Want to read Slashdot from your mobile device? Point it at m.slashdot.org and keep reading!

 



Forgot your password?
typodupeerror
×
Power

Tesla Pays Powerwall Owners to Form 'Virtual Power Plant' in California (electrek.co) 192

"Tesla has launched a new virtual power plant in partnership with PG&E in California that will pay Powerwalls owners to help stabilize the electric grid and end brownouts in California," reports Electrek. A virtual power plant (VPP) consists of distributed energy storage systems, like Tesla Powerwalls, used in concert to provide grid services and avoid the use of polluting and expensive peaker power plants.
PC Magazine notes the program was launched in conjunction with California power utility Pacific Gas and Electric Company: As well as the personal feeling of satisfaction for helping to stabilize California's grid, you'll receive $2 for every additional kilowatt-hour delivered during designated "events," such as any time grid operator CAISO issues an energy alert, warning, or emergency. Contributors will receive push notifications before and during an event with details of its expected start and finish times. Once an event is over, each Powerwall will automatically resume normal operation.
Electrek adds that "The $2 per kWh amount is quite significant and reflects just how much value a Virtual Power Plant can add to the grid in case of an emergency event where the grid needs more capacity. Depending on the events and the number of Powerwalls homeowners have, they could earn anywhere from $10 to $60 per event or even more for bigger systems."

But in addition, "Tesla will dispatch your Powerwall when the grid is in critical need of additional power. That is when the least efficient generators would typically come online."

And you get the distinction of being pat of "the largest distributed battery in the world — potentially over 50,000 Powerwalls.... Tesla said that it has about 50,000 Powerwalls that could be eligible for this VPP, which add up to a significant 500 MWh of energy capacity than can be distributed in any event... [I]t is basically going to turn the company into a major decentralized electric utility. It's already in operation in Australia. Now it's in California, and soon it is going to be in Texas."
This discussion has been archived. No new comments can be posted.

Tesla Pays Powerwall Owners to Form 'Virtual Power Plant' in California

Comments Filter:
  • Presumably they get paid of course? I personally wouldn't donate my kilowatts for that for free, especially given most of mine come from rooftop solar. Those batteries aren't cheap and I wouldn't give free electricity to a power company that routinely overcharges me for what is probably the most unreliable grid in the US.

    • Typing this post took you more effort than it would have taken you to read the answer in the article summary.

    • Presumably they get paid of course?

      Not presumably, it's right there in TFS title: "Tesla Pays Powerwall Owners ..."

      *and* in TFS:

      "Tesla has launched a new virtual power plant in partnership with PG&E in California that will pay Powerwalls owners ...

      Presumably, it's in TFA ... :-)

    • One who is able to read a summary could tell you if they get paid or not.

      But I do not like to tell you for free ...

  • by Botched ( 1314867 ) on Sunday June 26, 2022 @06:40PM (#62652922)

    Currently if you get a tesla Powerwall you are not allowed to charge it during off-peak hours from the grid, only from your solar panels. Get rid of that scam and I might be interested.

    • I believe if you buy it unsubsidized, you can charge it any time you like. The subsidies come with conditions about charging from renewable sources.

      • Nope, looked into it, they have it locked into the code and the contract. PG&E makes too much money selling you power during peak hours, it's quadrupole price during prime time. They even force you into a peak-hours plan if you get solar panels, to further punish/profit off of solar owners.

        • Your post makes no sense.
          Particularly as home customers have a fixed price and are completely unaffected by peak or not peak.

          Perhaps you could give some links about your "contract constructs" people "get forced into"?

          • Particularly as home customers have a fixed price and are completely unaffected by peak or not peak.

            Last I looked in California, a home customer had the choice whether to have time of use metering. It was implemented with the smart meters. I can't speak to anywhere else. I was under the impression it was required if you wanted to sell power back to PG&E.

          • My most recent PG&E bill clearly says "Rate Schedule: Time of Use". Peak is 1600-2100 hours, $0.48902/kWh. Off-peak is $0.42558/kWh. There is a "Baseline allowance" currently 9.8kWh/day that subtracts $0.09054/kWh for usage within baseline amount. All of this changes seemingly arbitrarily over time, and almost never toward lower cost. This is ordinary residential service with no on-site generation or battery.
            • Then you have a peak and off-peak tariff.
              And not a market bound tariff that arbitrarily can change.
              Or do I miss something?

        • You are incorrect. You may need to get Tesla to unlock the ability (as most people go for the subsidy), but it isn't a problem.

          Personally though I would much rather go for a LFP server rack battery setup with inverter than a Powerwall. Being able to actually control it to run as you wish is an added perk.

        • Maybe in California.... I live in Tx. I charge my battery during off peak, and release it during the expensive peak. And i donâ(TM)t have solar.

    • If that is true, then it has nothing to do with "Tesla" but with the Grid operator.
      And bottom line that would be utter stupid - so I doubt you are right.

  • Typical wholesale price for electricity is $50 (coal) to $500 (natural gas peaker) per MWh. This scheme will pay $2000 per MWh. That's nice.

    • Wholesale generation is a minority of electricity costs in California. Distribution is the majority.

      Fossil fuel costs also don't account for their societal costs related to various types of emissions, such as Healthcare.

      • by Xenx ( 2211586 )
        And this is where this shines for them. I'm sure both PG&E and Tesla will be using this as PR, and probably getting a write-off for part of it. Also, PG&E's backup generators are less efficient, especially when starting up and shutting down. I don't know specifics, but I can't help but imagine that would mean the wholesale price isn't a fair comparison.
        • Grid operators pay for "spinning reserve" that they can use in emergencies to stabilize the grid. It's terribly wasteful as electricity is generated and dumped but necessary for grid stability. It's likely that Tesla will get paid for the VPC even if never used.
          • It's terribly wasteful as electricity is generated and dumped but necessary for grid stability.
            Basically "spinning reserves" are a myth. No one is really doing that. And if you have some: they do not generate electricity that needs to be dumbed ...

            Get a clue about the topic, read some wikipedia ...

            • You might be right that nobody is doing that, but grid operators are required to contract for it. Whether those who are selling spinning reserve are just fraudsters is difficult to determine. There have been times when grid operators have failed to contract properly and times when spinning reserve providers have failed to deliver. But something both technically and legally required doesn't quite qualify as a myth.
    • That peaker plant in an energy crunch is going to get over $2k/MWh; it is the only way they are economically viable.

      • Ah, OK, in Australia the maximum price is capped at around USD1000/MWh, and some gas peaker operators are pointing out this is not enough.

        • Is that for energy or ancillary grid services? Rapid response power is golden in the US, but much of the money comes from ancillary services.

    • This doesn't run for typical wholesale prices. It runs for temporary peaks in spot price, the kind of which can easily exceed and have many times in the past a whole order of magnitude higher cost.

  • I just checked my electric bill. 1326 kWh cost me $243, or $0.18 per kWh.

    Who can afford electricity at $2/kWh? And are they suggesting that the all-in cost of electricity from a power wall costs $2/kWh?
    How is that competitive with any other electricity provider?

    • I just checked my electric bill. 1326 kWh cost me $243, or $0.18 per kWh.

      Who can afford electricity at $2/kWh?

      Clearly you have no idea how grid management is done. Most of the generation is very cheap (baseload) and modest peaks can be accommodated by relatively efficient dispatchable sources, then, in the highest of the peaks, generators that are inefficient but quick to start are used. The electricity from the last sources is expensive, and that's the only source that Tesla is attempting to replace.

      Betwee

      • Bingo. And this isn’t exactly a new idea either. Using Powerwalls or EVs for grid balancing has been talked about for years now, in my neck of the woods. The big difference of Tesla’s scheme is 1) they are paying good rates to participants in the scheme. Here it would be more on the “gift card” level. And 2) they are actually doing it.
    • If you're a wide area grid manager trying to match generation to load within a +/- 1% literally on a per-second basis, you will pay $2/kwh for near instant, on-demand power than can also act as a load to absorb power spikes.

      The alternative is you can't maintain that balance, and if/when you fail to make ends meet you either get brownouts/rolling blackouts or you start popping circuit breakers at your substations... which leads to rolling blackouts.

      Grid scale storage solves that problem, especially when it's

    • Who can afford electricity at $2/kWh?
      The power company who is paying you the $2/kWh can afford it. Or what do you think their costs would be to fire up a coal plant and only let it run 2h?

      • Coal is 0.17% of the CA power mix, so it's not part of the discussion. CA uses natural has generators during peak grid usage periods.

        • It does not matter what they use.
          The argument is the same, (* facepalm *)

          It is cheaper for the utility to first STORE power at your place and then PAY to RETRIEVE it, then to "fire up" what ever plant they use to create the energy on demand - if that is even possible in a short notice.

        • Which are ungodly inefficient and expensive
    • by Xenx ( 2211586 )
      There are a few factors. The backup generators during high power draw are less efficient than the fulltime generators. The alternative for PG&E would be to have their own backup batteries, which would take space and cost to install/maintain. They also get to encourage powerwall installs, which if what I hear is correct, requires new installs to have solar. That further helps reduce strain on the power grid, meaning less of a payout over time. There is also the PR and potential tax related benefits.

      Basi
      • Better if they allowed small scale wind [youtu.be] or hydro [youtu.be] too.

      • The backup generators during high power draw are less efficient than the fulltime generators.
        That is wrong. They have the exact same efficiency.
        And it is not called "back up". Back up implies something failed, and you need a "replacement".
        Those VPP's are balancing power plants, and balancing power plants have absolutely nothing to do with "emergency" back up plants.

    • I just checked my electric bill.

      Why did you check your electricity bill? It is a retail cost for housing, it is not even remotely related to the current electricity cost on the market.

      People are insanely insulated from what is actually going on in their energy market. In our market I pay 25c/kWh, but a hair over 80 times in the past year the actual spot cost of electricity was above $13/kWh. And on several occasions our regulator stepped in to suspend spot trading due to runaway cost increases.

      I remember one day reading in the news of one

    • When I make a call with my cell phone, I'm not charged separately for incoming calls nor outgoing. However, every single terminated call is charged from one carrier to the other. Some calls are more expensive than others. In the end, they work out a base price for the consumer so that they don't lose money but get a consistent price. Same for power. During the delay from demand rise to the NG generator coming online, they need very expensive balancing power.

  • How long until this is mandatory? Enjoy your connected renal equipment and software, even if you paid for it.
  • by atomicalgebra ( 4566883 ) on Sunday June 26, 2022 @09:23PM (#62653140)
    Keeping Diablo canyon open is easier and cheaper than failing to build a functioning grid with "virtual power plants." Honestly nuclear is the way to go forward. Fuck everyone that disagrees.
  • which add up to a significant 500 MWh of energy capacity

    Ok gang. Let's put that number into perspective.
    I'm going to point to ONE generation plant... Hoover dam; 2.2 Gwh

    And today, that is not enough to even power Las Vegas.
    Shall we all go stand by the ocean and spit to see how much that raises sea level?

    This is the issue... One, ten MANY!

    When it get's to many, we lose all perspective and start going ohhh ahhh.

    • I'm going to point to ONE generation plant... Hoover dam; 2.2 Gwh

      Cool story. So you don't know the difference between base load and an on demand peaking plant. Let's give you another chance to pick a relevant example.

      You can start with this quote to educate yourself: "Tesla will dispatch your Powerwall when the grid is in critical need of additional power"

      • Oh... I know the difference. I built a system to do this using banks of LiFePo batteries. As a result I also understand the scale that's being discussed and how rateup/down actually works within CAISO and how many peakers are called in in rate events and where they actually have to be to be effective in relation to the grid.

        Again 500Mw is nothing.

        Stand around the ocean and spit in it an tell me you made sea level rise.

  • This implies that PowerWalls contain inverters, to be able to push power to the grid. I don't know about California, but where I live, that requires special permits and hardware to cut your house off from the grid in the event of a power failure.

    Imagine: a power line gets cut. An electrician comes out to fix it, expects the back end of the cut cable to be dead, but your inverter is pushing power. Fried electrician.

    If PowerWalls have this ability, were they permitted and installed properly?

    • Yes. Just like solar panels that push power to the grid.
    • In every other country, it is pretty obvious that a "power wall" has an inverter. Otherwise your house appliances would not run.

      In case the power wall is connected to the grid, it is obvious, that it can feed into that grid via the inverter.

      No fried electrician. As they know this shit. Fearmonger very much?

  • When CALISO needs power, AND a Powerwall owner needs to power his home and charge his Tesla overnight in order to be ready for work the next day?

    Asking for a friend...

    • No you are trolling for a friend. The grid operator isn't going to be buying a whole powerwall worth of electricity from anybody at once. As others have pointed out, they will only draw 5kwh out of the 13.5 kwh at a time which would leave plenty for charging. However, even then, this is for grid stabilization not as a primary power source. Grid stabilization needs are high during peak daytime hours and low during nighttime hours. Really a non-issue.
      • Grid stabilization needs are high during peak daytime hours and low during nighttime hours.
        Depends how you measure.
        If you measure in Mw or Gw, you are right. At night you need less of them versus daytime or peaks.
        But: if you measure in "how many responses do I have to make to load changes", you are wrong: it is exactly the same. Fridges pop on and pop of during night more or less the same as during day time. Etc. p.p.

        • Yes and at night, due to lower base demand and due to smaller Mw of the changes, grid operators can source what they need at much less than $2/kwh!
    • Asking for a friend...

      I won't question why you're friends with ignorant idiots. But to help you along:

      a) neither wins because your scenario isn't at all actually what happens.
      b) the end user ops in, so even if your "friend" wakes from his drooling stupor long enough to engage a brain cell they could very much opt out if they so choose.

"I got everybody to pay up front...then I blew up their planet." "Now why didn't I think of that?" -- Post Bros. Comics

Working...