consider the implications for a post scarcity future

Wish there was just a faster way to get citizen input.

"Hey folks, this is going to be a cost overrun for this very very good reason, please vote yay or nay in the weekly election".

Don't see how it could work now though, given that half the citizens are deeply committed to destroying everything to prove gov doesn't work.

Batteries are more than likely another type of pollution. I'm sure they can and will be recycled but just like the problem with our current capacity to recycle things it probably becomes untenable (guessing).

The state just needs to find ways to convert that energy into something else. I suggest desalinating sea water and pumping it up stream.

For a moment I was thinking that lion battery is some brand, until it clicked in that you are talking about lithium ion batteries

That's one of the options they mention as a solution.

Basically store it, use it, ship it, subsidize it or pay someone to waste it are the options.

Right now they pay someone to waste it, which is the option that makes adoption the most difficult, so it's a problem.

Solar cells don't really grow on trees.

Photosynthesis - provided by the OG solar cells.

Yeah it won't power my computer, just found the irony comical.

The majority of panels produced in the world right now is China. Like dwarfs the other countries.

Big oil currently does not own the factories.

Well yeah, but that’s like a one-time purchase (for years) compared to coals/etc. where they can charge for the “amount” used

But if you have batteries at home you almost don't need the grid. Add an EV and you hit two birds with one stone.

If there was room they'd put the factories as close to the coal fields as possible, and let the workers live in shanty towns.

Thats basically how its done in most of Europe. Price changes every 15 minutes and some smart system starting washing machines etc if a certain threshhold is reached.

Of course you can also get a hedged contract where you pay a fixed price and don't need to care about it, but you have the choice.

In places like Spain, there are different energy plans and some do include "Peak" and "Valley" price variances. Peaks are high demand, like when cooking dinner, "Valley" are the opposite.

Most places in the US have peak and off peak hours with different pricing already. Certain smart thermostats can take advantage of this for running your AC and such.

You can adapt to these inefficies, sure, but doing so still takes more planning and effort (in this case in carefully timing one's phone charging, and in avoiding power using activities like that during non ideal times) than if there was no mismatch of availability and demand. It lessens the impact of the problem, but does not entirely remove it.

Sure, but you're not getting as much output from your panels as you could in total that way, making them less efficient overall. I'm not saying you can't run a power grid on this stuff, just that the adaptations to use them in a grid effectively have costs, and those costs are not exclusive to capitalism

It's pretty easy to imagine fusion being great - but it's still just in our imaginations. No one has yet been able to build a working fusion power plant. There has been progress over the decades that people have tried, but its still a way to go yet. So although we can imagine that it could produce clean and plentiful energy, we just comparing sci-fi tech to current tech. The future reality might not be so great, and the current reality is that fusion power isn't possible at all.

To illustrate my point, lets imagine solar power from a 'theoretical' point of view, like fusion is described. Solar power uses no fuel; gets its power from sunlight. There is enough energy coming from the sun to meet the whole world's energy needs with just reality small amount of area. Solar power produces no waste biproducts... So if we just imagine the benefits of solar power, it sounds pretty much perfect. In in reality though, although solar is very good, it is still far from perfect. Construction, maintenance, and disposal of the panels are where the costs are. And so to compare to fusion, we'd need to know what it would take to build, maintain, and disposal of the fusion power plants. Currently we can't do it at all - so the costs are basically infinite. But even if our tech improves to the point where it is possible... it's hard to imagine it will be easy or cheap - especially because there will be radioactive waste. (Radioactive waste not from the fuel, but from the walls and shielding of the reactor, as it absorbs high-energy particles produced by the operation of the power plant.)

Just 20 more years of research. At least text was predicted 1990. And 2000. And 2010. And 2020. And last year.

I'm personally very excited about how it does seem to be finally making progress if slowly, but realistically, I'm less convinced that it'll be the solution to all our energy needs than many are. The physics of the process itself is very efficient, sure, but the kinds of machines needed to harness it are literally among the most expensive and complicated things built by humans, and they don't even produce net energy yet. Granted, the cost of such things should be reduced once they are industrial machinery and not exotic scientific instruments loaded with experiments, but I'd bet that the reactors themselves will still be incredibly expensive and complex (and therefore have expensive maintenance). This doesn't say good things about the actual cost of the resulting energy, even if the fuel is quite abundant. We could get abundant energy with a similarly high if not quite as much fuel efficiency with advanced fission reactors and fuel breeding, but the cost of those kinds of plants has been relatively prohibitive, and the costs of renewables has been falling. I could certainly see it possible for fusion to reach net energy, only to get used only on specialized roles or for base load power because solar panels end up being cheaper. In a sense this has already happened. It is theoretically possible, if not practically desirable, to use fusion energy in a power plant already, by detonating fusion explosives in a gigantic underground chamber full of water to heat it up, and harnessing the steam. Such ideas were considered during the cold war, but never developed, at least in part because it was calculated that they wouldn't be cost competitive compared to other power options.

not exactly but for all practical purposes might as well be

Solar power is just really inefficient nuclear fusion

Why couldn't the solar panels simply be turned off - is that not an easy solution to having too much intake?

Like a Phase Plasma Rifle with a 40-Watt range.

You mean just juice your veins?

Or worst case, power some down. Excess electricity that can’t be used is a problem, it’s just that while solar may not be the easiest energy source to fix that problem with, it’s probably the second easiest behind wind. You can literally put retractable awnings over solar panels if you need to

Yes we need more long time energy storage. It helps to balance the energy grid and it helps for days when not enough energy is produced. Batteries aren't really the answer, but pumping water uphill might be.

Many places actually do pump water uphill into reservoir lakes for hydroelectric dams. In that case it is a form of energy storage, a literal water battery.

Unfortunately, it's not always a feasible option. For instance, in the great planes there's not much of an uphill to pump the water to.

A giant laser to carve my portrait on the moon

But too much power on the grid isn’t “here, have at it”. It’s fried devices and spontaneous fires breaking out. The grid can’t “hold the power”, only pumped and battery storage can, of which we have nowhere near enough. The grid literally cannot work if other producers put more electricity on to it.

If you have smart meter, you can literally be paid to use power at that point.

A liberal approach to market regulation here would have led to disaster a long time ago, for the reasons you described at the beginning of your comment. The market "works" because of, not inspite of regulation. And negative prices are a good thing for consumers, not market failure.

Regulation of a market by the government is liberal politics. A laize faire approach is conservative lol.

There's no post scarcity. The power available on the grid must always equal the power consumed. Or all the hell will break loose.

You can pump water uphill back into reservoirs so that you can use it to generate hydro-electricity later https://en.wikipedia.org/wiki/Ffestiniog_Power_Station

Yes. Desalination or hydrogen separation via electrolysis

Both uses are productive, one generates fresh water, the other can be a form of energy storage.

Both are extremely energy intensive for the yield, making them unprofitable, but are extremely useful things to do with a glut of electricity.

There is, but you have to set it up and link it with the central control system of your grid, similarly to how power generators have an automatic generation control to balance the network.

Yes there is. So consumers (with the right kind of smart meters) are paid to use energy and we are slowly moving from pilot plan into small scale production of hydrogen. But there’s nowhere near enough and the grid will literally fry itself unless producers stop pumping more onto the grid (during windy and sunny days, in areas with high penetration of intermittent production.

Central heating

No idea about the US. My frame of reference is an integrated European market in general and the Nordic integrated spot market in particular, which uses Swedish hydro and Danish wind on top of nuclear, biogas and wood pellet market.

Seems to work well enough: https://ourworldindata.org/grapher/co-emissions-per-capita?tab=chart&time=1961..latest&country=USA~DNK~SWE~NOR

There's a reason why the frequency is exactly 50hz or 60hz, and it's not "at least 50hz or 60hz". You can't just have 55hz on the grid, you'll destroy half a country.

Ok, your particular device may handle a wide band of frequencies. Congrats.

But do we agree that not all devices can? What about sensitive devices keeping patients alive in hospitals?

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

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.

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.

As some other comments have explained in better terms, you can hook it to ground directly, technically. But you can't if you like, want things to be good and not broken all to hell.

You can't.

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.

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.

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.

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!

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.

I was talking with an engineer about using a closed loop hydro system at home, maybe in a tower. He said the water wouldn't have enough head to generate electricity. But that compressed air energy storage just might be the solution I was looking for.

Hydrogen fuel cells also. Use the excess to make hydrogen which is simple to store and then use it as a fuel to burn when you have demand. These have started to be put at the bottom of wind turbines so they don’t need to be stopped when the wind is blowing but there is no grid demand.

All these systems help balance the grid too meaning these renewables can be used as base loads instead of dirtier base load generators like coal or gas fire stations.

It's exactly like gravity batteries, but do get fooled with fancy renders and inspirational music.

That's my second favorite solution. One of the cons of the mines is they tend to be too remote from urban areas. But if that's not a factor then you're golden.

The only problem is that it is inefficient

Nope nope nope.

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

It's MIT, they're not exactly a clickbait source.

The reply is what makes the excerpt seem inflammatory. It's an article about the economics of solar power, so the excerpt is a fair representation of both the article and the real issue it's discussing.

It would be sensationalist if they said "critical problem paying for solar power comes from negative prices, threatening future of solar adoption"

Framing it as though it were a condemnation of solar turns a statement of fact into something different than what it is.

I've been really curious about the possibility of a small DIY sand battery type system. I currently store my "negative value" midday solar power by dumping it into a water tank and using it to feed my hydronic heating system.

However as we know that results in a tank containing useless low-grade heat on a cloudy day, where a sand battery would result in a small amount of usable high-grade heat.

The cooling equivalent could actually be implemented fairly easily at home with common consumer ice machines (which are effectively heat pumps). Make ice when there's surplus, dump it in an insulated hopper with a heat exchanger for night-time cooling, recycle the near-freezing melt water to make ice the next day. Water is a lot easier to handle because it can be pumped instead of conveyed, and you get the advantage of phase change storage.

Yes, also it doesnt technically have to be sand, there are concrete mixes and even just bedrock that can be used for similar purposes. I've been looking at sand batteries myself for this reason: run the battery hot when power is cheap, let it cool when not.

This sort of thing is of course why it's useful to have a market mechanism for energy, it can encourage us to build environmentally friendly solutions.

They can, and they do. They're typically considered safety devices since they can be damaged by having excess load dumped on them, and they either are dumb, in which case they don't act like an actual load the generator is expecting and can maybe cause damage to the generator, or they're smart and can mimic the type of load the grid would actually give, but now they're expensive and need maintenance and testing in excess of what the dumb one needs.

It's something you would need for off grid solar as well, with batteries that can only take so much charge, but at the power grid level it's a much bigger task because you're in the realm of "metal explodes" power, and exploding metal is bad.

Those still have to be connected to the grid. be maintained, cooled, controlled, all of which costs money.

The nordic countries, which tend to score higher on "Happiness Indexes," are Social Democracies. Social Democracy is a form of revisionist Marxism that believes Capitalism can be wielded for the benefit of all, not just the bourgeoisie.

Unfortunately, these same Nordic countries have been seeing a sliding of the Social Safety Net, similar to what has happened to America following the New Deal (though not nearly as bad yet). Additionally, Imperialism is still the dominant method by which these countries subsidize their safety nets, alongside a dependence on NATO.

US post-WW2 was almost a functioning social democracy, but not market socialism. Market socialism would be something more along the lines of the Labour-dominated era of Israel, or Socialist Yugoslavia.

Yup. The US model is occasionally referred to as "pension fund socialism" (sometimes sarcastically) in the sense that there is a welfare system which resembles a social dividend for the less fortunate, social security which resembles a social dividend for the elderly, and privileged IRA accounts, which resembles collective ownership of capital for the working class. The collective value of US IRA accounts is actually something like 20% of nominal GDP, and social security is like another 10% of GDP. Depending on how you measure it, this makes the actual collective share of the US economy proportionally larger than it was under the USSR or modern day China.

The big thing the US is missing is a healthcare dividend. Also, the welfare layer is arguably much too small, which creates much worse wealth disparity than need be. Still, this is arguably an issue of buttons and knobs rather than the structural issue many make it out to be.

Adding a tiny bit of energy to the sun so it will have burned-up in 4bln minus 5 years instead of in 4 bln years? Genius.

Yes, infra can be built, but not fast enough to keep up with all the solar panels being installed. For example: In the Netherlands our network can't keep up with the requests being put out by companies, and we've already been busy for the last 5-ish years to install new infra, but that shit can take over 10 (!!!) years before a large line has been added. Land needs to be bought, people need to be informed, plans need to be made or adjusted, local companies need to be hired, the materials bought in and build into new pylons, etc.

It's a MASSIVE undertaking. Even if you talk on a local level, where "The Last Mile" is the time-consuming problem there.

Shit takes time.

...yes. That's why the price is negative. You're paying folks to use electricity.

Surely just pirate it so you can read it on your timetable, and take the book from the library when it's your turn to give that author the lending stats?

cough Anna's cough archive cough

I get what you are trying to say, but you sound like someone in an abusive relationship that still believes they can fix the abuser somehow.

You just mentioned a number of ways that capitalism could be "fettered" to work more for the benefit of all. But the person you responded to said "unfettered capitalism" (unless they changed it later). :-)

Capitalism does not incentivize people to get more, it incentivizes a very exclusive few to get it all.

UBI would also help with redistribution and make society more efficient overall.

UBI is a band-aid, not a solution. It's a way to keep a broken system working for a little bit longer until it's no longer politically expedient to help those in need. It props up capitalism in the guise of giving people a leg up.

It's selling people bootstraps so they can lift themselves up by them.