• @[email protected]
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    7 months ago

    Well, you have to handle excess power produced, you can’t just dump it on the ground.

    If the grid produces too much power in excess of what’s being consumed, parts of it need to shutdown to prevent damage.

    That’s why the price can go negative. They’ll actively pay you to use the power so they don’t have to hit emergency shutdowns.

    As we build more solar plants, the problem gets exacerbated since all the solar plants produce power at the same time until it’s in excess of what anyone needs. Unlimited free power isn’t very helpful if when it’s producing it’s producing so much that it has to be cut from the grid, and when demand rises it’s not producing and they have to spin up gas turbines.

    That’s before the money part of it, where people don’t want to spend a million dollars to make a plant that they need to pay people to use power from.

    https://www.technologyreview.com/2021/07/14/1028461/solar-value-deflation-california-climate-change/

    They go on to talk about how getting consumption to be shifted to those high production times can help, as can building power storage systems or just ways to better share power with places further away.

    • @[email protected]
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      167 months ago

      Government should invest in more energy storage so the excess can be used later, like at night

      • @[email protected]
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        167 months ago

        That and incentivise smart devices like water heaters that run when power is cheap, which is effectively a rudimentary battery

        • capital
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          17 months ago

          If all grids did was put high resolution pricing data on the wire we could make those decisions for ourselves.

          • @[email protected]
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            27 months ago

            It still takes upfront investment. that’s easy if you’re wealthy but a lot harder if you’re pay check to pay check + there’s no reason landlords would do it. part of it is the high resolution pricing data, but we need more than just that

      • @[email protected]
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        27 months ago

        Everything is a cost.

        It could quite easily be cheaper to pay people to use energy than it is to store it. Once that equation changes then hopefully they start buying storage.

      • @[email protected]
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        27 months ago

        Problem is that storing electric energy at a large scale is really difficult, with lots of engineering and research effort going into finding solutions. Investment into storage is good, but it’s still an area of active research how to even do it.

    • @[email protected]
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      87 months ago

      This is interesting in the UK because the government agrees on a set a price it will pay wind farms for energy.

      If power is expensive the wind farms lose out and get paid less than the value of energy. But when wind power is high and prices low they get paid the guaranteed price at the goverments expense. The government even tells them to turn of the turbines and they still get paid.

      Bare in mind peak wind can last weeks rather than solar hours. But this system is one of the main reasons UK is a world leader in wind.

      People struggle with the economics of losing money being the optimal solution and they want some magic situation where nothing is wasted at 0 cost but provides all demand exactly when required. Nothing works like that.

    • @[email protected]
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      7 months ago

      Well, you have to handle excess power produced, you can’t just dump it on the ground.

      Thats literally what a “ground” is electrically. The ground.

      We literally design electrical systems to do exactly this, all day long. You can literally “dump power into the ground.”

      • @[email protected]
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        297 months ago

        No, you can’t.

        The ground in a circuit doesn’t dissipate energy — the energy gets dissipated elsewhere. That’s what ground is: it’s what we call the electrical part of a circuit where the energy has already been dissipated (I’m being a little casual with my electricity, but I think it’s a valid statement nonetheless — ground is defined as the zero potential).

        You can try this out by plugging a wire from hot to ground in your house (please don’t do this). The energy gets dissipated in the wires. This is bad, because it is a lot of energy dissipated very quickly. Best case you throw the breaker. Worst case you burn down your house.

      • @[email protected]
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        257 months ago

        It’s weird that that’s possible as such an easy solution, and all those electrical engineers never thought to use it, instead putting in load banks and all sorts of contrivances to heat metal in an emergency, or find complex ways to hide excess production in normal load and balance production by managing the generators.
        Even weirder that the people who run solar grids opted to pay people to take excess power rather than just dumping it on the ground, although a lot of them have also taken to heating metal instead, or water for smaller home setups.

        Yes, you can technically connect your generator directly to the ground. This isn’t something people want to do because it can damage equipment.
        It’s why that heating metal trick is used as part of the emergency shutdown rather than as part of load regulation, and they don’t want to use it because they have to make sure the right bit of metal melted.

        None of this has anything to do with people needing to react to excess current in an electrical grid, and not just let it be a situation that happens. It requires intervention was the point of the phrase.

      • @[email protected]
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        107 months ago

        As a professional engineer who literally designs solar power plants for a living, this is not how electricity works. It is true that solar inverters can throttle their output by operating at non-optimal voltages, but you can’t just dump power into the ground without causing major issues to the grid infrastructure.

          • @[email protected]
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            27 months ago

            In an ideal picture, ground isn’t where energy gets dissipated — there’s no such thing as “dumping energy to ground” (or if you prefer, everything is “dumping energy to ground”).

            If ground dissipates significant energy, this has all sorts of Very Bad implications. For starters, the ground can no longer be at uniform potential if it dissipates — so now we have a ground that isn’t actually at ground! (This just follows from Ohm’s law.)

            Another way of stating this is to imagine what sort of circuit you need to “dump energy to ground.” This is probably just a wire connecting hot to ground — but what happens if you do this in your home, i.e., plug a wire from hot to ground (please do not do this!)? It gets really, really hot, and will probably either throw the breaker, melt, or start a fire. The reason it gets hot is because it’s the wire that dissipated the energy.

            Ok. So the reason the wire gets hot is because it has finite resistance. So what if we choose an imaginary superconductor instead? Well, now we’re trying to draw infinite power, which is bad! In practice of course it won’t be infinite, and will be determined by the resistance of the power lines feeding it. But remember that wire that got really hot? Now we’re treating the power lines that way. So this is really not good, and besides, we wanted to use a controlled amount of power, which this clearly isn’t.

            So, we can be smarter here and add some resistance to our load — instead of a wire from hot to ground, we now have maybe a coil of low-but-finite resistance wire. This works great, and it’s just a resistive heater.

            The problem isn’t dumping energy at a human scale (e.g., an individual space heater) — the problem is when you have excess power on an industrial scale.

            • @[email protected]
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              17 months ago

              If all the energy is actually being released by the wire through resistance, then why’s the potential of the ground changing?

              • @[email protected]
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                7 months ago

                The potential at the ground isn’t (or shouldn’t) be changing — which is the same thing as saying the power isn’t being dissipated in the ground. So the power isn’t being “dumped to ground,” it’s being dumped through the wire.

                So basically, two options: 1) you dissipate power in the load, which is what should happen, and everyone is happy. 2) you dissipate power across your ground, which means ground is no longer really ground, and all sorts of nasty and dangerous things can happen.

                  • @[email protected]
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                    17 months ago

                    I think so. A huge amount of energy is now trying to get to ground. Power will now be dissipated across the ground (so, from the lightning rod to the earth). This is bad (“ground” is no longer at ground potential everywhere), but probably not as bad as the alternative.

                    I think one way to think about it is that, ideally, ground is a single point in a circuit that is defined to be at zero potential, always. Anything that appreciably violates this assumption causes bad things to happen, though often the bad things are subtle/not that bad (e.g., your guitar amp starts buzzing more than you want).

      • @[email protected]
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        37 months ago

        If you could do that there’d be tones to research going on about how to extract the energy stored in the ground as the storage capacity would in many orders of magnitude greater than we have now. We’d also be probably capturing the energy released in thunderstorms.

      • @[email protected]
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        27 months ago

        A chance for @bradorsomething, son of Gondor, to show his quality!

        When we refer to the grounded conductor (the neutral), it does have a reference to the ground potential of the building receiving power. But the current generated by the power plant seeks the least resistive path back to its source, and the grounded conductor provides a path back to the generation plant that carries no voltage potential for electricity to draw towards or away from - the wire simply accepts the flow of energy to or from the power plant, to complete the circuit without changing the voltage potential.

        There is also a grounding wire, which is green or bare, which is present in building in the US to allow anything electrified by stray wires to complete the circuit and trip the breakers in the panel. This wire joins to the grounded conductor (the white colored neutral) at the main panel where the utility provides power… utilities use the neutral as their ground, so current completes the circuit back to the power plant through the neutral.

        When I say “the circuit looks for a path back to its source,” I’m playing a little fast and loose here… the current seeks the most potential to complete the circuit pathway. This path is almost always the return path to the power plant.

        Join us next week, when I explain that lightning doesn’t care much about our wire at all, because at that scale it’s like the ocean caring about a moat at a sand castle!

    • @[email protected]
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      17 months ago

      We could do so much good with excess power generation if we wanted to. We could produce hydrogen. We could electrolyse CO2 out of the air. We could filter the plastic out of ocean water. We could analyse space radiation. We could run recycling plants. We could flood the bitcoin market. We could run a desalination plant. Why does this have to be a problem?

      • @[email protected]
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        17 months ago

        Because we’re not doing those things at the moment?

        Having a solution available doesn’t make it not a problem.

        Something having a problem doesn’t mean it’s not worth doing, and not all problems are bad things, they’re just things that need figuring out.

        People too often think that identifying an issue with something means that it’s being argued that we should abandon it or that it’s unfixable.

        Solar is not a perfect technology, because there are no perfect technologies. It has solvable problems are or will need to be addressed as we keep using it. That’s fine and normal.

        • @[email protected]
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          17 months ago

          It is normal, but this particular “problem” looks more like an opportunity than most. Seems silly to be complaining about it.

          Anyway, is it “Fish and a …” ?

          • @[email protected]
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            17 months ago

            Who’s complaining? Read the article I linked, it’s what the quote came from. Informing people about an issue, discussing it’s consequences and listing some solutions is hardly complaining.
            I’m not sure why you put problem in quotes, it’s an issue that has to be resolved which is the definition of a problem. It’s not silly to me to talk about an issue.
            You think we should do carbon sequestration with the power. That’s a great notion. Should we tell the solar plants they need to do that, should the public build them, or should we incentivize companies to do it somehow?

            I just can’t see how people are this upset about an article explaining how “more than we can handle” means “people might stop making more” and “we need to figure out how to handle it”.

            I’m not sure what you’re talking about with the fish?