount of space they take up.
I live next to 200+ acres of solar farms. A part of me cries a little when I see so much beautiful land and trees cut down and these lifeless panels taking up so much space. We have so many buildings, and structures already (think parking decks, tops of apartments, homes, offices, even parking lots) that we could put these, but instead we cut down acres of trees or use up perfectly usable farmland.
The standard alternative to a solar farm is a monoculture corn farm producing ethanol. That monoculture corn farm regularly gets sprayed, plowed and harvested, each time decimating its animal population. Your solar farm is probably filled with a diverse selection of grass and weeds, supporting a far higher animal population than that corn farm.
I cry more when I think about the amount of farmland being used for bioethanol, something which is barely energy positive. If the US would switch the subsidies and regulations propping that up to propping up solar, it would easily free up a huge amount of land.
Sure but compare that to the amount of land used for oil and gas extraction. The difference is that mines and drills can only go where there's stuff to extract and solar panels can go anywhere. Including near residential areas. That's also due to the fact that they are so environmentally neutral.
We have already reached the point where solar and wind produce new MW of power cheaper than any other power source you can build.
Of course that energy generation comes with the caveat of being variable with sun and wind. It can still be a net benefit to the grid but the variability means alternative energy sources are still needed.
The cost trend of installing solar/wind plus enough storage capacity to provide steady grid power will eventually cross over to also being cheaper than other sources of energy. At which point the only reason to be against it is if you prefer artificially subsidizing another energy source.
If people have strong opinions about renewable energy, just don't waste your breath. You can't reason someone out of an opinion they arrived at unreasonably.
It's a challenge, but remember that there is a lot of money in trying to convince people about the status quo. I'd keep in mind the kind of tactics that fossil fuel companies will be using to convince people otherwise:
- Using old data - the price of renewables and storage technology have fallen through the floor but bad actors are quite happy to use outdated numbers to convince you that they're not cheap
- Ignoring existing downsides - renewables have issues and we shouldn't forget that, but it's easy to forget what we're replacing. e.g. Lithium mines are environmentally unfriendly, but you dig it out of the ground and turn it into a battery once (and bonus - it's recyclable). Oil and gas must be continually dug out of the ground and burned
- But China... - I don't think most people realise quite how quickly the rest of the world is pushing on with renewables
Keep hammering the point that they are cheaper. If they are open to more advanced discussion point to the amazing structural changes that batteries are only starting to bring. Tell them something that sounds mildly like science fiction but is in fact happening already and will be HUGE. E.g. the battery you’ll have in your AC/stove/car will save you money or even make you money when part of a smart mesh of DERs.
Let me preface this that I am a huge advocate for renewables, and have been spending borderline unreasonable amounts on turning my home green.
The rub with "solar is cheaper" is that those values are almost always calculated using an ideal environment. Solar is cheapest when you are using flat barren land in Arizona where an acre costs $500, the sun shines 330 days a year, you are bulk buying 750 MW of panels, and the bureaucracy is a single rubber stamp. Those are the numbers that ultimately trickle to headlines.
Things get much more complicated (read: expensive), when you are in the North East, an acre costs $12,000, the sun shines 170 days a year, you're bulk buying a few dozen MW of panels, and the bureaucracy is 6 different government bodies full of permits and assessments.
In that situation, a gas plant that produces 10x more power on 10x less land becomes very appealing to people who are already getting crushed by soaring electricity bills. (My take: we're just going to have to deal with higher costs).
So I am all with you on abandoning fossil fuels, but to someone who is firmly in gas camp, they will have legitimate ground to stand on when balking at costs. "It's cheaper" is unfortunately not all encompassing.
Residential solar doesn't make that much sense from a system point of view - it's a lot more expensive than utility grade solar for the same amount of energy, but with the way the energy market works retail electricity prices are much higher than wholesale prices and that makes the upside of rooftop solar a lot bigger for consumers.
Building it out and maintaining it isn't free. And per a friend who's been selling consumer solar installations for years in the North East and gotten disillusioned: the equipment maintenance, repairability, and replacement story isn't great at the company they last worked at and results in a lot of environmental waste. One of the reasons they left. Of course, this is just second-hand information - I don't personally have much intuition for how widespread the issue is.
Every gallon of gas you use was produced far away, shipped halfway around the world for processing, and shipped back to you. Even if you are in the US, we basically don’t have the equipment to process our own gasoline from the crude we produce.
This means that millions and millions of machines have to be maintained, shipping lanes have to stay open, infrastructure has to stay profitable, distribution has to stay easy and cheap. The web is invisible to the end user, but it is massively complicated and expensive to upkeep.
Solar, once you have the panels you have to clean them every once in a while, and replace a failing panel every once in a while. But they produce for ~30 years after being made once.
So it’s funny to argue about environmental waste in this way. It’s an issue, but everything in a solar panel can basically be recycled and we are seeing the facilities start to come online as the first wave of PV panels starts dying off.
"It's cheaper" is a good route, but a lot of these people have decided they don't care about objective facts in favor of what their favorite media personality says.
- cheaper - much less upfront capex, lower operating costs
- removes nasty geopolitical dependencies on eg gulf state oil and gas; costs are more predictable
- easier to plan and build because the base units are much smaller
Variability remains a valid objection, to which the main answer today is "batteries. Lots of batteries. And other cheaper longer duration storage, like sand heat storage, vanadium flow, and good old pumped hydro."
I almost feel like it doesn't matter if Joe-public is on board or not at this stage. For as much as capitalism kinda got us into this mess, at this point the flywheel is going in the other direction and it's a natural market consequence that renewables will win. Lack of priced in externalities created the problem but the same economics will now save us.*
The money men have no moral attachment to any source so given how cheap this mix has gotten it basically wins.
* I'd point out without China and its Leninist command economy (as well as publicly funded research) getting the price of these technologies down to where it is now we'd still be doomed, but we are where we are so now the system necessarily will act in its own self interest to use the basically free energy. Is it going to be enough at this stage? Who knows, but I see reasons to be optimistic.
> So what are some of the best talking points to "sell" solar and wind to the unconvinced?
Ensure that the prices decrease for people with existing contracts. The hatred comes from people being told that it's better and cheaper now while the price is significantly higher than before.
If I didn't have solar panels on my roof that basically cover all my energy needs, I'd be absolutely furious seeing politicians pat themselves on the back for shutting down nuclear power plants and talking about how energy is now cheaper at some foreign exchange where I can not buy while I pay more and more every month.
My understanding is the AI data centers use LNG just because it's the fastest way to spin up a lot of power without using much land/permits. Solar panels would be cheaper but it still requires a lot of land and permits, plus batteries for smoothing.
I don't know why people would be "against" solar and wind. Even if they think global warning is a hoax, at a certain point (which was like 10 years ago) they're the cheapest option. So why not use them?
Yeah the relatively recent paper that takes LCOE and adds back a bunch of cherry picked system costs is a PITA to refute because it's inherently complicated and actually has some good points.
The problem is every good argument for renewables will always inevitably have someone come up with some kind of counterpoint that on the surface may seem reasonable to those without the time or inclination to deeply research it all.
Energy is complicated.
FWIW I agree with a sibling poster who said to just say "its cheaper".
You can't "sell" the opposite to someone who is expressing a loyalty belief. If their tribe believes in the opposite, then no amount of logic will change their minds - only a change of their or their group's allegiance will change their minds.
Nah, it definitely comes along for the ride. Maybe watch Folding Idea's (lengthy, sorry, he does that) documentary "In Search Of A Flat Earth".
That documentary is about QAnon (not about the "Flat Earth" per se) but it helps you understand that "But that's nonsense" is the point. I call this "Facts Aren't True" because that's the core of the idea. They don't like facts, the facts are uncomfortable, they can make up a better truth which does make them comfortable.
> So what are some of the best talking points to "sell" solar and wind to the unconvinced?
Increasing utility energy prices worked for me. I wasn't anti-solar, but it didn't seem worthwhile for me. When the utility price doubled over three years (or just about), the math makes sense now. I'm not looking for solar to acheive grid independence though, I already have a whole house generator for that, because utility power is two nines reliable around here.
if you require a stable energy source, neither wind nor solar (nor both) provide a complete strategy. they can be a part of a composite strategy, though.
for both wind and solar, they're also quite taxing on the environment during manufacturing. the "true cost" is rarely reported.
First would be to be clear and unambiguous when it comes to building gas/oil thermal power plants in order to deal with the intermittence problem of solar and wind. Political strategies in wind and solar is built on trust, and people will quickly become unconvinced when politicians are dishonest/ambiguous about the requirements that is needed to support a grid with a high ratio of wind and solar.
Using fossil fuels as the reserve energy for when the weather is bad allows the producers of reserve energy to demand high market prices, to the point where a whole month in EU can cost as much as a full year. Even if solar and wind would put the grid costs to zero for 90% of the time, it doesn't make the cost for the consumer any lower if the fossil fueled "reserve energy" can increase their price by 10x. Selling solar and wind require some kind of solution here.
Reserve energy also want to be paid if they are expected to stand-by 365 days a week, which is a big reason why EU subsidizes to fossil fueled thermal power plants are not decreasing when the ratio of wind and solar goes up. That costs is then added as a grid fee/taxes, hiding the true cost. Paying first to keep the fossil fueled power plants warm and ready when solar and wind is producing, and then pay them a second time for whatever the market price is when they are producing is a very costly way to operate a grid.
And last is the transmission costs. Switching between multiple different energy sources depending on the weather has a high demand for a very flexible infrastructure in terms of transmitting energy from where it is being produced to where it is being consumed. In south of Sweden as an example, the cost of transmission infrastructure and the cost of reserve energy is now the majority of consumers electricity bill, with cost associated with production of energy being a small minority.
Solving those issues is what will convince people of the viability of wind and solar.
PV is getting on the range where it pays for itself in 3 or 4 years. If somebody is just "against it", well, I have to agree with the sibling that said you can't reason with that person.
The argument I've seen against it for prime farm land in the UK is "Well we could use it to farm things" but that maybe lands less well in the US because of the enormous scales involved. "¿Por qué no los dos?" is the obvious retort in a huge region like that.
I've never seen "heavy metals" conspiracies, though I'm sure if I just wait I'll run into some because people sure do like making up reasons good things are bad...
Fox News is funded by fossil. They literally ship a 24x7 feed of why fossil is good and renewables are bad. It is their business model: money for placed content to shape opinions.
So someone watching that has strong opinions about renewables that is hard to overcome.
it depends. some places it makes sense, some places it doesn't.
it will be adopted when the money speaks. the good news is that money is a reasonably close proxy to "environmental benefit" (balancing the environmental costs of green infra production versus dirtiness of gas generation)
I can see this for wind, but not solar. PV turns sunlight into electrical energy. The whole damp rock gets sunlight on the outside, why not build panels anywhere?
For wind yeah, if you live one of those boring flat places which gets tornadoes a wind turbine is definitely a bad idea, it won't make much energy and then a tornado turns it into scrap and possibly destroys nearby things with chunks of debris.
Because there's better alternatives same places. Norway has legendary well-suited topography for hydro power (>90% of electricity), and it's reliably windy (>8% of electricity). It's also so far north that the sun doesn't shine very much for half the year, and it's notoriously cloudy.
So yes, it will probably never make much sense to build a lot of solar panels in Norway. Same for Greenland, Iceland (substitute geothermal), and probably some parts of Canada, Alaska and Southern Argentina.
But also, yes, there's almost nobody living in those places. They're not terribly relevant in the grand scheme of things. Probably significantly less than 50M people in total.
Just to add some numbers here, in Sweden the amount of energy you get from solar during the worst months are a single digit percentage, while consumption of energy during the same period doubles from the average. Consumption during the best solar months drops to about half.
Solar works a bit better when consumption patterns is the opposite, and the output is more reliable.
I spent a good chunk of my life in the Pacific Northwest. You get very long stretches of cloudy skies through most of the winter that are poor for solar. However, there are alternatives in that region like hydro that may be more suitable choices.
I believe this is one of those having your cake & eating your cake scenarios.
Wind turbines are designed to be aerodynamically loaded on purpose. The blades can pitch arbitrarily to compensate for unwanted loads in the axial flow direction, but beyond a certain point it doesn't matter anymore because wind can do a lot of other things.
> Before March 28, 2000, a tornado had never collided with a skyscraper.
> Bank One Tower sat, rotting. The Fort Worth Fire Department declared the building a fire hazard, forcing the Bass family to replace the plywood planks with fireproof metal.
Tornadoes are not actually very common in terms of how often you'd expect a structure to be hit by one. You're looking at hundreds or thousands of years between tornado hits even in the most tornado-prone areas. They're numerous, but small.
So what I'm hearing is very sturdy, christmas tree shaped turbines (long blades at the bottom, getting shorter as you go up), on a very heavy central shaft ending in a spike that gets driven deep into the ground by dropping them from great height with planes (there probably needs to be a thruster stage on top that accelerates them beyond mere free fall) into the path of tornadoes. No clue what to do with the energy, but that seems like a minor detail.
You need to include batteries in the equation: solar, wind, water and batteries.
What California and others have shown is that you can replace natural gas peaker plants (literally - tear out natural gas turbines) with batteries and get both superior cost dynamics and "dispatchability" (aka turning them on and off). Batteries have millisecond level dispatch, peaker plants have hours level dispatch.
In Australia conservatives with solar on their own roof continue to complain about renewables generally. It's just a weird cultural thing for some people.
Why doing so? When there are so many people irrationally against something, there's always some upside in being closer to truth than the crowd. It's arbitrage.
Sure, sometimes people haven't reasoned themselves into positions, and won't simply be reasoned out of them. But understanding others' epistemology is still the first step to changing minds.
>> I know some people who are adamantly against solar and wind
I'm guessing about those people. It's very clear that renewable energy is considered to be a liberal ideology by those that oppose renewable energy.
> Sure, sometimes people haven't reasoned themselves into positions, and won't simply be reasoned out of them. But understanding others' epistemology is still the first step to changing minds.
Both of your points are true but in effect are a contradiction to the original discussion. The moment somebody uses the word woke non-ironically as a reasoning point they are beyond reasoned discussion (at least from my experience). It's beyond vexing because there's no room for real dialog, just talking past each other.
> Woke is an adjective derived from African-American English used since the 1930s or earlier to refer to awareness of racial prejudice and discrimination, often in the construction stay woke. [1]
> Cultural Marxism is a far-right antisemitic conspiracy theory that misrepresents Western Marxism (especially the Frankfurt School) as being responsible for modern progressive movements, identity politics, and political correctness. [2]
Yes, the first one was the original meaning of the word.
The second one is... I don't know how to debate someone who quotes Wikipedia like this. It's not what I said. That article looks incredibly one-sided, and uses fallacies of the "You think snow is white? Did you know Adolph Hitler thought snow was white?" persuasion.
I find no arguments against solar. I can put it everywhere and has no moving parts. Once storing is solved, perfect.
But wind?? Huge nature areas are destroyed by beton fundaments, rotors break, and just in germany was a scandal lately about recycling, as the first structures need to be renewed.
It's not like other forms of power generation don't have similar problems. Solar PV cells lose efficiency and need to be replaced. Nuclear has very long term storage concerns. Coal and natural gas plants have finite expected lifetimes before the whole plant needs to shut down.
This is exciting news but the term power here should really be replaced with electricity which is clarified early on in the article.
Electricity only accounts for roughly 20-25% of all power / energy used and the vast majority of the remaining 75% is fueled by gas (cars, ships, heating, construction, ect.)
This is true but also distorting because it's not an Apples-to-Apples comparison. Electricity is not only much more flexible it's also much more efficient when it's an option.
The internal combustion engine is not a very efficient way to convert fuel into movement, its key benefit was that it is compact enough to put inside the vehicle itself. A steam train was more efficient, and steam boats were more efficient still, but those are both enormous so it was seen as a more reasonable option for these vehicles. So an EV transition actually doesn't mean that much more electrical generation compared to much less fossil fuel production.
All true, but also remember that in a zero-fossil world the supply chain for solar/wind also needs to be decarbonized, which involves things like making green steel, which is not such a favorable efficiency story (the way to overcome it is simply to generate massive amounts of electricity cheap enough that you can eat the inefficiency).
I expect that a zero-fossil world does a lot more steel recycling. Today steel is insanely cheap. Not so very long ago steel was this wonder metal, too expensive to mass produce, and today the pennies most people don't want as change when buying things here have steel inside because no other metal would be cheap enough given the value of the coins. They're jacketed because people expect them to look like tarnished copper (they were once bronze coins), but copper is expensive compared to steel now so it's just a jacket around a steel core.
If steel went back to say, twice the price of bronze, I think recycling makes a lot more sense and that means far less need for new steel production.
Steel is cheap for two reasons: unaccounted externalities of the use of coal in the process, and massive scale. Coal-free steel is possible, but we don’t currently do it at scale, so there is work to do.
Recycling will make sense if steel becomes much more expensive, but a future with really expensive steel is not what we should be aiming for.
We need steel for a million and one things that make modernity possible, but in the context of renewable energy, we particularly need it to build the towers that the largest and most efficient wind turbines sit on.
Important to consider that your stat is likely comparing primary energy, not secondary energy. E.g. an electric car or a heat pump use less primary energy than the fossil equivalent.
Global solar PV deployment is approaching 1TW/year. All energy will be clean energy in the next 1-2 decades. Vehicles will electrify, as will heating. Roughly half of marine traffic disappears if you're not shipping fossil fuels around.
no. if you work in the industry you'll know power/electricity are used interchangeably, and energy is treated as the superset. in the physics sense, you're right.
If you don't look at electricity generation, yes. If you look at grid generators, that fraction can get as low as 1/3. (But then, it can get higher than 3/4 on transportation.)
So it really depends on who is counting and how. I do think transportation and heating use more energy than the grid, but I was never able to get a definitive number. (My best guess is it's close to 2 times larger.)
Also, electricity to transportation conversion is usually only around 80% efficient. Making electricity portable has a cost.
Is it possible to increase the grid by add solar and wind and NOT adding an on-demand backup source (gas, etc.) WITHOUT ADDING RISK?
What I mean is say the grid demands 100. The grid is powered entirely by coal. You give it 120 for 20% redundancy. This is extremely reliable.
The grid demand is now 120. You now need 144 for 20% redundancy. You dont want to use coal. So you add solar and batteries.
Batteries are great because they normalize the volatility of solar generation over time, but they do not make solar truly on demand. So if you add 24 solar to the 120 coal you are increasing the risk on the grid. What often happens is you add 24 solar but you have 24 coal as a backup. Ideally the real-world use will be solar but in case of downtime your grid will not fail.
Trivially yes, for any locations with summer energy use peaks. The solar output will be the greatest when the demand for cooling is at its greatest.
Yes, for places with sizeable hydropower. You simply hold the water for longer.
Probably yes, for places where the need for redundancy is rare. Natural gas peaker plants are cheaper to build and simpler to operate with the tradeoff of being less efficient than combined cycle plants.
Your existing demand is not flat. Not flat over a single day, nor a single week nor a single year.
So you already have some spare capacity on the system.
If your demand peak was summer air con, then adding the solar makes the system more stable. This can be seen in a few grids that issue less grid warnings in summer now.
In the Indian state of Bihar in the current summer season, the grid met the extra demand purely due to smart grid installed on rooftops. That state used to have shortage of electricity during peak summer until 2yrs ago
Not to mention solar contributed to more than 15 % of Indian summer demand which is crazily high due to 40+ degree temperature during the heat wave
Solar that too decentralised is a massive boon
You add 100x1day worth of battery capacity. Which is fairly economical even today (though not economical enough to actually shut down coal). Wouldn't work everywhere (winter in New England needs more than 1 day of backup) but works in some places.
Take a look at California. Their grid is routinely, daily, generating ~84% of its power from renewables [1] (with ~25GW of existing solar PV capacity, ~6GW of wind, and ~6GW of hydro). They are adding batteries rapidly [2] (with a goal of 52GW by 2045; they are 33% of the way there). They still have ~32GW of fossil gas generation capacity, but it is rarely used constantly at full capacity. They have plans for another ~21GW of solar PV on land that can no longer be farmed due to water shortages [3] [4] (enabling families to keep their land with long term lease payments).
Not everywhere is California, but solar and batteries are the cheapest form of generation in 90%+ of the world [5]. You simply keep building more solar collection, storage, transmission, etc. to orchestrate collecting this "fusion at a distance" and distributing it to loads. The sun rises every day, and will for our lifetimes. We continue to deploy batteries and solar at manufacturing capacity, while continuing to increase manufacturing capacity year over year. You fill any gaps with fossil generation until there are no longer any gaps to fill [6].
Tangentially, Australia is currently testing a battery with a 8 hour discharge capability [7] ("Long-Duration Energy Storage (LDES)"), as they are rapidly preparing for a network/team of battery storage facilities to assume grid health responsibility from their retiring thermal coal generators [8]. Certainly there is much work ahead in understanding and developing longer duration energy storage systems.
> Take a look at California. Their grid is routinely, daily, generating ~84% of its power from renewables [1] (with ~25GW of existing solar PV capacity, ~6GW of wind, and ~6GW of hydro).
> ... Not everywhere is California, but solar and batteries are the cheapest form of generation in 90%+ of the world [5].
... Then why is electricity so expensive there compared to the US average?
politics. Supply is cheap, but California has a corrupt relationship with the monopoly provider, and lets them get away with bundling all kinds of costs into the distribution charge. fire rebuilding, social projects, decades of infrastructure neglect from previous corruption.
Go and compare the rates from a non-pg&e distributor (eg SMUD in sac) and you'll see, supply is cheap enough and it doesnt have to be this way.
A distribution grid for 40 million people in a high fire risk geography [1]. Renewables drive down supply costs, but not distribution costs (unless you can go off grid, etc). They could also improve costs by nationalizing PG&E (I argue, cutting out shareholder returns and excessive management comp), but that is an argument for another thread [2].
It's a good news but I didn't expect that coal is still on the 1st place and not really trending down. I though coal was largely replaced by gas years ago...
Nobody, anywhere, is building new coal power plants. Approximately all new power is wind and solar. Which is good. But there is still a lot of installed capacity. And until new solar is cheaper than existing coal (which will be awhile, maybe never) then coal only decreases as plants shut down.
Is it cheaper per MW of generated power? I thought that the main reason use of gas has increased so much (for power generation) over the past 20-30 years is that gas became cheaper.
More good news from Ember, according to their Global Electricity
Review 2026 [1]:
Solar power increased by a record 636 TWh to reach 2,778 TWh in 2025, a 30% increase from 2024.
Wind saw the second-largest increase, growing 205 TWh (+8.2%)
Driven by record solar growth, low-carbon power generation increased by 887 TWh in 2025, outpacing electricity demand growth of 849 TWh. Solar power alone met 75% of the net increase in electricity demand. Together with wind, the two sources met almost all (99%) demand growth.
For the first time in 100 years, renewables (33.8%, 10,730 TWh) overtook coal power (33.0%, 10,476 TWh) in the global electricity mix as continued rapid growth in solar and wind pushed the share of renewables above a third of global generation. Coal power dropped 63 TWh (-0.6%) in 2025, marking the first fall since the Covid-19 pandemic in 2020. Combined with continued electricity demand growth, this meant coal fell below a third of global generation for the first time in history.
For comparison, I have collated information from the International Atomic Energy Agency's Power Reactor Information System. The fastest that nuclear power generation ever grew was 213 TWh added in 1985. Since the year 2000, the fastest growth year was 2004, with 111 TWh added.
Solar and progress on better batteries is a more consequential and useful technological revolution than AI. Should be a huge story, but there's not enough money to be made via speculation so it's not.
> there's not enough money to be made via speculation
I mean, there is money to be made. CATL stock (the major producer of EV batteries with 50% market share, with billions of contracts for stationary batteries) rose 48.81% over the last 6 months, for example.
But I agree that news about renewables goes unnoticed. I only see news about renewables because I actively seek out channels and websites that cover it. I wonder if it is because most companies in the industry are Chinese and don't focus on PR in the West as AI companies do.
AI is enough of an issue. As fast as we are adding renewable capacity, demand is also growing extremely fast. We're chasing a rapidly moving target. And we're stuck in an adverse political climate for the time being as well.
Nailed it. Solar, wind, and batteries are going to be the predominant form of generation in a decade, but there is no speculative benefit, so it’ll happen silently.
To be fair (and, somewhat ironically, rationally detached libertarian) that's the way it's supposed to be. We don't develop and deploy technology to make a bunch of too-online nerds rich. We develop and deploy technology to make everyone's lives better by providing goods at lower expense and lower externalized cost.
The percentage increases here don't really tell the full picture. Look at it in terms of pure TWh [1]. China just dwarfs any other country in terms of wind and solar deployment. I guess that's the difference between putting engineers in charge instead of those who believe in the magical powers of red heifers [2].
One of the short-term issues in the US is going to be that a lot of utilities depend on natural gas and natural gas prices are going to keep rising beyond whatever happens in the Persian Gulf because of increased LNG exports (that directly raises domestic prices) and the increased use of gas turbines for AI data centers. Plus all the consumers are going to pay for the infrastructure buildout for electricity for those data centers.
So, despite a large Y/Y solar increase in the US, electricity prices are only going up.
I feel the energy conversation is dominated by people that don't realize how far Solar tech has come recently arguing with other people that don't realize short nuclear half lives have gotten recently.
*electricity . Gas is heavily used for heating , cooking & industrial uses (e.g. drying agriculture like hops, boilers etc).
I raise this point since policymakers get confused and try to ban gas, only to realize how critical gas is for food & industrial applications that consumers enjoy after the fact.
You're correct that this ought to say "electricity" and not "power".
But I think you're wrong to think that gas is "critical" to any of the things you've listed. "Currently used" ... yes. "Not replaceable by electricity" ... no (unlike, e.g. air travel).
Electrical heat using heat pumps is cheaper than in-situ heating with any fossil fuel because (a) the base price per unit of energy is (or certainly can be) lower (b) the coefficient of performance is higher.
There are obviously costs to changing heating systems. But that doesn't mean that a gas heating system cannot be replaced by an electrical one.
Most of it can be electrified. NYC has banned gas hookups in new residential buildings (I live in one and it's great). Industrial electrification will never be 100% but I've seen estimates as high as 90%. It will take time and money but it will happen.
China having managed to position itself as the main driver of the green transition by investing into key industries illustrates the power of state planning. The markets simply can't operate on horizons of decades because there is no immediate profit to be had. You need long term planning and sustained investment that only a state is able to provide.
Good China numbers, but I’d still keep two things in mind.
China is moving very fast on clean power. But total energy is still very fossil-heavy, about 78%: 51.4% coal, about 26.9% other fossil fuels, calculated as the remaining share after coal and non-fossil, and 21.7% non-fossil in 2025, based on official Chinese figures.
The U.S. is about 82% fossil overall, so roughly comparable to China’s ~78%, just in a different way. Much less coal now, around 8%, but a lot of oil and gas: petroleum about 38%, natural gas about 36%, according to EIA’s 2024 summary.
For electricity, China was around 11% solar and 11% wind in 2025, according to China’s 2025 Statistical Communiqué. The U.S. was around 9% solar, including rooftop and other small-scale solar, and around 10% wind in 2025, according to EIA.
Nuclear is a major difference in the electricity mix: about 18% of U.S. electricity generation versus roughly 5% in China, based on EIA and China’s 2025 Statistical Communiqué.
And yes, EIA is not a typo for IEA
EIA is the U.S. Energy Information Administration, whereas IEA is the International Energy Agency.
Even so, the article says it grew 8% YOY in the US. The best is to hope that this is an unstoppable trend so that even politicians won't be able to reverse it.
It’s already irreversible, but it’s just disappointing to see how the U.S. administration has chosen to actively fight against it, while other countries like China are embracing reality.
It’s actually funny if you don’t think about it too hard. The U.S. president is trying to make us more reliant on fossil fuels, while starting a war in Iran that’s led to the global fossil fuel market to be negatively impacted, forcing most Americans to pay more for fossil fuels. Who could have seen that coming? We’re doing great!
> the U.S. administration has chosen to actively fight against it
the biggest producer of renewables is Texas, by a longshot. and the state of california just created insane NEM laws that favor the pockets of pg&e (and are shit for the environment) and as a result solar home installations have cratered.
Both NEM 2.0 and 3.0 have serious issues, but for different reasons. NEM 2.0 was basically a early adopter's rich person's subsidy that heavily distorted the market, and NEM 3.0 does not have nearly enough subsidies to justify the cost unless you pay cash up front for a large system. (For the record, I am on NEM 3.0 and got such a system).
At the end of the day, the best case scenario is large scale renewable / battery storage to bring costs down as much as possible, and for those of us who want battery backup / solar can choose to invest in it, but it shouldn't be "the" solution.
From the CalISO graphs, there doesn't seem to be a shortage of solar power for most of the day. It doesn't seem reasonable to incentivise production in the same way as it was when that wasn't the case.
I think NEM 3.0 incentivises storage now? Which seems to be what the (California) grid is looking for.
All of that combined is peanuts compared to what's happening in China. Not to mention that all the panels and most of the wind turbines are produced in China. It's not just a question of installing them, it's having the industry and technical know how to make them that really matters.
Smelters in Australia are leaning on the fossil-friendly politicians to stop getting in the way of renewables because they can't compete with global prices unless they use renewables.
Unlike in the USA --- they obviously look beyond the rhetoric to grasp the fact that renewables help lower energy costs even if their industry doesn't fully depend on them.
The world screwed itself by not investing in renewables earlier. Germany paid a high price for being early, but we all should be thankful for Germany creating an economy of scale and bringing cost down.
And while the extreme right wing propaganda claims that Germany is doomed because of the Energiewende for the last 20 years or so, it is somehow still the third largest economy.
Multiple ways. One interesting one is huge sand batteries that are being heated up to massive temps, then having pipes run through there to collect the heat energy as hot water and doing the industrial processes that way.
Another way is using excess green energy to produce green hydrogen, which can be used as a fuel source in very high energy scenarios.
Past that, we recently have made electric arc furnaces and electric smelting furnaces for steel and aluminum, and several of these are fully solar powered.
It’s a shift to change the energy source for industrial production, but we have the technology and the ability. And the sun is free!
I just upgraded the solar system at my family's off-grid cabin. It's incredible how much battery technology has improved over the last 10 years.
Everyone is getting tired of me checking the panel to see how many watts we're bringing in.
Next project, install a shunt and get a Raspberry Pi talking to it over USB. And then I'll be able to build a Grafana dashboard. :)
Really curious about the difficulty of doing a self install with Solar. I'm moderately handy (built a Sauna from no plans) and confident with electrical. Any gotchas?
I have a similar project, I'm so overpaneled I bought an electric heater so I could actually see how many watts I brought in during a nice summer day. The victron UIs have an excellent graph history.
Or an esp32 to not run Linux and whatnot off of an sd card. Should be more reliable in the long run
Where is the cabin? Roughly speaking of course
The "Sunshine" Coast of BC.
Right now we're limited by the charging capacity of the inverter/charger. It can only do 50A in from an external solar controller. In hindsight I should have gone with a 48V inverter/charger to get twice the power going in. On a sunny day we're maxing it out at 1200W for several hours at a time.
Hi, from the other coast. I wish I had solar maybe someday. Do you ever watch Artisan Electric from the UK? He tried to run his shop on 100% solar+battery. He ran into a problem where sunny day batteries full shop using power but the panels themselves were throttling. They had no where to send the extra power. He bought a bitcoin floor heater (lol), charged EVs, and some other stuff. https://www.youtube.com/watch?v=evkdqTcMbWM
I know some people who are adamantly against solar and wind
(personally I like both but I can see some shortcomings - for example I have heard that ai datacenters are using gas at times because of its flexibility)
So what are some of the best talking points to "sell" solar and wind to the unconvinced?
Or will they just adopt it once it's seen everywhere?
Solar/wind is the cheapest form of power generation by far. You just can't beat it because they don't have any fuel costs. Gas peaker plants will always make sense until we have enough grid scale batteries. They will hold on for now until the price of natural gas hits rock bottom. But with the current advances in low cost battery technology I see them becoming less and less necessary. They would probably already be dead if hydrofracturing hadn't propped up the cost of gas.
https://en.wikipedia.org/wiki/Cost_of_electricity_by_source
I think you've missed that all generators have upfront cost. That's why the monetary payoff time for installing solar is non-zero. Versus a backup generator you're paying 2-3x the cost upfront. And yes we know the running cost is almost 0, the maintenance is almost nothing, etc etc, but I could see that argument not holding as much water as we need it to.
Loans transfer upfront costs into operating costs.
Are you talking backup generator vs solar for a home?
If so, solar continually supplies power without paying for an input vs a backup generator which is only meant to run infrequently and is costly to run and requires you to pay for inputs and of course maintenance of an ICE.
It's kinda an apples/oranges comparison
I recommend this video from YouTuber Technology Connections: https://www.youtube.com/watch?v=KtQ9nt2ZeGM
I appreciate his ability to talk renewables for almost an hour and barely mention climate change. This video has a bit of a twist ending, but he gives you a solid out before he becomes political if you're showing it to someone who won't be receptive to that messaging.
Is this the version he reuploaded? I saw it the day he posted it, and I have never seen that man more passionate and awesome. He mentioned later that he toned it down, which is almost a bummer!
If this is the video I'm thinking of, both versions are up. I think the toned down version is meant to be more palatable to certain people.
The one above is the public long version. it has a link to this unlisted short version
https://youtu.be/Zgxb8I1nk2I
Correct - the version I linked is his more aggressive version, but he does give a soft out with 30 minutes remaining. He mentions that he has also uploaded the alternative version for those who want to share it with someone who wouldn't enjoy the ending of this version.
I don’t know how you can be against solar unless you’ve been given some uninformed talking points.
Are they against solar subsidies or other policy provisions? It’s hard to understand someone who is against passive energy collection.
> Are they against solar subsidies or other policy provisions?
They're mainlining paid propaganda from the fossil fuel industry. Same dynamic that made people defend cigarettes into the late 90s.
>I don’t know how you can be against solar unless you’ve been given some uninformed talking points.
One understandable (not saying it's good, just understandable) reason is if your business is selling electricity from a source more expensive than solar. Which is just about every source.
I think power producers will eventually have to combine power generation with activities that generate money separately from selling electricity. Like heavy industry, datacenters etc.
I'm not against solar, my primary issue is that in northern Europe there's not much sun at some times. Energy storage and "smart grid" are not there yet, in my view, but maybe should have come first. Hydrogen (electrolysis) sounds a bit wild and impractical to me.
Finland:
> The net result: Pornainen fulfilled all of its municipal climate targets with a single installation. Oil use dropped 100 percent, emissions fell 70 percent, and woodchip combustion was cut by 60 percent. According to the Mayor of the Municipality of Pornainen, Antti Kuusela, the municipality now heats all its public buildings, including a new sports arena opening in September 2026, entirely through this district heating network.
https://interestingengineering.com/energy/sand-battery-polar...
That's for 5000 people. And only covers heat. Happy if it can scale and move from prototype to long-term deployment at a reasonable cost, serving heavy industry in manufacturing.
> That's for 5000 people.
And it's quite compact.
> And only covers heat.
Is that not useful?
Don't get me wrong, this is cool. We just have some stricter requirements on a country/state/union level that while this might help with parts, I don't see how it can easily scale up and generalize
They are buying electricity and storing it as heat and time-arbitrage it to when the heat is needed, they make no mention of the electric power source. In any case, during the depth of winter, when it's needed most, they're still burning carbon. Previous paragraph to your quote:
>During the coldest, most expensive stretch, the wood chip boiler became the primary unit, and the sand battery supplemented it.
Remarkably: heat is pointed to as "wasted energy" when doing EROEI analysis and discounted, this is done to strengthen the case for Solar vs Gas.
Finland's energy mix is ~6% solar [1]... maybe it's not a larger portion of the grid supply because Finns realize it doesn't work in the winter?
[1] https://www.iea.org/countries/finland/energy-mix
going from burning fuel 12 months of the year to 3 is still a 75% cut in fuel costs and emissions
That doesn't really make sense, you need the ability for significant overproduction before you start thinking about storage. The other way around is just wasting money. We are just starting to get there, but still have significant fossil fuels that we can replace even by just building out solar more and just having more over production.
You can be when you are living in an apartment building and you hear how people who have a house get 0 electric bill or get negative electric bill.
Some people just want the world to burn…
solar heating isnt as passive, and requires that the fluid keeps flowing, and all thr plumbing maintenance that goes with that.
a lot of opinions were made about solar when solar heating was the primary approach, vs today's chinese PVs
There's a lot of selective concern. They'll be outraged about the environmental damage from mining and manufacturing needed for panels, but ignore the orders of magnitude worse damage from burning fossil fuels. My favorite is outrage over wind turbines killing birds. Cats kill a thousand times more birds but nobody cares about that.
> They'll be outraged about the environmental damage from mining and manufacturing needed for panels, but ignore the orders of magnitude worse damage from burning fossil fuels.
I always try to point out that, after all of the "environmental damage" done to create the solar panels, the panels will exist for 30 years before they can be recycled into new panels. Whereas, after all of the environmental damage done to produce gas and coal, it will lead to a one time use only energy output that has to be repeated until the end of time.
It makes zero sense environmentally or cost-wise to prefer fossil fuels.
> My favorite is outrage over wind turbines killing birds
I've coined the phrase True Bird Lover. Someone who's never seen a picture of a bird covered in an oil slick from the Exxon Valdez and wants to tell everyone how bad windmills are.
I am against it for one reason only, but it's very solvable, IMO, and it's the amount of space they take up.
I live next to 200+ acres of solar farms. A part of me cries a little when I see so much beautiful land and trees cut down and these lifeless panels taking up so much space. We have so many buildings, and structures already (think parking decks, tops of apartments, homes, offices, even parking lots) that we could put these, but instead we cut down acres of trees or use up perfectly usable farmland.
The standard alternative to a solar farm is a monoculture corn farm producing ethanol. That monoculture corn farm regularly gets sprayed, plowed and harvested, each time decimating its animal population. Your solar farm is probably filled with a diverse selection of grass and weeds, supporting a far higher animal population than that corn farm.
You need to read about agrivoltaics. This is being used to huge effect elsewhere in the world to improve farming & soil. Here's an example from China:
https://www.sciencedirect.com/science/article/abs/pii/S03014...
I cry more when I think about the amount of farmland being used for bioethanol, something which is barely energy positive. If the US would switch the subsidies and regulations propping that up to propping up solar, it would easily free up a huge amount of land.
on that easy fix - the land under solar panels can still be used for farming or ranching
Sure but compare that to the amount of land used for oil and gas extraction. The difference is that mines and drills can only go where there's stuff to extract and solar panels can go anywhere. Including near residential areas. That's also due to the fact that they are so environmentally neutral.
And you can do some agriculture near and under the panels. That's not the case with an oil well.
We have already reached the point where solar and wind produce new MW of power cheaper than any other power source you can build.
Of course that energy generation comes with the caveat of being variable with sun and wind. It can still be a net benefit to the grid but the variability means alternative energy sources are still needed.
The cost trend of installing solar/wind plus enough storage capacity to provide steady grid power will eventually cross over to also being cheaper than other sources of energy. At which point the only reason to be against it is if you prefer artificially subsidizing another energy source.
If people have strong opinions about renewable energy, just don't waste your breath. You can't reason someone out of an opinion they arrived at unreasonably.
It's a challenge, but remember that there is a lot of money in trying to convince people about the status quo. I'd keep in mind the kind of tactics that fossil fuel companies will be using to convince people otherwise:
- Using old data - the price of renewables and storage technology have fallen through the floor but bad actors are quite happy to use outdated numbers to convince you that they're not cheap
- Ignoring existing downsides - renewables have issues and we shouldn't forget that, but it's easy to forget what we're replacing. e.g. Lithium mines are environmentally unfriendly, but you dig it out of the ground and turn it into a battery once (and bonus - it's recyclable). Oil and gas must be continually dug out of the ground and burned
- But China... - I don't think most people realise quite how quickly the rest of the world is pushing on with renewables
Keep hammering the point that they are cheaper. If they are open to more advanced discussion point to the amazing structural changes that batteries are only starting to bring. Tell them something that sounds mildly like science fiction but is in fact happening already and will be HUGE. E.g. the battery you’ll have in your AC/stove/car will save you money or even make you money when part of a smart mesh of DERs.
Maybe I’m too optimistic :)
Let me preface this that I am a huge advocate for renewables, and have been spending borderline unreasonable amounts on turning my home green.
The rub with "solar is cheaper" is that those values are almost always calculated using an ideal environment. Solar is cheapest when you are using flat barren land in Arizona where an acre costs $500, the sun shines 330 days a year, you are bulk buying 750 MW of panels, and the bureaucracy is a single rubber stamp. Those are the numbers that ultimately trickle to headlines.
Things get much more complicated (read: expensive), when you are in the North East, an acre costs $12,000, the sun shines 170 days a year, you're bulk buying a few dozen MW of panels, and the bureaucracy is 6 different government bodies full of permits and assessments.
In that situation, a gas plant that produces 10x more power on 10x less land becomes very appealing to people who are already getting crushed by soaring electricity bills. (My take: we're just going to have to deal with higher costs).
So I am all with you on abandoning fossil fuels, but to someone who is firmly in gas camp, they will have legitimate ground to stand on when balking at costs. "It's cheaper" is unfortunately not all encompassing.
Every kWh your panels make from sunlight that you use immediately (or store "behind the meter"), you don't have to buy from the grid.
And not buying something tends to be cheaper than buying :)
Residential solar doesn't make that much sense from a system point of view - it's a lot more expensive than utility grade solar for the same amount of energy, but with the way the energy market works retail electricity prices are much higher than wholesale prices and that makes the upside of rooftop solar a lot bigger for consumers.
Building it out and maintaining it isn't free. And per a friend who's been selling consumer solar installations for years in the North East and gotten disillusioned: the equipment maintenance, repairability, and replacement story isn't great at the company they last worked at and results in a lot of environmental waste. One of the reasons they left. Of course, this is just second-hand information - I don't personally have much intuition for how widespread the issue is.
All of that is still much better than for fossil fuels.
Every gallon of gas you use was produced far away, shipped halfway around the world for processing, and shipped back to you. Even if you are in the US, we basically don’t have the equipment to process our own gasoline from the crude we produce.
This means that millions and millions of machines have to be maintained, shipping lanes have to stay open, infrastructure has to stay profitable, distribution has to stay easy and cheap. The web is invisible to the end user, but it is massively complicated and expensive to upkeep.
Solar, once you have the panels you have to clean them every once in a while, and replace a failing panel every once in a while. But they produce for ~30 years after being made once.
So it’s funny to argue about environmental waste in this way. It’s an issue, but everything in a solar panel can basically be recycled and we are seeing the facilities start to come online as the first wave of PV panels starts dying off.
"It's cheaper" is a good route, but a lot of these people have decided they don't care about objective facts in favor of what their favorite media personality says.
In fact, it's very easy to reason them to change their minds:
1. Take statistics from any of these excellent solar power plants for, say, five years time span
2. Find the worst week in terms of energy production in these statistics
3. Explain to the renewable energy skeptic how this 20+ times drop in productivity will be compensated for users
4. The skeptic is successfully convinced and becomes a renewable energy proponent
- cheaper - much less upfront capex, lower operating costs
- removes nasty geopolitical dependencies on eg gulf state oil and gas; costs are more predictable
- easier to plan and build because the base units are much smaller
Variability remains a valid objection, to which the main answer today is "batteries. Lots of batteries. And other cheaper longer duration storage, like sand heat storage, vanadium flow, and good old pumped hydro."
I almost feel like it doesn't matter if Joe-public is on board or not at this stage. For as much as capitalism kinda got us into this mess, at this point the flywheel is going in the other direction and it's a natural market consequence that renewables will win. Lack of priced in externalities created the problem but the same economics will now save us.*
The money men have no moral attachment to any source so given how cheap this mix has gotten it basically wins.
* I'd point out without China and its Leninist command economy (as well as publicly funded research) getting the price of these technologies down to where it is now we'd still be doomed, but we are where we are so now the system necessarily will act in its own self interest to use the basically free energy. Is it going to be enough at this stage? Who knows, but I see reasons to be optimistic.
I do not think the two should be lumped together. They do both need storage but solar is more predictable. Winds can be low for extended periods.
> Winds can be low for extended periods.
So can sun, but that's why we build both where that's unusual. We've got plenty of stats and data gathering on where it's reliably sunny/windy enough.
point is those projects are and were shoved in with almost complete disregrard of this data. because we're saviours of the world, almost jesuses
Can you point to large scale solar or wind projects that were shoved into places that have extended periods of low sunlight or wind?
The entire Energiewende for example.
germany is producing tons of solar energy though?
can you be more specific and give 10 examples of german solar plants that produce ~0W electricity in a year?
they might be a lot more productive than you think
Germany is producing some solar energy. This is of course indisputable.
They paid for that by selling most of their industry to China because energy costs became unbearable.
Was this the right tradeoff?
> So what are some of the best talking points to "sell" solar and wind to the unconvinced?
Ensure that the prices decrease for people with existing contracts. The hatred comes from people being told that it's better and cheaper now while the price is significantly higher than before.
If I didn't have solar panels on my roof that basically cover all my energy needs, I'd be absolutely furious seeing politicians pat themselves on the back for shutting down nuclear power plants and talking about how energy is now cheaper at some foreign exchange where I can not buy while I pay more and more every month.
My understanding is the AI data centers use LNG just because it's the fastest way to spin up a lot of power without using much land/permits. Solar panels would be cheaper but it still requires a lot of land and permits, plus batteries for smoothing.
I don't know why people would be "against" solar and wind. Even if they think global warning is a hoax, at a certain point (which was like 10 years ago) they're the cheapest option. So why not use them?
Simply because the “other team” likes them. That’s it.
LCOE is the talking point that should shut down all others along with LCOS of LFP batteries
Yeah the relatively recent paper that takes LCOE and adds back a bunch of cherry picked system costs is a PITA to refute because it's inherently complicated and actually has some good points.
The problem is every good argument for renewables will always inevitably have someone come up with some kind of counterpoint that on the surface may seem reasonable to those without the time or inclination to deeply research it all.
Energy is complicated.
FWIW I agree with a sibling poster who said to just say "its cheaper".
You can't "sell" the opposite to someone who is expressing a loyalty belief. If their tribe believes in the opposite, then no amount of logic will change their minds - only a change of their or their group's allegiance will change their minds.
> I know some people who are adamantly against solar and wind
let me guess... they sell oil?
Nah, it definitely comes along for the ride. Maybe watch Folding Idea's (lengthy, sorry, he does that) documentary "In Search Of A Flat Earth".
That documentary is about QAnon (not about the "Flat Earth" per se) but it helps you understand that "But that's nonsense" is the point. I call this "Facts Aren't True" because that's the core of the idea. They don't like facts, the facts are uncomfortable, they can make up a better truth which does make them comfortable.
https://www.youtube.com/watch?v=JTfhYyTuT44
no, sadly its somehow become part of the global culture war. Fossil is right wing manly dominant power, renewables are woke and womanly and left.
Its all electrons how did we get here jesus.
> So what are some of the best talking points to "sell" solar and wind to the unconvinced?
Increasing utility energy prices worked for me. I wasn't anti-solar, but it didn't seem worthwhile for me. When the utility price doubled over three years (or just about), the math makes sense now. I'm not looking for solar to acheive grid independence though, I already have a whole house generator for that, because utility power is two nines reliable around here.
check volts.wtf and notably these recent podcast episodes:
https://www.volts.wtf/p/sooner-than-you-think-electricity
https://www.volts.wtf/p/giving-clean-electricity-a-political
Most likely their opposition to renewables is ideological and can't be cured by reason.
if you require a stable energy source, neither wind nor solar (nor both) provide a complete strategy. they can be a part of a composite strategy, though.
for both wind and solar, they're also quite taxing on the environment during manufacturing. the "true cost" is rarely reported.
nuclear energy has a different set of problems (including social / political ones). here's that industry's take on the economics of wind energy: https://www.ans.org/news/article-638/the-economics-of-wind-p...
That article is from 2011.
Wind power had dropped in price about 70% since then. Notably going from being more expensive than fossil fuels to substantially cheaper.
The sun will last forever (at least from our point of view).
>> I know some people who are adamantly against solar and wind
Sounds like they have more serious issues going on there... :-)
Put it on your roof. Never pay for power again.
Pretty easy sell for me.
A few different things would help.
First would be to be clear and unambiguous when it comes to building gas/oil thermal power plants in order to deal with the intermittence problem of solar and wind. Political strategies in wind and solar is built on trust, and people will quickly become unconvinced when politicians are dishonest/ambiguous about the requirements that is needed to support a grid with a high ratio of wind and solar.
Using fossil fuels as the reserve energy for when the weather is bad allows the producers of reserve energy to demand high market prices, to the point where a whole month in EU can cost as much as a full year. Even if solar and wind would put the grid costs to zero for 90% of the time, it doesn't make the cost for the consumer any lower if the fossil fueled "reserve energy" can increase their price by 10x. Selling solar and wind require some kind of solution here.
Reserve energy also want to be paid if they are expected to stand-by 365 days a week, which is a big reason why EU subsidizes to fossil fueled thermal power plants are not decreasing when the ratio of wind and solar goes up. That costs is then added as a grid fee/taxes, hiding the true cost. Paying first to keep the fossil fueled power plants warm and ready when solar and wind is producing, and then pay them a second time for whatever the market price is when they are producing is a very costly way to operate a grid.
And last is the transmission costs. Switching between multiple different energy sources depending on the weather has a high demand for a very flexible infrastructure in terms of transmitting energy from where it is being produced to where it is being consumed. In south of Sweden as an example, the cost of transmission infrastructure and the cost of reserve energy is now the majority of consumers electricity bill, with cost associated with production of energy being a small minority.
Solving those issues is what will convince people of the viability of wind and solar.
https://xkcd.com/3226/
PV is getting on the range where it pays for itself in 3 or 4 years. If somebody is just "against it", well, I have to agree with the sibling that said you can't reason with that person.
Why would you be adamantly against solar? That sounds like someone who is of the opinion that solar is NEVER a good idea. Nonsense.
I’ve talked to some local people who are convinced that panels slowly leach heavy metals into the surrounding ground.
They mainly argue against it on residential & farm land (Midwest USA) for this reason.
The argument I've seen against it for prime farm land in the UK is "Well we could use it to farm things" but that maybe lands less well in the US because of the enormous scales involved. "¿Por qué no los dos?" is the obvious retort in a huge region like that.
I've never seen "heavy metals" conspiracies, though I'm sure if I just wait I'll run into some because people sure do like making up reasons good things are bad...
Fox News is funded by fossil. They literally ship a 24x7 feed of why fossil is good and renewables are bad. It is their business model: money for placed content to shape opinions.
So someone watching that has strong opinions about renewables that is hard to overcome.
it depends. some places it makes sense, some places it doesn't.
it will be adopted when the money speaks. the good news is that money is a reasonably close proxy to "environmental benefit" (balancing the environmental costs of green infra production versus dirtiness of gas generation)
> some places it doesn't
I can see this for wind, but not solar. PV turns sunlight into electrical energy. The whole damp rock gets sunlight on the outside, why not build panels anywhere?
For wind yeah, if you live one of those boring flat places which gets tornadoes a wind turbine is definitely a bad idea, it won't make much energy and then a tornado turns it into scrap and possibly destroys nearby things with chunks of debris.
> why not build panels anywhere?
Because there's better alternatives same places. Norway has legendary well-suited topography for hydro power (>90% of electricity), and it's reliably windy (>8% of electricity). It's also so far north that the sun doesn't shine very much for half the year, and it's notoriously cloudy.
So yes, it will probably never make much sense to build a lot of solar panels in Norway. Same for Greenland, Iceland (substitute geothermal), and probably some parts of Canada, Alaska and Southern Argentina.
But also, yes, there's almost nobody living in those places. They're not terribly relevant in the grand scheme of things. Probably significantly less than 50M people in total.
Just to add some numbers here, in Sweden the amount of energy you get from solar during the worst months are a single digit percentage, while consumption of energy during the same period doubles from the average. Consumption during the best solar months drops to about half.
Solar works a bit better when consumption patterns is the opposite, and the output is more reliable.
I spent a good chunk of my life in the Pacific Northwest. You get very long stretches of cloudy skies through most of the winter that are poor for solar. However, there are alternatives in that region like hydro that may be more suitable choices.
If we can build skyscrapers that can survive tornadoes, can wind turbines be made tornado proof?
I believe this is one of those having your cake & eating your cake scenarios.
Wind turbines are designed to be aerodynamically loaded on purpose. The blades can pitch arbitrarily to compensate for unwanted loads in the axial flow direction, but beyond a certain point it doesn't matter anymore because wind can do a lot of other things.
Can we?
https://www.wfaa.com/article/news/local/tarrant-county/the-t...
> Before March 28, 2000, a tornado had never collided with a skyscraper.
> Bank One Tower sat, rotting. The Fort Worth Fire Department declared the building a fire hazard, forcing the Bass family to replace the plywood planks with fireproof metal.
Tornadoes are not actually very common in terms of how often you'd expect a structure to be hit by one. You're looking at hundreds or thousands of years between tornado hits even in the most tornado-prone areas. They're numerous, but small.
So what I'm hearing is very sturdy, christmas tree shaped turbines (long blades at the bottom, getting shorter as you go up), on a very heavy central shaft ending in a spike that gets driven deep into the ground by dropping them from great height with planes (there probably needs to be a thruster stage on top that accelerates them beyond mere free fall) into the path of tornadoes. No clue what to do with the energy, but that seems like a minor detail.
You need to include batteries in the equation: solar, wind, water and batteries.
What California and others have shown is that you can replace natural gas peaker plants (literally - tear out natural gas turbines) with batteries and get both superior cost dynamics and "dispatchability" (aka turning them on and off). Batteries have millisecond level dispatch, peaker plants have hours level dispatch.
In Australia conservatives with solar on their own roof continue to complain about renewables generally. It's just a weird cultural thing for some people.
Imagine being opposed to solar and wind....
Do people people really hate sun and clouds and stuff?
Or are they against the physical capture of geographical processes? ...
I've heard "muh birds" a few times. Ironically, it seems only those who eat chicken who seem to be worried about it :/
Why doing so? When there are so many people irrationally against something, there's always some upside in being closer to truth than the crowd. It's arbitrage.
I'm going to guess they are against it because it's "woke".
A question might be "why is it woke?"
And if it's because libtards like it, then you can point out that libtards like coffee, beer, sports, etc -- so when will they boycott those?
Rather than guessing, have you considered asking?
Sure, sometimes people haven't reasoned themselves into positions, and won't simply be reasoned out of them. But understanding others' epistemology is still the first step to changing minds.
>> I know some people who are adamantly against solar and wind
I'm guessing about those people. It's very clear that renewable energy is considered to be a liberal ideology by those that oppose renewable energy.
> Sure, sometimes people haven't reasoned themselves into positions, and won't simply be reasoned out of them. But understanding others' epistemology is still the first step to changing minds.
Both of your points are true but in effect are a contradiction to the original discussion. The moment somebody uses the word woke non-ironically as a reasoning point they are beyond reasoned discussion (at least from my experience). It's beyond vexing because there's no room for real dialog, just talking past each other.
Woke is cultural Marxism, deconstructing competence hierarchies, identity politics, quotas, oppression olympics, that sort of thing.
This isn't those things at all.
Plenty of people call renewable energy woke
> Woke is cultural Marxism
> Woke is an adjective derived from African-American English used since the 1930s or earlier to refer to awareness of racial prejudice and discrimination, often in the construction stay woke. [1]
> Cultural Marxism is a far-right antisemitic conspiracy theory that misrepresents Western Marxism (especially the Frankfurt School) as being responsible for modern progressive movements, identity politics, and political correctness. [2]
[1]https://en.wikipedia.org/wiki/Woke
[2]https://en.wikipedia.org/wiki/Cultural_Marxism_conspiracy_th...
Yes, the first one was the original meaning of the word.
The second one is... I don't know how to debate someone who quotes Wikipedia like this. It's not what I said. That article looks incredibly one-sided, and uses fallacies of the "You think snow is white? Did you know Adolph Hitler thought snow was white?" persuasion.
What is "cultural Marxism"? I genuinely do not understand.
I find no arguments against solar. I can put it everywhere and has no moving parts. Once storing is solved, perfect.
But wind?? Huge nature areas are destroyed by beton fundaments, rotors break, and just in germany was a scandal lately about recycling, as the first structures need to be renewed.
It's not like other forms of power generation don't have similar problems. Solar PV cells lose efficiency and need to be replaced. Nuclear has very long term storage concerns. Coal and natural gas plants have finite expected lifetimes before the whole plant needs to shut down.
This is exciting news but the term power here should really be replaced with electricity which is clarified early on in the article.
Electricity only accounts for roughly 20-25% of all power / energy used and the vast majority of the remaining 75% is fueled by gas (cars, ships, heating, construction, ect.)
This is true but also distorting because it's not an Apples-to-Apples comparison. Electricity is not only much more flexible it's also much more efficient when it's an option.
The internal combustion engine is not a very efficient way to convert fuel into movement, its key benefit was that it is compact enough to put inside the vehicle itself. A steam train was more efficient, and steam boats were more efficient still, but those are both enormous so it was seen as a more reasonable option for these vehicles. So an EV transition actually doesn't mean that much more electrical generation compared to much less fossil fuel production.
All true, but also remember that in a zero-fossil world the supply chain for solar/wind also needs to be decarbonized, which involves things like making green steel, which is not such a favorable efficiency story (the way to overcome it is simply to generate massive amounts of electricity cheap enough that you can eat the inefficiency).
I expect that a zero-fossil world does a lot more steel recycling. Today steel is insanely cheap. Not so very long ago steel was this wonder metal, too expensive to mass produce, and today the pennies most people don't want as change when buying things here have steel inside because no other metal would be cheap enough given the value of the coins. They're jacketed because people expect them to look like tarnished copper (they were once bronze coins), but copper is expensive compared to steel now so it's just a jacket around a steel core.
If steel went back to say, twice the price of bronze, I think recycling makes a lot more sense and that means far less need for new steel production.
Steel is cheap for two reasons: unaccounted externalities of the use of coal in the process, and massive scale. Coal-free steel is possible, but we don’t currently do it at scale, so there is work to do.
Recycling will make sense if steel becomes much more expensive, but a future with really expensive steel is not what we should be aiming for.
...Do we really need steel just to mount solar panels?
We need steel for a million and one things that make modernity possible, but in the context of renewable energy, we particularly need it to build the towers that the largest and most efficient wind turbines sit on.
That is true, but a lot of that, if replaced by electricity, would use considerably less energy overall, so it's not a 1:1 comparison.
Residential heating in particular would use anywhere between a third to half the energy, if we only transitioned to heat pumps.
Important to consider that your stat is likely comparing primary energy, not secondary energy. E.g. an electric car or a heat pump use less primary energy than the fossil equivalent.
Global solar PV deployment is approaching 1TW/year. All energy will be clean energy in the next 1-2 decades. Vehicles will electrify, as will heating. Roughly half of marine traffic disappears if you're not shipping fossil fuels around.
The exponential growth of solar power will change the world - https://www.economist.com/leaders/2024/06/20/the-exponential... | https://archive.today/lp9pZ - June 20th, 2024
https://ember-energy.org/data/china-cleantech-export-data/
no. if you work in the industry you'll know power/electricity are used interchangeably, and energy is treated as the superset. in the physics sense, you're right.
And roughly 2/3rds of that is lost as waste heat, so really only another 25% is actually useful.
If you don't look at electricity generation, yes. If you look at grid generators, that fraction can get as low as 1/3. (But then, it can get higher than 3/4 on transportation.)
So it really depends on who is counting and how. I do think transportation and heating use more energy than the grid, but I was never able to get a definitive number. (My best guess is it's close to 2 times larger.)
Also, electricity to transportation conversion is usually only around 80% efficient. Making electricity portable has a cost.
Is it possible to increase the grid by add solar and wind and NOT adding an on-demand backup source (gas, etc.) WITHOUT ADDING RISK?
What I mean is say the grid demands 100. The grid is powered entirely by coal. You give it 120 for 20% redundancy. This is extremely reliable.
The grid demand is now 120. You now need 144 for 20% redundancy. You dont want to use coal. So you add solar and batteries.
Batteries are great because they normalize the volatility of solar generation over time, but they do not make solar truly on demand. So if you add 24 solar to the 120 coal you are increasing the risk on the grid. What often happens is you add 24 solar but you have 24 coal as a backup. Ideally the real-world use will be solar but in case of downtime your grid will not fail.
Trivially yes, for any locations with summer energy use peaks. The solar output will be the greatest when the demand for cooling is at its greatest.
Yes, for places with sizeable hydropower. You simply hold the water for longer.
Probably yes, for places where the need for redundancy is rare. Natural gas peaker plants are cheaper to build and simpler to operate with the tradeoff of being less efficient than combined cycle plants.
Your existing demand is not flat. Not flat over a single day, nor a single week nor a single year.
So you already have some spare capacity on the system.
If your demand peak was summer air con, then adding the solar makes the system more stable. This can be seen in a few grids that issue less grid warnings in summer now.
In the Indian state of Bihar in the current summer season, the grid met the extra demand purely due to smart grid installed on rooftops. That state used to have shortage of electricity during peak summer until 2yrs ago
Not to mention solar contributed to more than 15 % of Indian summer demand which is crazily high due to 40+ degree temperature during the heat wave Solar that too decentralised is a massive boon
You add 100x1day worth of battery capacity. Which is fairly economical even today (though not economical enough to actually shut down coal). Wouldn't work everywhere (winter in New England needs more than 1 day of backup) but works in some places.
Take a look at California. Their grid is routinely, daily, generating ~84% of its power from renewables [1] (with ~25GW of existing solar PV capacity, ~6GW of wind, and ~6GW of hydro). They are adding batteries rapidly [2] (with a goal of 52GW by 2045; they are 33% of the way there). They still have ~32GW of fossil gas generation capacity, but it is rarely used constantly at full capacity. They have plans for another ~21GW of solar PV on land that can no longer be farmed due to water shortages [3] [4] (enabling families to keep their land with long term lease payments).
Not everywhere is California, but solar and batteries are the cheapest form of generation in 90%+ of the world [5]. You simply keep building more solar collection, storage, transmission, etc. to orchestrate collecting this "fusion at a distance" and distributing it to loads. The sun rises every day, and will for our lifetimes. We continue to deploy batteries and solar at manufacturing capacity, while continuing to increase manufacturing capacity year over year. You fill any gaps with fossil generation until there are no longer any gaps to fill [6].
Tangentially, Australia is currently testing a battery with a 8 hour discharge capability [7] ("Long-Duration Energy Storage (LDES)"), as they are rapidly preparing for a network/team of battery storage facilities to assume grid health responsibility from their retiring thermal coal generators [8]. Certainly there is much work ahead in understanding and developing longer duration energy storage systems.
[1] https://app.electricitymaps.com/map/zone/US-CAL-CISO/live/fi...
[2] https://www.energy.ca.gov/data-reports/energy-almanac/califo...
[3] 21GW of Solar for California Land That Can No Longer Be Used for Agriculture - https://news.ycombinator.com/item?id=46488648 - January 2026
[4] https://valleycleaninfrastructureplan.com/
[5] Solar electricity every hour of every day is here and it changes everything - https://ember-energy.org/latest-insights/solar-electricity-e... - June 21st, 2025
[6] Renewables reached nearly 50% of global electricity capacity last year - https://news.ycombinator.com/item?id=47615756 - April 2026 (149 comments)
[7] https://www.yahoo.com/news/science/articles/australias-first...
[8] https://www.aemo.com.au/-/media/files/initiatives/engineerin...
(think in systems)
> Take a look at California. Their grid is routinely, daily, generating ~84% of its power from renewables [1] (with ~25GW of existing solar PV capacity, ~6GW of wind, and ~6GW of hydro).
> ... Not everywhere is California, but solar and batteries are the cheapest form of generation in 90%+ of the world [5].
... Then why is electricity so expensive there compared to the US average?
politics. Supply is cheap, but California has a corrupt relationship with the monopoly provider, and lets them get away with bundling all kinds of costs into the distribution charge. fire rebuilding, social projects, decades of infrastructure neglect from previous corruption.
Go and compare the rates from a non-pg&e distributor (eg SMUD in sac) and you'll see, supply is cheap enough and it doesnt have to be this way.
A distribution grid for 40 million people in a high fire risk geography [1]. Renewables drive down supply costs, but not distribution costs (unless you can go off grid, etc). They could also improve costs by nationalizing PG&E (I argue, cutting out shareholder returns and excessive management comp), but that is an argument for another thread [2].
[1] https://hn.algolia.com/?dateRange=all&page=0&prefix=false&qu...
[2] "Where’s all the f&$#ing money going?" The Waste and Costs of American Utilities - https://www.thebignewsletter.com/p/wheres-all-the-f-and-ing-... - May 22nd, 2026
It's a good news but I didn't expect that coal is still on the 1st place and not really trending down. I though coal was largely replaced by gas years ago...
Nobody, anywhere, is building new coal power plants. Approximately all new power is wind and solar. Which is good. But there is still a lot of installed capacity. And until new solar is cheaper than existing coal (which will be awhile, maybe never) then coal only decreases as plants shut down.
> And until new solar is cheaper than existing coal (which will be awhile, maybe never) then coal only decreases as plants shut down.
Why wouldn't "existing solar is cheaper than existing coal, and existing coal is not required to meet demand" result in coal plants shutting down?
Not when the motto is “Burn baby burn”.
Trump plans $700 million in new coal support, White House official says
https://news.ycombinator.com/item?id=48401013
China is.
and yet their coal usage has declined in the last two years, and is projected to continue declining.
in large parts of the west! still good news
And gas is not going down either.
Coal is much cheaper than gas.
Not per-MWh in North America.
Is it cheaper per MW of generated power? I thought that the main reason use of gas has increased so much (for power generation) over the past 20-30 years is that gas became cheaper.
Gas allows to use combined cycle gas turbines (CCGT) which is more efficient and it makes gas cheaper for electricity generation.
Progress! Build more, we need it..
More good news from Ember, according to their Global Electricity Review 2026 [1]:
Solar power increased by a record 636 TWh to reach 2,778 TWh in 2025, a 30% increase from 2024.
Wind saw the second-largest increase, growing 205 TWh (+8.2%)
Driven by record solar growth, low-carbon power generation increased by 887 TWh in 2025, outpacing electricity demand growth of 849 TWh. Solar power alone met 75% of the net increase in electricity demand. Together with wind, the two sources met almost all (99%) demand growth.
For the first time in 100 years, renewables (33.8%, 10,730 TWh) overtook coal power (33.0%, 10,476 TWh) in the global electricity mix as continued rapid growth in solar and wind pushed the share of renewables above a third of global generation. Coal power dropped 63 TWh (-0.6%) in 2025, marking the first fall since the Covid-19 pandemic in 2020. Combined with continued electricity demand growth, this meant coal fell below a third of global generation for the first time in history.
For comparison, I have collated information from the International Atomic Energy Agency's Power Reactor Information System. The fastest that nuclear power generation ever grew was 213 TWh added in 1985. Since the year 2000, the fastest growth year was 2004, with 111 TWh added.
[1] https://ember-energy.org/app/uploads/2026/04/Global-Electric...
Solar and progress on better batteries is a more consequential and useful technological revolution than AI. Should be a huge story, but there's not enough money to be made via speculation so it's not.
> there's not enough money to be made via speculation
I mean, there is money to be made. CATL stock (the major producer of EV batteries with 50% market share, with billions of contracts for stationary batteries) rose 48.81% over the last 6 months, for example.
But I agree that news about renewables goes unnoticed. I only see news about renewables because I actively seek out channels and websites that cover it. I wonder if it is because most companies in the industry are Chinese and don't focus on PR in the West as AI companies do.
why is it? of course now this is true. But people investing money in the future of AI, a future where AI can produce an enormous amount of goods.
When will AI start producing goods?
Claude, Gemini and Grok are all doing shifts at Little Debbie’s making Swiss Rolls
Finally, AI has become useful!
AI is enough of an issue. As fast as we are adding renewable capacity, demand is also growing extremely fast. We're chasing a rapidly moving target. And we're stuck in an adverse political climate for the time being as well.
Nailed it. Solar, wind, and batteries are going to be the predominant form of generation in a decade, but there is no speculative benefit, so it’ll happen silently.
To be fair (and, somewhat ironically, rationally detached libertarian) that's the way it's supposed to be. We don't develop and deploy technology to make a bunch of too-online nerds rich. We develop and deploy technology to make everyone's lives better by providing goods at lower expense and lower externalized cost.
Indeed, but wouldn't it be great if all of this capital pouring into the AI bubble went into global electrification and clean energy instead?
Ah well, we'll get there eventually.
https://ourworldindata.org/grapher/installed-solar-pv-capaci...
https://ourworldindata.org/grapher/wind-generation
https://ourworldindata.org/renewable-energy
https://ourworldindata.org/electricity-mix
https://electrek.co/2026/02/23/texas-is-about-to-overtake-ca...
https://ember-energy.org/latest-insights/battery-storage-is-...
https://www.cleanenergywire.org/news/germanys-solar-installa...
The percentage increases here don't really tell the full picture. Look at it in terms of pure TWh [1]. China just dwarfs any other country in terms of wind and solar deployment. I guess that's the difference between putting engineers in charge instead of those who believe in the magical powers of red heifers [2].
One of the short-term issues in the US is going to be that a lot of utilities depend on natural gas and natural gas prices are going to keep rising beyond whatever happens in the Persian Gulf because of increased LNG exports (that directly raises domestic prices) and the increased use of gas turbines for AI data centers. Plus all the consumers are going to pay for the infrastructure buildout for electricity for those data centers.
So, despite a large Y/Y solar increase in the US, electricity prices are only going up.
[1]: https://www.statista.com/chart/36117/electricity-generated-b...
[2]: https://news.ycombinator.com/item?id=48393661
Also worth looking at recent Australia events, where evening peaking is incredibly severe. But batteries have been carrying the entire load!
Incredible gobsmacking amount of stored energy on display here. Great to see. https://bsky.app/profile/neilgrant.bsky.social/post/3mneo3to...
I feel the energy conversation is dominated by people that don't realize how far Solar tech has come recently arguing with other people that don't realize short nuclear half lives have gotten recently.
Finally some good news!
*electricity . Gas is heavily used for heating , cooking & industrial uses (e.g. drying agriculture like hops, boilers etc).
I raise this point since policymakers get confused and try to ban gas, only to realize how critical gas is for food & industrial applications that consumers enjoy after the fact.
You're correct that this ought to say "electricity" and not "power".
But I think you're wrong to think that gas is "critical" to any of the things you've listed. "Currently used" ... yes. "Not replaceable by electricity" ... no (unlike, e.g. air travel).
explain the cost to replace a hop drying kiln with an electrical one, including the grid load.
I'm not going to do that.
Electrical heat using heat pumps is cheaper than in-situ heating with any fossil fuel because (a) the base price per unit of energy is (or certainly can be) lower (b) the coefficient of performance is higher.
There are obviously costs to changing heating systems. But that doesn't mean that a gas heating system cannot be replaced by an electrical one.
Most of it can be electrified. NYC has banned gas hookups in new residential buildings (I live in one and it's great). Industrial electrification will never be 100% but I've seen estimates as high as 90%. It will take time and money but it will happen.
China having managed to position itself as the main driver of the green transition by investing into key industries illustrates the power of state planning. The markets simply can't operate on horizons of decades because there is no immediate profit to be had. You need long term planning and sustained investment that only a state is able to provide.
Renewable energy offers a competitive advantage for any energy intensive activity --- like manufacturing or AI.
China gets it, the USA doesn't.
Good China numbers, but I’d still keep two things in mind.
China is moving very fast on clean power. But total energy is still very fossil-heavy, about 78%: 51.4% coal, about 26.9% other fossil fuels, calculated as the remaining share after coal and non-fossil, and 21.7% non-fossil in 2025, based on official Chinese figures.
The U.S. is about 82% fossil overall, so roughly comparable to China’s ~78%, just in a different way. Much less coal now, around 8%, but a lot of oil and gas: petroleum about 38%, natural gas about 36%, according to EIA’s 2024 summary.
For electricity, China was around 11% solar and 11% wind in 2025, according to China’s 2025 Statistical Communiqué. The U.S. was around 9% solar, including rooftop and other small-scale solar, and around 10% wind in 2025, according to EIA.
Nuclear is a major difference in the electricity mix: about 18% of U.S. electricity generation versus roughly 5% in China, based on EIA and China’s 2025 Statistical Communiqué.
And yes, EIA is not a typo for IEA EIA is the U.S. Energy Information Administration, whereas IEA is the International Energy Agency.
Even so, the article says it grew 8% YOY in the US. The best is to hope that this is an unstoppable trend so that even politicians won't be able to reverse it.
It’s already irreversible, but it’s just disappointing to see how the U.S. administration has chosen to actively fight against it, while other countries like China are embracing reality.
It’s actually funny if you don’t think about it too hard. The U.S. president is trying to make us more reliant on fossil fuels, while starting a war in Iran that’s led to the global fossil fuel market to be negatively impacted, forcing most Americans to pay more for fossil fuels. Who could have seen that coming? We’re doing great!
> the U.S. administration has chosen to actively fight against it
the biggest producer of renewables is Texas, by a longshot. and the state of california just created insane NEM laws that favor the pockets of pg&e (and are shit for the environment) and as a result solar home installations have cratered.
> the biggest producer of renewables is Texas
That doesn't refute the point at all.
no, but renewables do speak for themselves in dollars and cents, even if they dont have subsidy. now should petrochem subsidies end too? probably yes.
> renewables do speak for themselves in dollars and cents
Yes. But administration opposition can change that math, as they have with the tariffs.
Both NEM 2.0 and 3.0 have serious issues, but for different reasons. NEM 2.0 was basically a early adopter's rich person's subsidy that heavily distorted the market, and NEM 3.0 does not have nearly enough subsidies to justify the cost unless you pay cash up front for a large system. (For the record, I am on NEM 3.0 and got such a system).
At the end of the day, the best case scenario is large scale renewable / battery storage to bring costs down as much as possible, and for those of us who want battery backup / solar can choose to invest in it, but it shouldn't be "the" solution.
From the CalISO graphs, there doesn't seem to be a shortage of solar power for most of the day. It doesn't seem reasonable to incentivise production in the same way as it was when that wasn't the case.
I think NEM 3.0 incentivises storage now? Which seems to be what the (California) grid is looking for.
Texas barely scrapes into the top ten red states by percentage of wind and solar, despite its ideal geography.
"No One Could Have Predicted This!" - Nation where this happens all the time
Imagine how much faster it would be growing if the U.S. government wasn’t paying companies billions to not produce wind energy
https://www.nytimes.com/2026/03/23/climate/offshore-wind-gas...
or delaying standard approvals
https://www.nytimes.com/2026/02/04/climate/wind-solar-projec...
Or forcing unprofitable coal power plants to remain operating against their owners' wishes. https://www.energy.gov/documents/doe-order-no-202-26-19-scha...
Even so, the article says it grew 8% YOY in the US.
Versus 35% YOY in China.
China gets it, the USA doesn't.
The best is to hope that this is an unstoppable trend
The trend is the USA choosing politics over reality as China becomes unstoppable.
https://carboncredits.com/china-adds-power-7x-more-than-the-...
Never underestimate the capacity of shitty people to shoot themselves and others in the foot.
The USA get's it. Trump doesn't. Texas is a the leader in wind and solar in the US.
Compare generation stats for yesterday between 2021 and 2026 on the Texas grid (ERCOT)
* 2021 - https://www.gridstatus.io/live/ercot?date=2021-06-03
* 2026 - https://www.gridstatus.io/live/ercot?date=2026-06-03
Also, the Californian grid (CAISO) shows where everyone is headed with a huge deployment of batteries:
* 2021 - https://www.gridstatus.io/live/caiso?date=2021-06-03
* 2026 - https://www.gridstatus.io/live/caiso?date=2026-06-03
All of that combined is peanuts compared to what's happening in China. Not to mention that all the panels and most of the wind turbines are produced in China. It's not just a question of installing them, it's having the industry and technical know how to make them that really matters.
https://ember-energy.org/latest-insights/global-electricity-...
Spoken with such authority!
Indeed. Steel mills, aluminum smelters and glass factories really adore the intermittent nature of renewables.
Smelters in Australia are leaning on the fossil-friendly politicians to stop getting in the way of renewables because they can't compete with global prices unless they use renewables.
Unlike in the USA --- they obviously look beyond the rhetoric to grasp the fact that renewables help lower energy costs even if their industry doesn't fully depend on them.
Germany screwed themselves.
The world screwed itself by not investing in renewables earlier. Germany paid a high price for being early, but we all should be thankful for Germany creating an economy of scale and bringing cost down.
And while the extreme right wing propaganda claims that Germany is doomed because of the Energiewende for the last 20 years or so, it is somehow still the third largest economy.
Yes, that probably explains why US imports of steel and aluminum continue to grow, even with a 25% tariff.
US manufacturers and consumers just love the added cost --- aka, inflation.
https://www.steel.org/2026/03/steel-imports-up-4-6-in-januar...
I am waiting for balcony solar to hit it off just like rooftop solar.. a few installers flat out refused to install on my balcony!
I want to feed the balcony solar o/p back to the grid and not have a off grid system
Meanwhile I bought a 25W solar panel and a controller and am going to make a solar charger to charge my powerbanks
Great news. Now let's surpass coal, the far more insidious and prevalent source!
How is that working for German industry where you need dense energy if you are going to continue build anything big..
Multiple ways. One interesting one is huge sand batteries that are being heated up to massive temps, then having pipes run through there to collect the heat energy as hot water and doing the industrial processes that way.
Another way is using excess green energy to produce green hydrogen, which can be used as a fuel source in very high energy scenarios.
Past that, we recently have made electric arc furnaces and electric smelting furnaces for steel and aluminum, and several of these are fully solar powered.
It’s a shift to change the energy source for industrial production, but we have the technology and the ability. And the sun is free!
Believe it or not, a large solar field (or several!) can readily densify its energy into a nice small power transmission line.
Surely households using more wind and solar frees up capacity for 'dense energy' though?
You turn the machines on when electricity is cheap, and turn em off when it's not?
Folks operating businesses that depend on oil prices would know these tricks?
when energy is abundant, you use it to hoist a large rock very high up above your head
when energy is scarce, you drop the rock on your head
pretty well? and it can only get better if we continue rolling out renewables?