That technology is cables. Cables allow us to move energy over long distances. And with HVCD cables that can mean across continents, oceans, time zones, and climate regions. The nice things about cables is that they are currently being underutilized. They are designed to have enough capacity so that the grid continues to function at peak demand. Off peak, there is a lot of under utilized cable capacity. An obvious use for that would be transporting power to wherever batteries need to be re-charged from wherever there is excess solar/wind power. And cables can work both ways. So import when there's a shortage, export when there's a surplus.

And that includes the rapidly growing stock of batteries that are just sitting there with an average charge state close to more or less fully charged most of the time. We're talking terawatt hours of power. All you need to get at that is cables.

Long distance cables will start moving non trivial amounts of renewable power around as we start executing on plans to e.g. connect Moroccan solar with the UK, Australian solar with Singapore, east coast US to Europe, etc. There are lots of cable projects stuck in planning pipelines around the world. Cables can compensate for some of the localized variations in energy productions caused by seasonal effects, weather, or day/night cycles.

For the rest, we have nuclear, geothermal, hydro, and a rapidly growing stock of obsolete gas plants that we might still turn on on a rainy day. I think anyone still investing in gas plants will need a reality check: mothballed gas plant aren't going to be very profitable. But we'll keep some around for decades to come anyway.

Don't let these advancements in solar make you think things are getting better. We need to reduce fossil fuel usage, not just increase solar usage.

https://pocketcasts.com/podcasts/b3b696c0-226d-0137-f265-1d2...

Now that's a major development not mentioned much.

Heat pumps have both improved quite a bit, and become cheaper due to sheer volume.

It's interesting to realize that the vast majority of the energy used by humans comes from the sun (with the exception of nuclear and geothermal energy). Even hydro power comes from the sun, because the sun evaporates the water which then becomes part of rivers or other water reservoirs that power hydroelectric generators.

Nowadays he is diving into what he terms the phase change disruptions where he explores and thinks out the ramifications of these disruptions.

https://www.youtube.com/watch?v=A9McWXZA5wc

I’m all for solar - but does it really solve the geographical / geopolitical issues of oil, as it’s currently rolling out?

China produces pretty much all the solar panels - That’s quite a big concentration of power, even more so than oil.

I don’t really understand inertia in power plants but I wonder if it helps to push nuclear as primary and solar as secondary?

>> of twenty-one thousand respondents in twenty-one countries, found that sixty-eight per cent favored solar energy, “five times more [...]

could be just:

>> of 21,000 responders in 21 countries, found that 68% favored solar energy, "5x more [...]

One point curious in its omission is whether the growth of renewables outpaces the depletion of our carbon budget. Presumably that’s the critical metric in all of this.

[Edit: I ran this question through ChatGPT and the initial (unvalidated) response wasn’t so exciting. This obviously put a dampener on my mood. And I wondered why people like McKibben only talk about the upside. It can sometimes feel a bit like Kayfabe, playing with the the reader’s emotions. And like my old man says: if someone tells you about pros and cons, they’re an advisor. If someone tells you only about pros, they’re a salesman.]

[1] - https://thehonestsorcerer.substack.com/p/the-tale-of-two-ene...

This is amazing! Whether you believe photovoltaics are the most efficient form of green energy production or not, you cannot argue the impressive economics behind them. Successful engineering has to meet the market at the end of the day.

I also really liked this passage about the direct on-the-ground effects of being able to install solar panels:

> If you have travelled through rural Asia, you know the sound of diesel generators pumping the millions of deep tube wells that were a chief driver of the agricultural Green Revolution of the nineteen-sixties and seventies. Now solar electricity is pumping the water—diesel sales in Pakistan apparently fell thirty per cent in 2024. If you’re a farmer, that’s kind of a miracle; fuel, one of your biggest costs, is simply gone.

Being able to pay a one-time up-front cost and just....never have to worry about paying for fuel for your irrigation system again. Truly remarkable.

It is, if you'll pardon the pun, quite a ray of sunshine in these otherwise dark and uncertain times.

Money doesn't exist anymore.

I think at least 70% of the Hacker News crowd would hate this world because they would have no idea what to do with their life under these circumstances.

What is life about except turning a profit? How can you have power over other people? Feel important with all your money? Look at Elon, he's happy.

(They probably would become Ferengi).

Maybe people can learn something from the anarchist David Graeber.

A lot of this article was clearly written with rose-colored glasses on, but this might be the silliest line of all. The author just finished talking about how a single country makes up the overwhelming share of solar panel and battery production, but hey, look how much more "diffuse and ubiquitous" it is!

A lot of people are in denial and like this is all hype it'll never happen followed by wow how did that happen.

Isn't it what the current US administration want? A weak USD to boost export?