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It seems like the battery issue is actually a solved problem. Just a matter of getting it done.

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

https://www.npr.org/transcripts/620288114

Maybe someone smarter can tell me why pumped storage is actually not going to work, or why we don't have more of it already

discuss

peterpost2|4 years ago

Hard to build, not a lot of places near cities where this can be done large scale and mainly: you really cant store that much energy there, both getting the water and producing power from it later is not that efficient.

Pumped storage is not a solution except for some specific places in the world.

credit_guy|4 years ago

There are multiple options to store energy from day to night, including pumped storage. The really big challenge is to store energy from summer to winter. When you store energy to use it at night, you only need to store about 12 hours worth of energy consumption, when you store it for winter, you are talking about months of consumption.

pfdietz|4 years ago

I like playing with the modeling tool at

https://model.energy/

It lets you play with combinations of solar, wind, batteries, and hydrogen storage, and optimize for a minimum cost system that can provide "synthetic baseload" for an entire year for a region given high cadence historical climate data.

When I apply that to the US, for example, the storage needed is typically maybe 6 hours of batteries and a week or so of hydrogen. To put that last number in perspective: there is a salt formation in Delta, Utah that could supply enough hydrogen storage capacity to power the entire US for 30 hours.

nicoburns|4 years ago

Storong from summer to winter doesn't sound practical to me. Better just to overprovision generation (and do some strong load shifting away from low-generation periods for non-essential energy use)

nl|4 years ago

It's extremely rare to need to store months of energy at grid scale.

Wind power works really well in winter as well as summer. In many places solar works sufficiently well in winter given the lower consumption levels due to lower air conditioning usage.

fighterpilot|4 years ago

Would DC lines between countries solve this?

pjc50|4 years ago

It requires a naturally occurring basin to work, so there's not a huge number of suitable locations. The capital cost is huge, it's very disruptive of the land, and up till now very little storage market.

The UK basically has two, Dinorwig and Cruachan, and they're used for managing the demand peaks.

Const-me|4 years ago

> why pumped storage is actually not going to work, or why we don't have more of it already

(1) Requires a lot of land. (2) It needs a height difference, at the required scale prohibitively expensive to make an artificial one. (3) Requires lots of water.

elihu|4 years ago

Something I've heard that's non-obvious is that pumped hydro doesn't work well unless the altitude change happens over a small-ish horizontal distance. It's no good to have a thousand feet of height difference if it happens over a hundred miles. (I'm not sure if this can be mitigated by making the pipes bigger to reduce drag, but I guess there must be a point beyond which it isn't really practical.)

pfdietz|4 years ago

PHES has been underestimated in the past because people looked only at existing waterways. Allowing PHES to be built off rivers radically expands its potential, to be orders of magnitude larger than necessary. There is still some geographical constraint, but transmission helps with that.

http://re100.eng.anu.edu.au/global/index.php

taneq|4 years ago

It's great if you have a steep hill nearby. Otherwise it can be very expensive to construct.

hannob|4 years ago

There already is a lot of pumped storage. It's the most important energy storage technology today.

The biggest problem with it is that you can't built it everywhere.