I'm not a fan of most reporting of these negative price events.
First, they rarely explain why the price is negative. As the article explains, solar can switch itself off, so it's nothing physical about solar that can cause negative prices, as all solar can switch itself off before it goes negative it would bottom out at zero for those reasons.
In most cases I've seen so far, contractual agreements with gas, coal or nuclear (who struggle to switch themselves off quickly without hurting themselves) have been the reasons for negative pricing and the grid wasn't actually at 100% renewable at the time of the curtailment. In other words, solar switches itself off, while other, dirtier plants get fined (negative price!) for demanding that they be allowed to still run.
In South Australia they're doing pretty well on renewable, so it's possible they actually are at 100% renewable at these times (would be good for the stories to clarify). If that's the case then the negative price is most likely caused by subsidies to wind that are paid per generation. If the subsidies to two renewable plants are different then one will bid the other off the market at that point since the price can go down to the opposite of the subsidy before they make an actual loss.
All in all, these negative prices are useful market signals. I wish the weren't covered by journalists who seem to think negative numbers are taboo for some reason.
The fact that it's the same plant that gets switched off repeatedly (rather than all solar reducing output) makes me think this is either a contractual thing that only affects its owner or a regional transmission thing that only affects its geographic location. Again, would be nice for stories to find out which.
The thing about a coal, gas or nuclear plant is that they can't switch off as fast as solar. Solar can switch off in the span of a microsecond without much of an issue.
A coal/gas/nuclear plant might actually need the entire day to shut down operation to 0 kW output. And probably needs a day to get back to full operation. So in cases of negative prices, a solar energy producer can do the sensible thing and switch off while a plant operator will probably try to weather it.
I agree. Negative prices make perfect sense in electricity markets, and journalism does a bad job at explaining it.
Supply and demand must always be in equilibrium in real time with electricity (forgetting storage / batteries for a second). If there is more supply than demand or vice versa, then you have instability in the grid and can have blackouts. Those electrons have to go somewhere. This is in contrast to virtually any other good where you can store the good in a warehouse and smooth it supply intertemporaly.
Thus, if there is a big drop in demand or it's simply too sunny / windy of a day, there can be too much supply.
To incentivize reducing supply quickly enough, sometimes prices have to go negative. This is in part because some supply simply cannot reduce quickly (e.g. nuclear) and are still happy to operate in zero price situations bc either they have no marginal cost of generation (solar, wind) or the cost of reducing generation and increasing it back up is high (nuclear, coal).
Thus, there simply might not be enough plants that have the characteristics where they can scale down quickly AND have a marginal cost of generation such that they would turn off when prices go to zero (e.g. combined cycle natural gas plants can turn on and off very quickly and don't want to be on when the price falls below the cost of the gas used to generate electricity, but Australia doesn't have enough of them to absorb a supply decrease as prices fall). Alternatively, the subsidies that you mention shift the break even point into negative prices territory.
Either was, negative is needed to incentivize solar and wind to turn off or else there would be a blackout from oversupply.
Thankfully, this all gets solved with energy storage and all the slow, dirty systems that stay on will be priced out by more nimble renewables and rapid energy storage. Bc then that excess supply is stored and arbitraged to higher price times (when the sun isn't shining and wind isn't blowing). Then prices should always be positive (so long as there is available storage). If the storage is full though, prices could again go negative. Without a place to put those electrons, they quickly go from a good to an externality. It's almost like how we'll pay a musician to perform, but if your neighbor is blasting music at 3am. Without someone willing to consume and pay for those electrons, they literally are just causing trouble for all the other electrons that we do want to consume.
It in part why you can't simply just create significant generation and hook it into the grid anywhere without working with the grid operator. AC power, dude. We don't control where those electrons flow directionally. So you adding too much power somewhere can really destabilize the system.
So as awesome as the wind production tax credits are in creating many GW of wind power (in the US at least), it did result in many wind farms being able to submit offers that are artificially low. That lowers price signals for everyone else too and causes market distortion.
Towards the end of the article there is discussion of coming factors that may eliminate the negative price shutdowns: a) construction of grid interconnects to New South Wales, and b) new pumped hydro storage to enable time shifting (i.e. using daytime power to enable nighttime generation).
> In most cases I've seen so far, contractual agreements with gas, coal or nuclear (who struggle to switch themselves off quickly without hurting themselves) have been the reasons for negative pricing and the grid wasn't actually at 100% renewable at the time of the curtailment. In other words, solar switches itself off, while other, dirtier plants get fined (negative price!) for demanding that they be allowed to still run.
No contracts or fines are necessary. The plant is making the power and dangerous or expensive things will happen if nobody takes it. So they pay for it to be disposed of.
South Australia gets additional energy from grid interconnections from other states, and it's gas turbine power plant at Torrens Island.
Additional power from other sources like diesel generators when required
In South Australia (SA) there's a few market-specific reasons why floor prices (here -$1000/MWh) occur:
1. Older wind farms have PPAs (essentially a swap) that have no floor. They make the strike price regardless of the market price, so they bid at floor to ensure dispatch.
2. System strength constraints [0] usually limit the amount of wind and solar in SA when there is a lot of intermittent generation (SA is never 100% wind and solar because of this). Because of the way constraints are implemented, these generators are incentivised to bid at floor to ensure maximum dispatch. If everyone bids their capacity to floor, everyone gets turned down 'equally'. If you bid above floor (say at your marginal running cost), you get turned down more (and probably off completely).
3. The market operator (AEMO) also routinely intervenes in the market, directing gas generation to remain on for system strength. AEMO strangely implements this with two separate prices [1]. One for dispatch (accounting for the intervention) and one for payment (an estimated price without intervention). It's often the case that the dispatch price is at floor, again incentivising everyone to bid at floor to ensure dispatch, while the payment price is at or above $0/MWh.
This usually results in a very delicate market where a large amount of capacity is bid at floor (-$1000/MWh) and the next bid is usually at or above $0/MWh. A reduction in demand (hello rooftop PV) causes the price to fall off a cliff. The other thing to remember here is the settlement price (the actual price that is paid to generators) is an average of the six 5-minute dispatch prices over a half hour which can distort 5-minute price signals (there is a rule change fixing this coming into effect in 2021).
Negative prices are definitely useful, but in this case I think these issues distort the signals. I'm not sure what the solution is, there is some talk of a market redesign [2] (but I'm not sure that's a great solution either).
EXPLANATION: Some power sources can’t be shut down and restarted quickly and cost-efficiently. If the cost of stopping and restarting plant is higher than the cost of selling energy at a negative price for some time, prices go negative.
This kind of price fluctuation can increase the overall cost of energy production. We need cost effective power storage solutions and better electric grids to make renewable more effective.
An explanation of the mechanics of how I'd have to pay somebody else to take my electricity (e.g., a negative rate) would be helpful.
As prices approaches 0, I could take the excess electricity and say, mine cryptocurrency. Is nobody considering the arbitrage opportunities here? Take the 0-cost electricity, move water up a hill, and convert it back to electric when it's needed, etc.
Anything you could do it with it would have capital costs. Maybe it's transient enough that that money would be better invested elsewhere. Like, if you only run your cryptocurrency mining when the price is negative, your capital is stuck in an idle asset most of the time, and if you run it all the time, it's the average price you want to consider, not the minimum price (even if the minimum price is negative), and my guess is that Australian electricity isn't cheaper on average than other kinds of power other places (especially places with lax environmental regulation).
Another way to think about it: uses like those you propose that can soak up excess energy in the grid are exactly why energy markets are allowed to float, and even to go negative. If there's a surplus, they want you to use it, and if it were economical to store it and sell it back to the power company later, both they and you would benefit. That this isn't common suggests that it isn't economical.
In a wholesale electricity market we have a market operator who estimates the demand for the near term future and opens the market up to bids for supply.
Suppliers bid a certain capacity for each period, with the operator typically accepting firm supply offers, contingency supply offers, and ancillary service offers in advance. Since some suppliers are “baseload” (ie: unable to adjust output to suit the current level of demand) they will typically bid low to always be paid for their supply. Everyone else will be affected by these bids because the “baseload” operators are typically not only inflexible but also have huge capacity.
In periods where total demand is low relative to total supply capacity, the wholesale bids will drop to low prices. For the baseload suppliers, they would prefer to pay for someone to use their excess power rather than damage their equipment by either turning it off or reducing output below certain minimums. A baseload supplier might, for example, be facing a maintenance cost of a million dollars versus paying the market a hundred thousand to create extra demand for surplus energy. So rather than turn off equipment they will bid negative prices on the wholesale market.
A second cause of negative wholesale prices is established players with large war chests waging economic war against new entrants. They know solar farms have razor thin margins, so it is worth spending a few tens of million dollars to drive the solar farm bankrupt. Enough negative pricing periods during peak solar capacity means the solar farm is not making any money. If the baseload operator knows roughly the breakeven point for the solar farm, they will know how much they have to spend in order to shut the solar farm out of the market and bankrupt them. There are no rules against this kind of activity in the Australian energy market.
On the grid there are lots of different types of producers (solar, diesel, wind, nuclear, etc.). Each has its strengths/weaknesses. A big weakness of nuclear plants is that it's very expensive to turn them off. So much so that when electricity demand temporarily goes down (and with it prices), it is actually more profitable for them to continue keep the plant running but pay someone to offset their excess production.
There are people that arbitrage this--moving water up a hill is actually how many of them do it.
This stuff is really confusing. My brother trades electricity and has explained it to me numerous times and it's still a little fuzzy.
> An explanation of the mechanics of how I'd have to pay somebody else to take my electricity (e.g., a negative rate) would be helpful.
Sure. Let's say you have a million people producing a glut of electricity on sunny days from 11am to 2pm, when there is not a lot of demand. So there's massive overproduction and you need to create a financial incentive to incentivize the overproducers to pull back. So you have negative rates. It's as simple as that.
How much you can charge has nothing to do with your cost. Your amortized cost of providing excess power every sunny mid-day might be extravagant. That is no matter as far as the market is concerned.
Solar energy production still costs a lot. But there's tons of articles claiming that it's now cheaper than pretty much every other energy source. Yes, it's cheaper to buy at noon in sunny areas during some months because of economics. That doesn't mean it's cheaper to produce and supply though.
People do, we have snowy hydro who normally correct these negative prices by pumping water uphill into a dam. They then double dip on profits by generating when the cost is positive. Very profitable operation although the initial infrastructure cost is high.
The grid needs to maintain supply within certain levels.
If you produce more than your share, someone else needs to shutdown.
Shutting down certain power sources (e.g. coal) comes at a non zero cost. Someone still has to pay the power plant that needs to shutdown or send people home unexpectedly. These plants might be have pre secured contracts to sell at a given price over a given time period further adding to the cost of shutting off their supply.
The article mentions there are pumped hydro projects that could be used soon and others that are coming online. OTOH perhaps you are talking about smaller-scale pumped hydro on individual farms with access to enough water. I suppose the viability of that would depend on how easy it is for the farms to access real-time prices and turn on the pumps based on prices.
It happens when high inflexible power generation meets low demand. Some power sources can’t be shut down and restarted in a quickly and cost-efficiently. If the cost of stopping and restarting their plant is higher than the costs of selling energy at a negative price for some time, prices go negative.
Can’t they discharge it for free? Why do they have to pay to send it into the grid?
The crypto one won’t work because there would only be free electricity half of the time, and the water idea is good but it takes immense capex and time to make
They mentioned moving water uphill with the Wivenhoe pumped hydro which is about 3000km away in Qld. This is also where the NSW interconnect will help as most pumped hydro is in NSW.
I wish these prices were reflected to the consumer. Electricity bills in South Australia are ridiculous, and as a renter you don't have the luxury of installing solar panels.
The "retail" cost of power is always going to be higher than the "manufacturer wholesale" price, due to the cost of operating the grid.
Also, while I don't know details of the Australian electrical market, if it's anything like most of the world the consumer prices are regulated -- you don't get deep discounts during "cheap electricity" hours, but you also don't pay incredibly high rates during the days when e.g. people are running air conditioning during a heat wave and a couple major power plants had to be taken offline for emergency maintenance work simultaneously.
I'm not sure how South Australia works, but I think in general you pay for the cost of electricity generated (here going to zero) AND for the infrastructure required to get it to your house.
In part that's why rooftop solar is hazardous for a grid in high amounts- you don't pay the infrastructure price half the time, but the infrastructure still has to be there for you.
When I was looking I saw a fair few rental properties advertise that they have solar installed and that you will not have to pay electricity bills for reasonable usage. It was still a minority of properties set up like this but I imagine in the future many more will have solar since it will make them highly desirable.
I'm in SA and I'm currently looking at getting solar panels and maybe a battery because we have the highest cost of electricity in the country. I'd like to know why we have the highest when the price seems to be going negative every other day?
Historically it has been expensive because S.A. was always reliant on a lot of gas and imports.
More recently though - if consumers have been willing to pay that much, then the private monopoly that runs the distribution network and the private companies that run the generators and retailers don’t really have much incentive to drop prices...
The market reacts quite quickly if a company is going bankrupt; so assume for the sake of argument that all the electricity producers in the market are turning at least a small profit.
If power prices are negative but the provider is making a profit, then at some other time prices will have to be very high to bring the average price sold positive.
I assume that is what is happening here. I don't have a lot of respect for SA's electricity strategy, but it may work out. At least there are interesting opportunities if anyone can think of a way of profitably sinking vast amounts of power; there has to be something useful that can be done. Ironically in this case, using more power might reduce power prices because the providers don't need to charge as much in off-peak times.
Smart air-condition and cooling is also a possibility, a here Finland we have started to piloting programs where heating is smart so houses are heated more when electricity prices are low.
An answer that no-one seems to have thought of is a liberalized energy market where non physical traders are allowed, and allowed to deliberately take themselves to imbalance.
The solution is to deregulate the market and allow multiple companies to buy and sell electricity. The problem here is not an over supply but poorly regulated demand that causes energy to be priced higher than is justified; mainly to protect expensive sources of energy such as coal and gas plants.
The basic issue is not that there is no demand but that it is unevenly spread. People turn on their ACs when they get home after work. Peak demand is in the evening when the sun is about to go behind the horizon. Peak supply is in the late morning and early afternoon when people are at work.
So, all you need is tuneable demand. Say you had a web service that simply announces the current price of electricity that updates in real time based on your production capacity and a whole bunch of things that can turn themselves on/off based on that price. Whenever there is excess demand it just continues to drop that price until demand picks up. Now say you have an apartment complex with a lot of batteries in the basement and a bit of simple electronics that controls the charging behavior based on the price several energy providers (why limit to one). Now basically you have an energy sink that charges cheaply that automatically picks the cheapest provider.
Now imagine that battery has some overcapacity that can be sold back to the grid when prices are highest (aka. demand is high). Now you have an apartment building that buys energy when it is cheap and sells energy when it is expensive and it has enough capacity to serve its own needs.
Add EVs to the mix and battery to the grid technology and you have a mobile battery capacity that when it is not driving around can be plugged in to act both as an energy source and sink as well.
Now make the rest of the energy available to industrial users that can install their own solar panels and you have even more supply and demand.
The key bottleneck in this system is the current oligarchy that controls prices: the existing energy companies. They make the most profit when prices are high. They don't mind buying in some excess capacity cheaply but they have no incentive to do that when they don't need it. And since they control the market, there's nobody else to sell it to. Worse, since they have fixed cost associated with legacy plants, they have to keep prices high to prevent those becoming loss leaders. The whole system is geared towards protectionism rather than efficiency. Once you create an open market for energy, that's no longer sustainable.
Your analysis completely ignores the capital costs associated with building out a variable demand system. Every battery built will tie up a certain amount of money into fixing grid pricing variability, as well as depreciate in value and usefulness over time.
If electric overproduction is an infrequent enough condition, it may well be cheaper to waste energy than to build a battery that just sits there 300+ days a year doing nothing.
Australia has some of the worlds largest aluminium smelters. Unfortunately they are on the south east side of the country and the places that have the negative price events are in the north and south west.
The long term solution is to connect the grids together so the places with an excess of supply are connected to the places with an excess of demand.
As chips reach the limits of the cutting edge tech, the only advantage will be how expensive your electricity is rather than replacing chips every 12 months
Why waste energy on a system that's designed to grow increasingly inefficient over time (Crypto PoW mining), when you could simply store the energy or use it on something that is helpful to the local community, as in food or manufacturing?
I think there is a fundamental flaw in the whole discussion. We are doing alternative energy for two reasons:
1. As a means for alternative cheap energy;
2. As a means to gain independence from imported energy (oil, coal);
3. As a means to protect the environment
If a solar farm has to be switched off, because the power can not be sold, apparently 1.) has dominance over 2 and 3. If environment protection would have precedence, consumers should be forced to consume higher priced energy?
Question: what happens to the solar energy when PVs are disconnected? I presume reflected or absorbed as heat, but is a PV under load cooler/less reflective?
Would it be cost effective to have vats of aluminum oxide sitting idle, waiting for these negative pricing events? The raw material is cheap, and the electrodes are only worn away when actively smelting. With interest rates so low, the idle capital may not be a major impact to profitability.
I'll add my ideas to the others for using the excess power:
1. drill a big storage hole of some kind. Surely Australia could use a gigantic underground reservoir
2. install a plant next to the solar farm and make compressed gases from the atmosphere
It's a PV farm, they could just take parts of the PV grid offline instead of playing arbitrage games such as paying others to take their power or trying to build storage systems (though any half-smart PV solar farm has some minor storage on-site.) It's not like the entire system is hooked to a singular large MPPT controller. They aren't bound by the typical issues of energy generation which nuclear or constant hydro-electric have.
BTW: Did you know solar panels can self-immolate if seriously defective during manufacture?
"The world's biggest lithium-ion battery — built by tech billionaire Elon Musk's company Tesla last year — has survived its first summer in South Australia's mid-north."
"And according to a new report by the Australian Energy Market Operator (AEMO), it's outperforming coal and gas generators on some key measures."
"AEMO says the Hornsdale Power Reserve is capable of charging at a rate of 80 megawatts and discharging at 100 megawatts."
"It has a storage capacity of 129 megawatt hours."
"That means it could operate for about 75 minutes at full capacity."
Inconsistency has been the known challenge of renewable for decades.
You also need to duplicate the entire energy production infrastructure so that we can operate on 100% fossil fuels if the wind isnt blowing and the sun isnt shining.
What's more annoying is we can provide that energy for virtually free, but because it doesn't make someone else profits it gets switched off.
EDIT: just to clarify: I mean I wish that solar could be socialised and made into a social commodity.
We're becoming increasing dependent on electricity as time passes, almost to the point it'll be difficult to live well without it. If that ever becomes the case, I would want to see a social effort to ensure electricity becomes available to all, just like health care and drinking water.
I also understand that there are costs involved with providing these services, but again: social commodity. That means taxes and everyone chips in to ensure we have these resources available to all so that all can benefit and live equally.
ZeroGravitas|6 years ago
First, they rarely explain why the price is negative. As the article explains, solar can switch itself off, so it's nothing physical about solar that can cause negative prices, as all solar can switch itself off before it goes negative it would bottom out at zero for those reasons.
In most cases I've seen so far, contractual agreements with gas, coal or nuclear (who struggle to switch themselves off quickly without hurting themselves) have been the reasons for negative pricing and the grid wasn't actually at 100% renewable at the time of the curtailment. In other words, solar switches itself off, while other, dirtier plants get fined (negative price!) for demanding that they be allowed to still run.
In South Australia they're doing pretty well on renewable, so it's possible they actually are at 100% renewable at these times (would be good for the stories to clarify). If that's the case then the negative price is most likely caused by subsidies to wind that are paid per generation. If the subsidies to two renewable plants are different then one will bid the other off the market at that point since the price can go down to the opposite of the subsidy before they make an actual loss.
All in all, these negative prices are useful market signals. I wish the weren't covered by journalists who seem to think negative numbers are taboo for some reason.
The fact that it's the same plant that gets switched off repeatedly (rather than all solar reducing output) makes me think this is either a contractual thing that only affects its owner or a regional transmission thing that only affects its geographic location. Again, would be nice for stories to find out which.
zaarn|6 years ago
A coal/gas/nuclear plant might actually need the entire day to shut down operation to 0 kW output. And probably needs a day to get back to full operation. So in cases of negative prices, a solar energy producer can do the sensible thing and switch off while a plant operator will probably try to weather it.
ryan_j_naughton|6 years ago
Supply and demand must always be in equilibrium in real time with electricity (forgetting storage / batteries for a second). If there is more supply than demand or vice versa, then you have instability in the grid and can have blackouts. Those electrons have to go somewhere. This is in contrast to virtually any other good where you can store the good in a warehouse and smooth it supply intertemporaly.
Thus, if there is a big drop in demand or it's simply too sunny / windy of a day, there can be too much supply.
To incentivize reducing supply quickly enough, sometimes prices have to go negative. This is in part because some supply simply cannot reduce quickly (e.g. nuclear) and are still happy to operate in zero price situations bc either they have no marginal cost of generation (solar, wind) or the cost of reducing generation and increasing it back up is high (nuclear, coal).
Thus, there simply might not be enough plants that have the characteristics where they can scale down quickly AND have a marginal cost of generation such that they would turn off when prices go to zero (e.g. combined cycle natural gas plants can turn on and off very quickly and don't want to be on when the price falls below the cost of the gas used to generate electricity, but Australia doesn't have enough of them to absorb a supply decrease as prices fall). Alternatively, the subsidies that you mention shift the break even point into negative prices territory.
Either was, negative is needed to incentivize solar and wind to turn off or else there would be a blackout from oversupply.
Thankfully, this all gets solved with energy storage and all the slow, dirty systems that stay on will be priced out by more nimble renewables and rapid energy storage. Bc then that excess supply is stored and arbitraged to higher price times (when the sun isn't shining and wind isn't blowing). Then prices should always be positive (so long as there is available storage). If the storage is full though, prices could again go negative. Without a place to put those electrons, they quickly go from a good to an externality. It's almost like how we'll pay a musician to perform, but if your neighbor is blasting music at 3am. Without someone willing to consume and pay for those electrons, they literally are just causing trouble for all the other electrons that we do want to consume.
It in part why you can't simply just create significant generation and hook it into the grid anywhere without working with the grid operator. AC power, dude. We don't control where those electrons flow directionally. So you adding too much power somewhere can really destabilize the system.
7thaccount|6 years ago
MaysonL|6 years ago
Dylan16807|6 years ago
No contracts or fines are necessary. The plant is making the power and dangerous or expensive things will happen if nobody takes it. So they pay for it to be disposed of.
potentialverand|6 years ago
South Australia gets additional energy from grid interconnections from other states, and it's gas turbine power plant at Torrens Island. Additional power from other sources like diesel generators when required
https://www.sa.gov.au/topics/energy-and-environment/energy-s...
bmada|6 years ago
1. Older wind farms have PPAs (essentially a swap) that have no floor. They make the strike price regardless of the market price, so they bid at floor to ensure dispatch.
2. System strength constraints [0] usually limit the amount of wind and solar in SA when there is a lot of intermittent generation (SA is never 100% wind and solar because of this). Because of the way constraints are implemented, these generators are incentivised to bid at floor to ensure maximum dispatch. If everyone bids their capacity to floor, everyone gets turned down 'equally'. If you bid above floor (say at your marginal running cost), you get turned down more (and probably off completely).
3. The market operator (AEMO) also routinely intervenes in the market, directing gas generation to remain on for system strength. AEMO strangely implements this with two separate prices [1]. One for dispatch (accounting for the intervention) and one for payment (an estimated price without intervention). It's often the case that the dispatch price is at floor, again incentivising everyone to bid at floor to ensure dispatch, while the payment price is at or above $0/MWh.
This usually results in a very delicate market where a large amount of capacity is bid at floor (-$1000/MWh) and the next bid is usually at or above $0/MWh. A reduction in demand (hello rooftop PV) causes the price to fall off a cliff. The other thing to remember here is the settlement price (the actual price that is paid to generators) is an average of the six 5-minute dispatch prices over a half hour which can distort 5-minute price signals (there is a rule change fixing this coming into effect in 2021).
Negative prices are definitely useful, but in this case I think these issues distort the signals. I'm not sure what the solution is, there is some talk of a market redesign [2] (but I'm not sure that's a great solution either).
[0]: https://www.aemo.com.au/Media-Centre/South-Australia-System-...
[1]: https://aemo.com.au/-/media/Files/Stakeholder_Consultation/C...
[2]: http://www.coagenergycouncil.gov.au/publications/post-2025-m...
nabla9|6 years ago
This kind of price fluctuation can increase the overall cost of energy production. We need cost effective power storage solutions and better electric grids to make renewable more effective.
https://en.wikipedia.org/wiki/Duck_curve
JMTQp8lwXL|6 years ago
As prices approaches 0, I could take the excess electricity and say, mine cryptocurrency. Is nobody considering the arbitrage opportunities here? Take the 0-cost electricity, move water up a hill, and convert it back to electric when it's needed, etc.
apendleton|6 years ago
Another way to think about it: uses like those you propose that can soak up excess energy in the grid are exactly why energy markets are allowed to float, and even to go negative. If there's a surplus, they want you to use it, and if it were economical to store it and sell it back to the power company later, both they and you would benefit. That this isn't common suggests that it isn't economical.
manicdee|6 years ago
In a wholesale electricity market we have a market operator who estimates the demand for the near term future and opens the market up to bids for supply.
Suppliers bid a certain capacity for each period, with the operator typically accepting firm supply offers, contingency supply offers, and ancillary service offers in advance. Since some suppliers are “baseload” (ie: unable to adjust output to suit the current level of demand) they will typically bid low to always be paid for their supply. Everyone else will be affected by these bids because the “baseload” operators are typically not only inflexible but also have huge capacity.
In periods where total demand is low relative to total supply capacity, the wholesale bids will drop to low prices. For the baseload suppliers, they would prefer to pay for someone to use their excess power rather than damage their equipment by either turning it off or reducing output below certain minimums. A baseload supplier might, for example, be facing a maintenance cost of a million dollars versus paying the market a hundred thousand to create extra demand for surplus energy. So rather than turn off equipment they will bid negative prices on the wholesale market.
A second cause of negative wholesale prices is established players with large war chests waging economic war against new entrants. They know solar farms have razor thin margins, so it is worth spending a few tens of million dollars to drive the solar farm bankrupt. Enough negative pricing periods during peak solar capacity means the solar farm is not making any money. If the baseload operator knows roughly the breakeven point for the solar farm, they will know how much they have to spend in order to shut the solar farm out of the market and bankrupt them. There are no rules against this kind of activity in the Australian energy market.
glamp|6 years ago
There are people that arbitrage this--moving water up a hill is actually how many of them do it.
This stuff is really confusing. My brother trades electricity and has explained it to me numerous times and it's still a little fuzzy.
droithomme|6 years ago
Sure. Let's say you have a million people producing a glut of electricity on sunny days from 11am to 2pm, when there is not a lot of demand. So there's massive overproduction and you need to create a financial incentive to incentivize the overproducers to pull back. So you have negative rates. It's as simple as that.
How much you can charge has nothing to do with your cost. Your amortized cost of providing excess power every sunny mid-day might be extravagant. That is no matter as far as the market is concerned.
Solar energy production still costs a lot. But there's tons of articles claiming that it's now cheaper than pretty much every other energy source. Yes, it's cheaper to buy at noon in sunny areas during some months because of economics. That doesn't mean it's cheaper to produce and supply though.
DevoidSimo|6 years ago
lugg|6 years ago
If you produce more than your share, someone else needs to shutdown.
Shutting down certain power sources (e.g. coal) comes at a non zero cost. Someone still has to pay the power plant that needs to shutdown or send people home unexpectedly. These plants might be have pre secured contracts to sell at a given price over a given time period further adding to the cost of shutting off their supply.
Some more info here:
https://www.epexspot.com/en/company-info/basics_of_the_power...
pabs3|6 years ago
Terretta|6 years ago
FTA: "Tailem Bend is also considering a battery storage..." and links to https://reneweconomy.com.au/tailem-bend-solar-farm-officiall... which adds "Vena Energy also has plans for a Tailem Bend Battery Energy Storage Project."
nabla9|6 years ago
ramraj07|6 years ago
wyxuan|6 years ago
The crypto one won’t work because there would only be free electricity half of the time, and the water idea is good but it takes immense capex and time to make
dwd|6 years ago
Iv|6 years ago
cetra3|6 years ago
cperciva|6 years ago
Also, while I don't know details of the Australian electrical market, if it's anything like most of the world the consumer prices are regulated -- you don't get deep discounts during "cheap electricity" hours, but you also don't pay incredibly high rates during the days when e.g. people are running air conditioning during a heat wave and a couple major power plants had to be taken offline for emergency maintenance work simultaneously.
Felz|6 years ago
In part that's why rooftop solar is hazardous for a grid in high amounts- you don't pay the infrastructure price half the time, but the infrastructure still has to be there for you.
baroffoos|6 years ago
rosege|6 years ago
stephen_g|6 years ago
More recently though - if consumers have been willing to pay that much, then the private monopoly that runs the distribution network and the private companies that run the generators and retailers don’t really have much incentive to drop prices...
roenxi|6 years ago
If power prices are negative but the provider is making a profit, then at some other time prices will have to be very high to bring the average price sold positive.
I assume that is what is happening here. I don't have a lot of respect for SA's electricity strategy, but it may work out. At least there are interesting opportunities if anyone can think of a way of profitably sinking vast amounts of power; there has to be something useful that can be done. Ironically in this case, using more power might reduce power prices because the providers don't need to charge as much in off-peak times.
ENGNR|6 years ago
As for why it's what way... probably regulatory capture
beefield|6 years ago
brownbat|6 years ago
The fun answer here is giant crypto farm.
atupis|6 years ago
ourlordcaffeine|6 years ago
mappu|6 years ago
rosege|6 years ago
jillesvangurp|6 years ago
The basic issue is not that there is no demand but that it is unevenly spread. People turn on their ACs when they get home after work. Peak demand is in the evening when the sun is about to go behind the horizon. Peak supply is in the late morning and early afternoon when people are at work.
So, all you need is tuneable demand. Say you had a web service that simply announces the current price of electricity that updates in real time based on your production capacity and a whole bunch of things that can turn themselves on/off based on that price. Whenever there is excess demand it just continues to drop that price until demand picks up. Now say you have an apartment complex with a lot of batteries in the basement and a bit of simple electronics that controls the charging behavior based on the price several energy providers (why limit to one). Now basically you have an energy sink that charges cheaply that automatically picks the cheapest provider.
Now imagine that battery has some overcapacity that can be sold back to the grid when prices are highest (aka. demand is high). Now you have an apartment building that buys energy when it is cheap and sells energy when it is expensive and it has enough capacity to serve its own needs.
Add EVs to the mix and battery to the grid technology and you have a mobile battery capacity that when it is not driving around can be plugged in to act both as an energy source and sink as well.
Now make the rest of the energy available to industrial users that can install their own solar panels and you have even more supply and demand.
The key bottleneck in this system is the current oligarchy that controls prices: the existing energy companies. They make the most profit when prices are high. They don't mind buying in some excess capacity cheaply but they have no incentive to do that when they don't need it. And since they control the market, there's nobody else to sell it to. Worse, since they have fixed cost associated with legacy plants, they have to keep prices high to prevent those becoming loss leaders. The whole system is geared towards protectionism rather than efficiency. Once you create an open market for energy, that's no longer sustainable.
emirp|6 years ago
I can't speak for other countries but Australia has quite a few initiatives for progressing toward a smart grid but it simply takes time.
Here is some info:
https://arena.gov.au/projects/?project-value-start=0&project...
ThrustVectoring|6 years ago
If electric overproduction is an infrequent enough condition, it may well be cheaper to waste energy than to build a battery that just sits there 300+ days a year doing nothing.
ISL|6 years ago
qtplatypus|6 years ago
The long term solution is to connect the grids together so the places with an excess of supply are connected to the places with an excess of demand.
Scoundreller|6 years ago
LAMike|6 years ago
https://powerminingshop.com/
As chips reach the limits of the cutting edge tech, the only advantage will be how expensive your electricity is rather than replacing chips every 12 months
nosuchthing|6 years ago
jhoechtl|6 years ago
1. As a means for alternative cheap energy; 2. As a means to gain independence from imported energy (oil, coal); 3. As a means to protect the environment
If a solar farm has to be switched off, because the power can not be sold, apparently 1.) has dominance over 2 and 3. If environment protection would have precedence, consumers should be forced to consume higher priced energy?
teamonkey|6 years ago
icebraining|6 years ago
jmpman|6 years ago
growlist|6 years ago
1. drill a big storage hole of some kind. Surely Australia could use a gigantic underground reservoir 2. install a plant next to the solar farm and make compressed gases from the atmosphere
lightedman|6 years ago
BTW: Did you know solar panels can self-immolate if seriously defective during manufacture?
qtplatypus|6 years ago
pbreit|6 years ago
lazyjones|6 years ago
emirp|6 years ago
"The world's biggest lithium-ion battery — built by tech billionaire Elon Musk's company Tesla last year — has survived its first summer in South Australia's mid-north."
"And according to a new report by the Australian Energy Market Operator (AEMO), it's outperforming coal and gas generators on some key measures."
"AEMO says the Hornsdale Power Reserve is capable of charging at a rate of 80 megawatts and discharging at 100 megawatts."
"It has a storage capacity of 129 megawatt hours."
"That means it could operate for about 75 minutes at full capacity."
baot|6 years ago
g82918|6 years ago
s1artibartfast|6 years ago
You also need to duplicate the entire energy production infrastructure so that we can operate on 100% fossil fuels if the wind isnt blowing and the sun isnt shining.
movedx|6 years ago
EDIT: just to clarify: I mean I wish that solar could be socialised and made into a social commodity.
We're becoming increasing dependent on electricity as time passes, almost to the point it'll be difficult to live well without it. If that ever becomes the case, I would want to see a social effort to ensure electricity becomes available to all, just like health care and drinking water.
I also understand that there are costs involved with providing these services, but again: social commodity. That means taxes and everyone chips in to ensure we have these resources available to all so that all can benefit and live equally.
alex_duf|6 years ago
tinus_hn|6 years ago
aussieguy1234|6 years ago
dbrgn|6 years ago
mmmuhd|6 years ago
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unknown|6 years ago
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