But it's a good step along the way to a headline like the above.
Dams provide most parts of the globe a lot of seasonal storage. It takes the same water if they average 10% over the year or 5% over 9 months and 25% over 3. Similarly, locations for wind farms often vary in the season they provide the most power. So the economic maximum around high solar productivity ends up compensating for it’s lower winter output.
Is this true? I think it's the opposite, that dams and pumped hydrostorage of energy works in a few areas where the geography supports it, but (for example) in the plains of the USA it's not really possible.
Why haven't we built a huge solar farm around the Hoover Dam to pump water back up to Lake Mead insted of letting it flow downstream.
Given how oversubscribed the river water already is, how the river flow rate is steadily diminishing due to increasing temperatures, and the politics involved, even a small or temporary additional reduction in downstream flow would encounter huge opposition.
The northeast and northwest has an abundance of water. Managing total water usage is a large problem for the southwest but there’s many opportunities to do things like reduce evaporation.
Looking at the US most of it is family close to large scale hydropower, except Florida, but it’s a little under 7% of annual power nationwide. https://www.eia.gov/todayinenergy/images/2011.06.10/hydro_pa...
Europe just sucks in oil, gas, uranium and some coal from the rest of the world to give back what exactly?
So it is no surprise that renewable energy is showing up as significant these days, particularly when so much manufacturing industry is closed down and exported overseas.
The thing is that China and elsewhere in East Asia are burning those hydrocarbons now, so it is just globalization of the emissions.
Regarding nuclear, the French have been kicked out of West Africa so no cheap uranium for them, paid for with the special Franc they can only print in Paris to obtain as much uranium as they need from Africa.
The solar panels come from China so it is not as if Europe is leading the way in terms of tech.
All Europe government bodies also want the bicycle these days, with dreams of livable neighbourhoods and cycling holidays for all.
I doubt they care for solar panels or the bicycle, however, after the Ukraine crisis in 2022 it must be clear to some in Europe that there are no energy sources in Europe apart from a spot of Norwegian gas. When paying 4x for fracked LNG from Uncle Sam it must be an eye opener to them.
You're overstating this a bit; there is a lot of coal in Europe (natural gas only got ahead of coal in Germany over the last years).
> Europe just sucks in oil, gas, uranium and some coal from the rest of the world to give back what exactly?
Finished products (like cars), some services, bit of tourism? What exactly is the problem here?
Uranium mining in Europe would be perfectly viable, but no one wants to, because modern practices basically ruin groundwater quality for a long time (in-situ leeching). This applies to a bunch of other things, too; hard to justify mining cadmium in the Alps when you can just buy the finished product for cheaper while keeping your local environment intact.
> The solar panels come from China so it is not as if Europe is leading the way in terms of tech.
They used to produce lots of those in Germany-- it's just become way cheaper to buy them from China, especially after local subsidies ran out. You could make an argument that the germans shoulda tried to keep the industry somewhat alive for strategic reasons, though.
That's called manufacturing, the best skills in the world. Yeah it's tough work and pay is not brilliant, but when shit happens that's the thing that is going to save EU.
It's called "money". Numbers on a screen that you can exchange for goods and services. The people with the oil are typically quite happy to give Europeans that oil in exchange for some European money - and the Europeans don't have to give anything back at all. The exchange has been made.
But if in the future we don't have to buy as much fossil fuel as we do today, it'll probably have sizable effects on our economies.
The coolest thing about solar is that the devices to capture the fusion energy in the skies are manufactured, unlike other options being built. I'm not anti-nuclear but I don't like its extremely long building phase.
I sometimes fantasize about closed loop fully automatic solar PV panels factories that we can build on some remote area, just bring in the raw material and let it auto-expand using the energy it captures. As it grows geometrically at some point we can decide that we no longer want it to grow and start taking out the finished PV panels and installing them everywhere.
Storage for the night probably wouldn't be that much of a problem, not everything needs to work 24/7 and for these things that need to work 24/7 we can use the already installed nuclear capacity and as the energy during the day becomes practically unlimited we can just stor it however we like even if its quite inefficient. With unlimited energy space wouldn't be a problem, we can dig holes and transfer materials into anything we need with the practically free daytime energy.
Large grids, overbuilding renewables, diversity of renewables, short and medium term storage, and load shedding/dynamic pricing are all good starts but IMO won’t be enough— we should scale up nuclear too.
Where we're replacing fossil fuel heat with a heat pump we don't get that efficiency improvement from motors - burning fuel was 100% efficient per se, but the heat pump is > 100% efficient in those terms because it's not making heat just moving it.
Nuclear is much less popular than almost any generation technology, so you're fighting a significant political battle to make that happen.
Reaching current nighttime use with storage and wind and existing hydro looks infeasible, and we need a minimum of twice as much.
Power to gas (and back to power or to mix with natural gas for existing uses) is probably a part of this, but nuclear improves this (allowing there to be less of it and allowing the electrolysis cells to be used for a greater fraction of the day.
Its usage is technically accounted for in fossil fuel extraction numbers, but generally ignored when people are accounting for total electrical generation and the usage of fuels as heat sources.
With a 5x higher LCOE and lead times of 15-20 years instead of 1-2 for solar/wind deployments, allocating money to scale up nuclear as well will just make the transition happen slower and at higher cost.
The scale is such that if we imagine a future with fully electrified cars, the batteries in those cars are more than enough to load-balance the current uses of the grid, and still are enough for the current uses of the grid when those batteries have been removed from the vehicles due to capacity wear making them no longer useful in a vehicle.
The best time for more nuclear power was the 90s, the second best was 10 years ago; unless you have a cunning plan you've already shown to an investor about how to roll out reactors much much faster, I wouldn't hold your breath on them.
https://ember-energy.org/latest-insights/solar-electricity-e...
It's saying solar + batteries is enough to supply 97% of power cheaper than any other way in sunny locales.
It's possible to get 99.99% of your power with solar + batteries, you'd just need a lot of batteries. The news is that batteries have got so cheap that you're better installing enough batteries to hit 97% and leave your natgas peakers idle 97% of the time. That number used to be a lot lower, and that 97% number will be higher every year.
The other cool thing about that report is that it gives a number of 90% for non-ideal places. Sure solar is cheap in sunny locales, but that solar is cheap in places that aren't sunny is far more exciting to me.
A small amount of other power generation whose output isn't correlated with the sun overhead should do a lot to make the last few percent (which come up when there's many cloudy days in a row) cheaper.
Solar's just knocking it out of the park at this point. Building out anything else new (as in you haven't already started) doesn't really make sense.
That said, using it in aircraft (and a number of boots/submersibles) economically is an unsolved problem, but many other places can use it.
this argument relies on the false-but-widely-held idea that "natural resources" are commercial wealth and if you don't hold them you are poor. Look at Japan, has very limited natural resources and not hippies but has built a world-class economy on knowledge work. Look at resource rich 3rd world countries, why are they poor?
If Europe needs oil, they can buy it, it's completely fungible and sold at auction in huge volumes every day. The reason for the switch to wind and solar is the global warming argument, not the "we don't have our own oil" fallacy.
I hate this argument. Why should one care about global warming in order to switch to solar? It just makes sense economically. Even if you think that the world is flat, solar energy is still cheaper than anything else.
You say "OK, Joe thinks the Earth is flat but he should still use Solar" and Joe doesn't follow. Joe's number one news source is "Jenny Truth Sayer" on TikTok and Jenny just told him that the solar panels attract Venusian Space Clowns, and he has to smash them with a hammer or else his genitals will explode
There are greedy assholes for whom it doesn't matter why the line is going up. But it turns out they don't like wind or solar because they're too democratic. Those assholes are - like most capitalist asshole, used to a system where you own stuff (a mine, a well, a pipeline, a ship) and you get infinite money, but newer systems aren't about owning stuff. You can't own the sunlight, or the wind, well then it's no good is it? The big oil companies stepped back from "We're part of the transition" and doubled down on fossil fuels, because that means more money for them, and if we all die well, too bad.
That didn't end well when the oil and gas supplier decided to invade Europe. They even run clips showing how Europe will freeze in the winter and be poor if keep supporting the invaded ally.
Check this out: https://www.youtube.com/watch?v=HvdBzZVVovc
If EU wasn't heavily invested in green tech and efficiency, the Russians film might have had become a reality.
Just use the fusion in the skies.
I think we cannot buy oil and gas only from sane countries or we would already.
How can you regain sovereignty? Installing solar and heat pumps is part of this process.
“Look at Japan”. Ok, let’s look. They attacked the US in 1941 because of the US oil embargo. Their current situation is predicated on the US continuing to be the world’s policeman, ensuring that shipments get from point A to B. There will come a time when that assumption will not hold.
Things change.
> The coolest thing about solar is that the devices to capture the fusion energy in the skies are manufactured, unlike other options being built. I'm not anti-nuclear but I don't like its extremely long building phase.
What do you do during a windless cloudy day or (any) night? No solar, no wind, no nothing. Small clouds, large power fluctuations, and you get grid failures.
Yes, sure, nuclear takes 10 years to build, and 10 years ago, people like you were complaining about the same things, and same for 20 and 30 years ago. If we didn't listen to the "it'll take 10 years..." 10, 20, 30 years ago, we'd have a lot more nuclear power now, that also works at night.
And we do have and build much more high voltage transmission lines.
And otherwise there is no technical limit to build lots of rare earth free batteries. Once they are common in allmost every household and once electric cars can be used for that, too, I don't see any technical problem.
It takes time and investment of course. And pragmatism till we are there. I don't like coal plants, but I am not in favor of just shutting them down now.
For the US PJM (US east coast and midwest) and CAISO (California, Oregon, Washington, Nevada) grid areas, total wind power fluctuates over a 4:1 range on a daily basis. Both grids post dashboards where you can see this. Averaging out wind over a large area does not help all that much.
This largely means we have to build a bit more of each, and store some.
The chances of an entire continent being devoid of wind and solar for an extended period becomes vanishingly small pretty fast.
Heck, there are companies cleaning up coal plants to use the connection for solar or wind, and that's a lot more expensive than cleaning up an old solar plant.
Even when it's cloudy there's still light, it's not as if it's pitch black when there's clouds, what do you think is illuminating everything still?
But efficiency in solar panels needs to increase, which is happening.
I guess you mean stuff like this https://gravitricity.com/ - I believe there's a few old coals mines in Scotland that have (/in progress) been retrofitted as gravity batteries to store renewables which is pretty cool (https://www.bbc.co.uk/news/articles/c5yd18q248jo)
Due to that, much of the solar generation can't but be highly local.
I’d love to know how well loaded the lines are and a cost analysis of batteries at every sensible junction. Things like charging batteries close to solar and discharging them at night and having residential batteries to cope with peak demand.
There's no strong deterrent there. These plants don't blow up like nukes, or even Chernobyl. Nuclear disasters require very precise conditions to sustain the chain reaction. Blowing up a reactor with conventional weapons will spread the fuel around, which is a nasty pollution, but localized enough that it's the victim's problem not the aggressor’s problem.
Why do you even mention transformers and cables as an implied alternative to nuclear power plants? Power plants absolutely require power distribution infrastructure, which is vulnerable to attacks.
From the perspective of resiliency against military attacks, solar + batteries seem the best - you can have them distributed without any central point of failure, you can move them, and the deployments can be as large or small as you want.
(BTW, this isn't argument against nuclear energy in general. It's safe, and we should build more of it, and build as much solar as we can, too).
All in all, it's several things that need to be reinforced. The distribution network needs to be smarter. The energy generation facilities need to be tested through their entire voltage range, so they can be counted upon. And there has to be more voltage inertia available in the network.
No, you got this exactly the wrong way.
In fact, it was Russia who initially funded European (German) "green" movement, their main purpose was opposing nuclear (by far the greenest elective source of energy, as evidenced by France's carbon footprint), so that Europe (Germany) would get hooked on Russian gas.
The plan worked brilliantly!
But beside this, Germany was leading in the anti-nuclear movement, and finally shut down there last nuclear power plant two years ago. Currently, in Germany, renewable energy sources [1] are around 75% in the summer and and 55% in the winter month. Renewable are growing fast [2].
[1] https://www.energy-charts.info/charts/renewable_share/chart....
[2] https://www.energy-charts.info/charts/remod_installed_power_...
We have plenty of oil and gas (normal and fracking). We have just convinced ourselves its better to leave it in the ground and pay foreign countries instead. ¯\_(ツ)_/¯
The energy crisis in Europe is a self-inflicted wound.
e.g. The UK grid fluctuates between 25% and 75% renewable. That only works because there is significant gas capacity on hand plus France nuclear and Norway hydro can cover about 15% with interconnects.
Only way to get this even more renewable is with plenty storage (or nuclear if you're of that persuasion)
It ”just” needs to be a magnitude or maybe two more economical.
Context: Nordics, generally electric residential heating via heat pumps, week-long periods of very little sun + wind, typically when it’s the coldest.
In the meanwhile we are rebuilding nuclear.
You mean like OL3 or the political noise with hundreds of billions in subsidies needed to get the projects started?
I get it, you really dislike the Nordics’ nuclear power production increasing. Since we run a net export this reduces gas imports from Russia. I do admit that I have wondered if the reason you are so obsessed with this topic has something to do with that country.
I have witnessed far more patient people than myself deal with your insistence over and over.
I have also noticed what I would think of as almost a religious zeal on your part. In these long and painful arguments you refuse to learn when people try really hard to impart relevant knowledge.
Thus I will not engage any further.
The plan is essentially locking in energy poverty for generations due to the costs.
Are you not worried about pissing away one of the largest advantages Scandinavia has in cheap electricity? And instead of investing in the future we’re going all in on a dead end industry.
Marginal pricing seems to be a large part of the problem when the general public do not see the benefit of this green revolution that's been going a long time.
In the UK part of the payment is for social/environmental factors. It's about time the state awarded people that have already done that instead of paying marginal prices.
The joke is that the LCOE of solar is "Infinity / kWh" at night if the battery is empty, "-Infinity / kWh" at noon if the reservoir is full, and "NaN / kWh" when there is not enough câbles.
That being said, the answer to "which carbon -light electricity source should we build ?" is "YES".
I, too, long for the days where we have batteries massive enough to not even care any more.
This is no longer true.
Storage has become a lot cheaper very rapidly. The LCOE of solar with storage covering the night is now competitive.
“For the first time, solar was the largest source of electricity in the EU last month, supplying a record 22 percent of the bloc’s power.”
Great result, but not “biggest source of power” yet.
Still, diversity of energy production is a good thing. There's no one silver bullet. Solar + Wind + Nuclear + Fossil + Hydro all have their pros and cons.
In particular, during hot and dry months, Solar will shine while Hydro will be a trickle of power (no pun intended), also affecting Nuclear and Fossil power plants near rivers.
[1] https://www.energy-charts.info/charts/remod_installed_power_...
[2] https://www.energy-charts.info/charts/renewable_share/chart....
toomuchtodo•5h ago
slaw•3h ago
EU is ahead of China and US.
EU June Solar power generated 22.1% of EU electricity (45.4 TWh)
China April solar power generated 12.4% of electricity (96 TWh)
US March solar power generated 9.2% of electricity
https://ember-energy.org/latest-updates/wind-and-solar-gener...
https://ember-energy.org/latest-updates/fossil-fuels-fall-be...
IshKebab•8m ago