[manfredo]

Right, as evidenced by the extensive storage infrastructure being deployed /s.

The US has 25 GWh of storage, as compared to an hourly electricity consumption of 500 GWh. Literally less than ten minutes of storage. Almost all of it hydroelectric, which is a big infrastructure project on par with building nuclear power plants

I'm sure you're eager to talk about how thermal storage, or concret weights with pulleys, or compressed air is going to be 100x better than current solutions. But until those things move out to prototypes and I to mass production, they represent potential solutions not actual solutions. Like fusion. If the next attempt at fusion works, great! But building out infrastructure assuming it's going to work is extremely unwise.

[pfdietz]

> Right, as evidenced by the extensive storage infrastructure being deployed /s.

Invalid argument.

> The US has 25 GWh of storage, as compared to an hourly electricity consumption of 500 GWh. Literally less than ten minutes of storage. Almost all of it hydroelectric, which is a big infrastructure project on par with building nuclear power plants

Irrelevant point.

Storage was marginal in the past because there wasn't much of a business case for it. With renewables crashing in price and fossil fuels being phased out, that is changing. There are now strong market forces pushing development of storage technologies. Your insistence of carrying over the market conditions of the past into the future leads you astray.

[sir_bearington]

California has already saturated the daytime energy demand on sunny days. So does Hawaii. The market forces already exist. But people aren't building storage. Because it's not feasible, short of a decisive breakthrough in storage technology.

Maybe one of the proposed storage solutions will pan out. But building out trillions of dollars of infrastructure projects on the hope that a future breakthrough will make storage feasible is very risky. Fusion has been 10-20 years away for the past 50 years. General artificial intelligence has been 10-20 years away for the past 50 years. Between:

1. Going with a known solution, that already generates more electricity than solar and wind combined and one we have 70 years of experience working with.

2. Going with a solution contingent on a massive technological breakthrough to actually work.

When the stakes are as high as climate change, I cannot even remotely justify going with #2 over #1 even if the costs are potentially lower on paper.

[pfdietz]

> The market forces already exist.

And that is a recent thing there. The global market is still developing, and technologies don't materialize instantly. CO2 taxes are still low (or zero) just about everywhere.

But hey, I hope you are also not going to claim nuclear will be cheaper in the future, because I could reflect that argument right back at you. And I could observe that, unlike with renewables and storage, nuclear has a horribly bad historical experience curve.

> Maybe one of the proposed storage solutions will pan out. But building out trillions of dollars of infrastructure projects on the hope that a future breakthrough will make storage feasible is very risky.

It's only a $$$ risk. We absolutely know the storage is possible, we just haven't confirmed how cheap it will be. Worst case is we spend a bit more. This is fine. Investments are not guarantees; one is always gambling.

[sir_bearington]

No, it's not "worst case we spent a bit more". Total global lithium ion battery production amounts to less than one hour of storage for the United States alone. Things like pulleys and synthetic methane remain in the prototyping stage.

By this logic why not just use fusion? It's possible. We don't know which exact approach we'll use (lasers, magnets, etc.). We don't know how cheap it'll be, but hey it'll happen eventually right? No.

It's not "worst case we spend more money". It's "worse case we never solve climate change". And that's a pretty bad worst case.

We're already at the point where markets are starting to see saturation with renewables. But this unfounded aversion to nuclear power is hampering actual progress to decarbonization. The cost of waiting around and hoping for storage to become viable is not just the cost of building those storage systems, but also the continued release of fossil fuels as we wait for that to happen - and who knows when that will happen, if ever.

[pfdietz]

No, it is "worst case we spend a bit more". We absolutely know that storage is possible. Pumped thermal electricity storage, for example, uses only well understood technologies.

We solve climate change by raising CO2 costs high enough. Again, this is not a go-no go thing, it is just haggling over the price.

> We're already at the point where markets are starting to see saturation with renewables.

This just means CO2 taxes aren't high enough. BTW, they'd have to be $300-400/ton for new nuclear to compete with gas in the US.

[sir_bearington]

No, pumped storage is not feasible. It's both geographically limited, and it's not available at the appropriate scale. Estimates for how much storage would be necessary for renewables to work range from 12 hours to weeks of storage depending on the solar and wind mix. The US has ~25GWh of hydroelectric storage. There are no active hydroelectric storage projects at the moment, only proposals [1]. This is why proposals to decarbonize through intermittent sources always assume a nearly-free mechanism of energy storage.

It's easy to make renewables look cheap if you assume some wundertech makes storage free. Will thermal storage, synthetic methane, or who knows what else fulfill this need? Who knows, but they don't yet. Thus renewables only present a solution coupled with an engineering breakthrough. It's like assuming moore's law held true and developed an app that assumed it'd run on a 1THz single-core processor presumably developed a decade in the future. Seems reasonable in 1995, but that's have been a very bad bet.

1. https://en.m.wikipedia.org/wiki/Pumped-storage_hydroelectric...

[strken]

You or I could go out today and buy off the counter parts, build a scale model of a pulley system, and use it to store power. We could have done that a century ago.

To the best of my knowledge, fusion only demonstrated net-positive energy production this decade, and hasn't yet reached ignition in a man-made device.

They're not the same.

[sir_bearington]

Yeah you and I could built a simple pulley system and store gravitational potential energy. Physics works, I know I'm not surprised. But we couldn't use it to store moderately enough energy to be useable to decarbonize our energy footprint. And building them at scale is a gamble on unprecedented application of technology.

It's like trying to be carbon neutral through burning biomass. Yeah, it works as a general principle. But the energy density just isn't there. The US consumes about much energy each year as we'd get from clear-cutting the entire country over the span of a single year. And the plants take longer than that to grow. Sure, we could try more exotic things like dumping iron into the ocean and harvesting algae blooms. But as a general principle, biomass energy source doesn't scale well.

Same with energy storage. Nuclear isotopes are a great store of energy. The best we know how to tap into in term of energy density, that's why we use it on submarines. Chemical energy like methane is good, but the sabatier process isn't that feasible and it needs a pre-existing source of carbon dioxide. Electrochemical storage like batteries is great for systems that need to store a relatively small amount of energy, like cars and electronics. But it isn't available at nearly the required scale. Hydroelectricity storage is better for scale, but still not good enough. And I'm sure you can name other proposed systems like pulleys, hydrogen, compressed air, an d more. But the point is that until they've demonstrated commercial viability let alone beaten competitive solutions it's a big assumption to factor these into solutions to climate change.

Are people accepting contracts to store X GWh of electricity in pulleys, or or compressed air and operating those projects successfully? Until then, these do not represent presently available solutions to climate change. I'd be happy to be proven wrong, but until then saying we have a realistic plan to provision enough energy storage to decarbonize through renewables is counterfactual - at least save for places like Norway or Iceland that have dispatchable sources of renewable energy nearby in the form of geographically dependent hydro and geothermal power.