alt Hacker News> That's an insane assumption! [...] load factor
No no no no, that line has nothing to do with load factor. I'm talking about half the kilowatts for the house coming from solar, and half coming from the grid.
> Just check the live data
There's no way those panels are optimally angled and out of shade if they're making that little. Are those panels installed in rows on the ground? Rows that are pretty close to each other? Panels on a roof, the steeper the better, will see a much higher load factor in winter.
I'm other words, a home rooftop install will do much better in winter than a standard commercial install. That's a mixture of chance and optimizing for different things.
A thought experiment: You have one big solar panel mounted very high, with a multi-axis aiming system that points it directly at the sun. Do you think the amount of power you can make is going to be that far off a linear relationship with the number of hours of daylight?
> No no no no, that line has nothing to do with load factor. I'm talking about half the kilowatts for the house coming from solar, and half coming from the grid.
Assuming consumption isn't correlated with sun hours, these are equivalent unless you over-panel. With a load factor of 5%, you need to over-panel 10x to achieve 50% of your energy supply (in fact it's more complex than this and you'll need even more of that but that's an OK simplifying assumption).
> There's no way those panels are optimally angled and out of shade if they're making that little
Those are commercial solar farms, optimally angled under the constraint that the cost must be reasonable.
> A thought experiment: You have one big solar panel mounted very high, with a multi-axis aiming system that points it directly at the sun.
Do you have an idea of how much it would cost?! With Materials + installation + maintenance, such a mechanism would dwarf the price of the panels. There's a reason we don't deploy those at scale in practice …
> Do you think the amount of power you can make is going to be that far off a linear relationship with the number of hours of daylight?
In a country where 80% of the winter is cloudy, it's going to be very far, yes. The 10% power happening right now is because it's cloudy (light clouds, no rain, but still). It peaked at 40% in recent days with proper sun, but it happened only a handful of times in the entire winter.