Yes, solar can help meet peak load during the summer, but not the rest of the year and it causes stress on the system by requiring a lot of power to spin up to meet demand and solar decreases.
You don't know when peak demand in California was yesterday, because you're looking at a graph of the utility company's electricity production, not electricity demand. You'd need to add all the self-consumption by "behind-the-meter" solar installations on homes and businesses to find out the real demand peak. From the perspective of CAISO, solar self-generation is indistiguishable from reduced demand.
We know from historical figures that the absolute highest yearly peak in California, the one that you need to build your grid to withstand at great expense even if it only requires that load for a short period of time per year correlates well with solar, and so solar saves lots of money by shaving that peak.
The "duck curve" is also not a demand curve, it's demand, minus self-generated-solar, minus grid-generated-solar. And even then, it only appears in the winter months, when demand in California is on the low end of the yearly cycle something like a third of peak demand in the summer months. (Note the graphs showing the duck curve in your second link are from January and March).
It would be interesting to calculate what level of storage you would need to store solar electricity from earlier in the day, to meet demand in the evening. For instance, the Powerwall has 6.5 kWh storage, that would support 2kW of continuous demand from 7-10 in the evening, which seems like it could cover a lot of cases.
Many homeowners have been told by power companies to shift their power usage to the evening to avoid grid overload... so things like residential AC and pool filters, etc are put onto timers which shift their load to the night. If max power availability is actually earlier due to solar installations, then they should shift their AC to cool during the hot part of the day - leaving the home cooler after they come home...
I don't think that explains everything about the demand curve, but using the current day demand curve to say 'solar doesn't work' isn't looking deeply enough.
I like the Arthur Clarke quote:
When a distinguished but elderly scientist states that something is possible, he is almost certainly right. When he states that something is impossible, he is very probably wrong.
- Arthur C. Clarke
> Yes, solar can help meet peak load during the summer, but not the rest of the year and it causes stress on the system by requiring a lot of power to spin up to meet demand and solar decreases.
Note that Solar isn't "hurting". Because such demand right now is being covered by Natural Gas Peaker Plants anyway.
Natural Gas Peaker plants are expensive, so if we can replace some of their usage with other energy sources, that'd be great. Eventually, we might be able to transition off of them with sufficiently advanced energy storage technologies.
But solar would increase the need for peaker plants if it starts replacing baseload power needs. We are a long ways off from that, but it will limit the usage of solar until solar drops below the marginal cost for natural gas usage.
I'd say lets cross that bridge when we get there. Solar is a very long way from replacing baseload power.
And once baseload power starts getting "replaced", we enter the realm of coal plants and nuclear plants reconditioning themselves so that they can be scaled up and down a bit better.
I know both coal and nuclear power require many minutes to change their energy production, but if a smaller-scale energy storage (~30 minutes) can be created to hold out during the scaling up / down period, the problem could be solved.
As opposed to say, load-shifting pure solar energy (which requires a storage capacity measured in hours, not minutes). High power / low time can be solved with standard Lead Acid batteries or maybe Flywheels (cheaper technology than Lithium Ion, which would be better for hours of storage)
Yes, solar can help meet peak load during the summer, but not the rest of the year and it causes stress on the system by requiring a lot of power to spin up to meet demand and solar decreases.