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[edit] if you don't produce the exact amount consumed at the exact same time, the current will loose its phase and the effective energy transported will be reduced, while producing surtensions at different grid points (don't quote me on that, but accumulator try to keep the phase, and too much divergence can cause their failure from what I understand. But I'm no physic major and I might be completely wrong). Grid coordination is vital. The main issue with consumer solar connected to the grid is the lack of predictability. The reason why we charge if you put electricity on the grid when too much energy is produced is because we did not plan on offsetting this production, and the network people have to keep it balanced. Reducing the output of thermal fossil plants is usually free, but while we can module nuke plants, it's best and way cheaper when that is predicted (also, opportunity cost is high, so for privately owned nuke plants, it cost even more. EDF is the bitch of the European electricity market so they eat the opportunity costs, but they are the only plant owner who does it (and I won't talk about ARENH here, but again, EDF is the bitch of the EU).
Then, when really to much shit is on the grid, and you have reservoir space, you pump the water up the STEP (batteries, but better). Up to 4500€/mwh if unpredicted (it's never actually that, but it's the price seer in the SPOT command order). And lastly, if it's the only solution, wind/solar farms are shut down. Again, if predicted, good time to do the maintenance. In the future consumer grade installations will probably come with a lot of stuff to help with the lack of predictability. I don't love it, but that's actually my current job (well, I actually love the actual job, really interesting shit, I'm not so sure about the moral implications of even more surveillance. Because we do have the geoloc of the newer installations. We don't link it with anything relevant yet, and it's anonymous for the moment, but will it stay that way?) |
Is there a reason that consumer solar can’t be accounted for as smaller stable nodes in the system (sounds like they are still considered volatile and not a reliable source of inflow power)? For instance, maybe a rooftop solar array can easily be sucked up if the home decides to do a few loads of laundry that day, and therefore since there aren’t enough homes with solar arrays, it’s harder to predict an average influx per day from consumer solar to power the grid?
Are there any goals to shut down larger plants or not build larger solar fields by instead subsidizing distributed solar on peoples’ property?
Utilities are so interesting. The other afternoon I was looking out at the hills as the trees change, and said to my friend, “what a beautiful view… besides all these power lines! Although, I’d rather have the infrastructure than an unmolested view…”