| > spoiler: not remotely possible to scale large enough for total world needs. Yeah, not with those assumptions. Storing enough energy for 7-days worth of zero-sun and zero-wind is going to be basically impossible across all known energy storage technologies. We'll likely have to run peaker plants during such an extended outage. But we're not even trying to solve the 7-days worth of energy problem. We're starting with: lets save 3-hours worth of energy, so that the 6pm sun can be used for air-conditioning until 9pm or so. Which we're not at yet (see the "Duck Curve" or "Nessie curve"). Besides, being able to store energy for 1 or 2 hours is still SUPER useful. Wind is strongest at night, while Solar is strongest during noon. Having energy at dawn (sun isn't strong yet) or twilight (sun is setting, but the wind hasn't picked up yet) is going to be a huge portion of our future energy strategy. ----------- A huge part of the problem can be solved behaviorally and economically. We can change the price of electricity based on how easy it is to produce. 12:00 noon (highest sun power) can be cheaper, and 3am power (max wind energy) can also be cheaper. Night-time energy can be used to power electric cars. 12:00 noon power can be used for factory work and other high-energy tasks (Air Conditioning, Washing Machines). We all can change our behavior to reduce our energy demand between 5pm and 8pm, to reduce the Nessie curve / duck curve. And we can use economics to set the price higher to encourage others to follow our lead. --------- Throw down a bit of nuclear, and keep a few natural gas peaker plants active for emergencies, and I think we've got a strong future for energy. At the end of the day: Pumped Hydro is the ONLY GW-hr solution to this energy storage question. CAES is hundreds-of-MW-hrs, while Lithium Ion is also only hundreds-of MW-hrs. That's just how the cookie crumbles: we don't have any other technology to store GW-hrs of energy. |
Thank you for pointing that out so I don't have to. He's tossing an insane requirement in there and hoping you don't notice. So instead of needing storage to shift about 20-30% of power needs on a daily basis he claims an absolute requirement of 700% of daily usage. Making any solution 20-30 times more costly.
Consider the alternative, as we have snow days. We could have 'energy days' where non-essential demand gets cut off and we fire up some combined cycle plants.
Also I'm not wading through his website again but last time I looked he was studiously ignoring thermal storage. Running that calculation is pretty easy. But he doesn't. Because it's doable even with his deranged 7 day requirement.