That’s not at all what MIT is talking about here. This goes into detail around the challenges tied in rolling out grid scale solar in a way that aligns with supply and demand curves, and how to make sure we’re able to capture overproduction so that we can use it when not enough is being produced. It’s a complex shift to work out in our over 100+ year grid production structure, and has been an ongoing discussion across the energy sector. But you know…memes and shit.
“For years, mankind has yearned to destroy the Sun.” - CM Burns.
of course it’s a furry shitposting about it.
They aren’t wrong though, storage technology is only starting to come to market in significant enough capacity to be beneficial.
And for storage plants to be financially viable energy costs during the day need to be really cheap, so they can raise them at night and make a significant enough profit to break even.
The real issue isn’t the overproduction per se, but that we (globally speaking) don’t have enough cheap scalable responsive distributed storage. I’m writing this from a privileged position since Switzerland has loads of dams and can pump water during such peaks. But it’s clear that’s not the solution everywhere. I hope a good cheap mass producible battery tech with less rare earth metal requirements comes along soon.
Before commenting, you should know there are 2 types of solar panels:
- the ones owned by people (which may or may not feed into the grid)
- the ones owned by corporations
The article is probably about the 2nd kind (if you can only sell energy when there is a surplus, your company will fail), while the twitter user makes it seem like the 1st kind was meant. We probably need to built more of both types. Identify what type the other commenters are talking about before getting in any arguments here.
This is idiotic. The fact is your electricity transmission system operator has to pay a lot of money to keep the grid stable at 50 or 60Hz or your electronics would fry. With wind and especially with solar power, the variable output is always pushing the frequency one way or the other, and that creates a great need for costly balancing services. Negative pricing is an example of such a balancing service. Sounds good, but for how long do you think your electricity company can keep on paying you to consume power?
Literal free goddamn energy from the sky and these greedy fucks are going to burn the world down because they can’t flip it for a buck
It sounds dumb, but because you can’t turn off solar power, if it produces more then you need, you have to use it somehow or it can damage equipment. Hence the driving prices into negative territory. It’s a technical problem more than it is a financial one.
It is a financial problem. Technically you can just cover the solar panels. But that’s not good financially.
Your “technically you can” is actually a huge logistical nightmare to implement.
Having electricity rates go really low is intended to incentivize people or companies to sink the excess energy to wherever they can. And also to discourage producers to produce more at that hour, if they are able to.
Logistical problems are still financial problems though. That’s my point. Hire enough people/develop the appropriate automation and the issue is no more.
We have the technology to solve this, the problem is the money.
In fact, you could just buy enough batteries and the problem will also go away. Still a financial problem, not a technology one.
EDIT: just to clarify, if at some point energy prices go negative, it means that it is cheaper to buy energy usage than a solution. Unless the energy company is dumb enough to just lose money for the lazyness of considering other options.
You could spend the money, but you also need to consider whether that money is well spent. Batteries do not last forever. Maybe that money is better spent on R&D to develop better batteries first. Also natural resources and environmental impact needs to be considered. Batteries take natural resources to build and also occupies a lot of space.
20 years ago, we also have the technology to run AI workloads. Except we probably had to deploy billions of CPUs to match the capability of today’s GPUs. We have the technology then, but it is not practical. And that money was much better spent in the R&D that lead to today’s GPUs. So similarly our batteries probably needs to be a few magnitude better than what we have today before it is practical to use.
Really? I’m seriously asking, because I thought solar farms already had automated ways of cleaning off the panels, surely an automated way to cover the panels wouldn’t be any more complex than that. It would add maintenance costs for sure, but calling it a logistical nightmare seems like an exaggeration.
Most use a horizontal single axis configuration and could just tilt the panels away from the sun.
The real question that we should be asking, is why nobody can think of what to do with free energy?
Desalination? Mine Bitcoin? Giant space laser?
Or in a pinch: just run big-ass space heaters. Seriously. It’s a stupid way to burn off excess power, but it’s dirt simple and cheap. Just have a big array of resistive heaters out in an empty field somewhere with a high fence around it. Need to burn off an extra GW? Run it through massive heating elements and burn burn it off. It’s a stupid waste of good energy, but as an emergency backup, it’s not a bad option. It’s trivially easy to dispose of huge amounts of excess electricity if you just run the mother-of-all space heaters. Run your stupid giant resistive heater at the bottom of a lake for even better effect.
It’s not a question of ideas, it’s a question of money. Building things to use excess power costs a lot of money.
In some markets, the power price actually goes negative and consumers can be paid to use energy.
https://edition.cnn.com/2024/09/20/energy/three-mile-island-microsoft-ai/index.html
I think there’s plenty of money out there to use excess power, someone just has to connect the dots…
You need to consider more than just solar farms. There are many roof top solar systems on people’s houses. That’s what I’m referring to regarding logistical nightmare.
Second, if we are just going to cover up solar panels, then it really defeats the purpose of having it. A better way is to come up with ways to store this excess energy to use when there is low production and not have to depend on fossil fuels at night.
Yeah I understand storing and using the energy is obviously a better solution than to stop producing the energy. But in the short term, in the context of large solar arrays, until we have storage solutions or ways to use* the excess, covering the panels up or turning them to face the ground for a bit doesn’t seem like a very big logisticical hurdle.
There are many roof top solar systems on people’s houses. That’s what I’m referring to regarding logistical nightmare.
Are there really enough residential rooftop panels for this to even be a problem? And couldn’t it be solved just by installing a battery for your home to store the excess? Again, if you could explain how this would be a logistical nightmare for my ignorant self, I’d appreciate it.
Afaik photovoltaics are fine running open circuit, i.e., disconnecting them. Thermal solar, and wind, are (I think) much trickier (but covering things for solar thermal, like you suggest, is perhaps feasible).
“Damaging equipment” is just nonsense. I’ve got an off-grid solar system. When the battery is fully charged the solar panels simply stops producing. It has potential (voltage) but no current until you draw power. Just like a battery is full of energy but it just sits there until you draw power from it.
All solar systems could have smart switches to intelligently disconnect from the grid as needed, some inverter already do this automatically. So it’s not a technical problem. It’s a political problem.
This can cause degradation of the PN junction on the panel shortening life. The plans I’ve seen all have a resistive heater some place to dump the excess when full. Smart equipment does help mitigate most issues like moving the resistance point on the panel for lower efficiency when signaled to do so but less is not the same as none.
How does it damage the PN junction of the panel is open circuit or barely loaded? It doesn’t seem logical that this would damage the panel, but I’m open to being proven wrong.
There are all kinds of follow up questions to ask as well, but I think the main one is how big an effect are we talking?
Not a huge effect now with smart systems but if you leave solar panel disconnected from everything and out in the sun for weeks at a time you will damage the panel. Open circuit voltage is higher than operating voltage and higher voltage will break down insulation. PN depends on the insulating properties of a doped layer. If I remember correctly electron tunneling causes damage by making the band gap smaller
Concentrated solar and wind are a bit different though?
It is a technical problem of how can you convince electrical companies to overcome a problem they have no financial incentive to solve.
that’s not a technical problem. that’s a weakness of the people’s resolve problem. we can, at any time, force them to do the right thing.
I’m aware its not a technical problem, I was using the word ironically to point out the person I was responding to was wrong to say it…
Also saying we can at any time fix a problem is just being ignorant of the many near impossible steps needed to fix the problem. In this case the problem is capitalism. We could come up with ways to end capitalism or make capitalism work in the interest of humanity, but will it realistically ever happen? No it wont, private money won, look at the topics discussed for presidential debate, never a mention of doing something about private capital owning Washington. Just super effective wedge issues.
You’re being too broad. We don’t need to undo all of capitalism here. Nationalising the electric grid is a reasonable solution to this particular problem.
What incentive does a politician have to support nationalizing the power grid? It wont be a super splashy issue to tackle so it isnt worth doing it for the credit, and the different power companies of the world will just put their money into buying opposition to your effort anyways.
That’s the problem with capitalism is that any single thing you would want to do that would impact some cocksuckers capital, and the threat alone makes it a necessity to pay to win in congress. Usually the only way stuff like this happens is because there is new capital entering the market that can afford to donate against the old capital to overtake them. Its just rich assholes all the way down.
If the government seizes control of a major industry, that’s a lot of power and opportunity for politicians. It’s already been done in some local areas, and it had the broad support of the people because “the electric company is gouging us, the gov should take it over” is an easy sell.
Factorio players: hold my beer
Sounds like energy companies or independent entities should invest in energy storage so they can get paid to draw from the grid.
But then you’ve got cities like Morro Bay, CA that are trying to stop a plan to replace a coal plant with a battery storage facility because batteries are supposedly dangerous.
Gotta love any time anybody argues against replacing coal with something else, and the tactic is to spread FUD about the thing that is NOT coal!
Can they not route excess electricity into the ground?
No, unfortunately, you can’t.
Ground doesn’t typically dissipate power, rather, power is dissipated in the circuit/load — so if you just hook a wire to ground, you’re dumping gobs of power into the wire. If you do this in your home (DON’T), best case it will trip the breaker, worst case it will melt and catch something on fire.
It’s easy enough to burn a kilowatt — just boil some water. But it’s entirely something else to burn megawatt, or yikes, gigawatt scale power.
It seems braindead simple to me to work some controls into an industrial scale solar array to manage its output by regulating its input. Like, rotating the panels to put them out of their optimal alignment with the sun or mechanically partially covering them with shutters.
Simple but extremely expensive.
Didnt Nikola Tesla try to sell Westinghouse on providing free unmetered electricity to everyone on earth and got laughed out of the room?
Yes, because Westinghouse was running a business.
you know we could just put our collective foot down and take the power away from them.
The “problem” of negative energy costs is easy to solve, but quite costly.
Build water desalination/carbon capture and storage/hydrogen generation plants that only run when the price goes below 0; even though these are very energy intensive, they would help stabilize the grid.
Then build more solar; you want to try to have the daytime price stay in the negative as often as possible.
If only there were some way to take energy made from sunshine and store it in some form for later. Like in a battery. Or as heat. Or in a flywheel. Or just use the energy for something we’d really like to do as cheaply as possible. Like sequester CO2. Or desalinate water. Or run industries that would otherwise use natural gas.
Seriously if it was free for me to run a hot tub I would be a more relaxed person…but somehow these negative power prices never seem to trickle down to the consumer 🤔.
It still costs real money to maintain the infrastructure; so even if the power was always free; you would still have to pay something to cover the maintenance costs.
Yep, PG&E charges me a connection fee, a maintenance fee, and delivery fee. However the dynamic rates for electricity never go below $0.40 (and go up to $.70 with more price hikes in the works) even at the cheapest times when the state electricity market is at negative rates. Funny how that works.
I’m thinking in the next several years the electric companies will only be maintaining electric lines as generation decentralizes
Lines, network transformers, insulators, surge arresters, reactors, sectionalizers, etc.
But yes
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