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Power

California Has So Much Solar Power That Other States Are Paid To Take It (mic.com) 324

"On 14 days during March, Arizona utilities got a gift from California: free solar power," reported the Los Angeles Times. Mic reports: California is generating so much solar energy that it is resorting to paying other states to take the excess electricity in order to prevent overloading power lines. According to the Los Angeles Times, Arizona residents have already saved millions in 2017 thanks to California's contribution. The state, which produced little to no solar energy just 15 years ago, has made strides -- it single-handedly has nearly half of the country's solar electricity generating capacity...

When there's too much solar energy, there is a risk of the electricity grid overloading. This can result in blackouts. In times like this, California offers other states a financial incentive to take their power. But it's not as environmentally friendly as one would think. Take Arizona, for example. The state opts to put a pin in its own solar energy sources instead of fossil fuel power, which means greenhouse gas emissions aren't getting any better due to California's overproduction.

The Los Angeles Times suggests over-construction of natural gas plants created part of the problem -- Californians now pay roughly 50% more than the rest of the country for power -- but they report that power supplies could become more predictable when battery storage technologies improve.
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California Has So Much Solar Power That Other States Are Paid To Take It

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  • So Make Hydrogen (Score:4, Insightful)

    by Ken McE ( 599217 ) <kenmce@@@spamcop...net> on Sunday July 02, 2017 @09:40AM (#54729277)

    So why not take that excess electricity and make hydrogen out of it?

    • by gurps_npc ( 621217 ) on Sunday July 02, 2017 @09:52AM (#54729331) Homepage

      Not cost effective on a large scale. Needs way too much storage capacity. Worse, the state often has droughts so fresh water is EXPENSIVE, while salt water has huge corrosion problems when making hydrogen.

      Basically, storing electricity is hard. It's why their has been so much investment in batteries. Its the major technological issue holding us back.

      It's why electric cars are still rare, the reason why planes need fuel, and the reason why cellphones get hot and need to be recharged every freakin day.

      • Re:So Make Hydrogen (Score:5, Interesting)

        by FatdogHaiku ( 978357 ) on Sunday July 02, 2017 @10:26AM (#54729501)

        Not cost effective on a large scale. Needs way too much storage capacity. Worse, the state often has droughts so fresh water is EXPENSIVE, while salt water has huge corrosion problems when making hydrogen...

        Build some desalinizing plants and run them when there is too much available power. Getting some fresh water is better than giving away power, and they WILL need the desalinizing plants in the future in any case.

        As to making hydrogen, that would be more viable with a supply of distilled water, but still not a great plan unless you can use it without storing it... maybe make hybrid natural gas for consumer use, offset buying some of the natural gas now used.

        • Re: (Score:2, Insightful)

          by SEE ( 7681 )

          Because, you know, it's a totally worthwhile capital investment to make massive desalination capacity that you run a tiny percentage of the time with no relationship to the demand for water. Tell me, are we also going to pay the workers to stand idle, or will we just expect there to be a bunch of trained unemployed people living nearby that we can hire to staff it when the power's available?

          • Re:So Make Hydrogen (Score:5, Interesting)

            by SuricouRaven ( 1897204 ) on Sunday July 02, 2017 @11:03AM (#54729713)

            Water, unlike electricity, can be stored. Quite easily. You just need a big hole.

            It's not that bad an idea. The plants are not labor-intensive, they are just capital-intensive - once the pumps and membranes are in they only need monitoring and occasional replacement, it's almost entirely automated. There's also a convenient correlation: The need for fresh water is greatest in summer when days are long, and especially when cloud cover is low. Exactly the conditions in which solar is most capable. It's also very easy to run the plant at reduced capacity - they are essentially just a simple low-capacity desalinator repeated thousands of times, and each one can be turned off individually on a time scale of seconds.

            Don't think of it as a plant running a tiny percentage of the time. Think of it as a plant running at 100% capacity in summer, 80% in spring and autumn and 60% in winter. With exceptions when the sun is good for a few hours to add more water to the tanks (which need not be valley-flooding reservoirs), so it can then be scaled back down again when the clouds return.

          • Building large projects never gets cheaper over time. As to staffing, how many people will a modern, well constructed plant need? If it's more than a dozen then that's a bad design. The plants do not need to sit idle either. If you use solar to heat salt water to steam and use electricity to move steam and distilled water, and flush salt during the day and then if power is available use it to heat water to steam at night as well as the other functions, the thing could run as long as the water demand is the
    • Fuel Cells are just not cost effective at this time. According to NREL, they will be, around 2025. Until then, they are a joke.
      OTOH, excess electricity can and should be stored in batteries, EVs, even weights that slide down the side of a mountain, or simply thermal. The later would be IDEAL at any manufacturing site that is dealing with high temps.
      • by Ken McE ( 599217 ) <kenmce@@@spamcop...net> on Sunday July 02, 2017 @04:51PM (#54731539)

        Fuel Cells are just not cost effective at this time. According to NREL, they will be, around 2025. Until then, they are a joke.

        In regard to portable fuels cells, specifically cars, there is a problem that there are only 36 places in all of the continental US where you can tank up -

        (https://www.afdc.energy.gov/fuels/hydrogen_locations.html)

        Which makes it hard to sell a hydrogen car, because there is no demand and there is no demand because there are no stations, which both feed into slowing development of better cells, because there's no market.

        One way to punch out of this mess is for California to start making hydrogen, and give small hydrogen fueling pumps to any gas station that will take one, and now it becomes possible to sell cars, leading to a possible way forwards.

        I myself looked into buying the Honda Civic GX, a from-the-factory natural gas vehicle. The problem was that I could never go farther than half a tank from my house (where I would put in my own pump) because there was no place to reliably buy fuel.

        I realize that the technology is still limited, but CA. is spending money to give away power, why not do something useful at home with it? According to the comments above, there would be some use for a few combined desalination/electrolysis plants which would be able to make Hydrogen, Oxygen, potable water, and delicious algae rich salt as needed.

    • Because storing it in a battery is much more efficient.

    • We actually do that in Germany on an "experimental scale" and feed the hydrogen in a very low percentage into the ordinary gas grid.

      The idea is you basically "sell" H2 to the gas company, and later "buy" CH4 for your gas turbines.
      Bottom line most often that Gas company and electric company are owned by the same power company.

      But you avoid the "storage problem" of H2.

    • by PolygamousRanchKid ( 1290638 ) on Sunday July 02, 2017 @11:03AM (#54729707)

      Do we really need to do anything really useful with it, at all? I mean, the article states that the problem is that all this "hot" energy will overheat the grid, so it just needs to get off the grid . . . what we do with it, is just for shits and giggles anyway.

      Which is why I would like to just plain dump the energy into the world's largest Californian Tesla Coil! It will be a great tourist attraction on humid nights: pulsating insect-zapping plasma tracers lighting up the skies . . . and the Little Fluffy Clouds . . .

      • It's also not solar energy, all the electricity gets mixed together on the grid. You could say we have excess oil powered electricity that we're paying other states to take. Phrasing it like the headline does implies that solar power is a problem, click bait for the oil-lasts-forever crowd.

    • by sjbe ( 173966 )

      So why not take that excess electricity and make hydrogen out of it?

      And do what with the hydrogen? There isn't enough demand or storage capacity and certainly no relationship between the production of the excess energy and need for hydrogen.

      • And do what with the hydrogen? There isn't enough demand or storage capacity and certainly no relationship between the production of the excess energy and need for hydrogen.

        No relationship, true. Demand, probably false. We are making ever-increasing amounts of hydrogen. Hydrogen fuel cell cars are actually hitting the streets [of California] now, in fact Honda will give you free fuel if you lease a Clarity FCV. Right now virtually all hydrogen is produced through steam reformation of natural gas, which means more natgas, which means more fracking. What to do with the hydrogen is by far the least of problems.

  • Seriously, they should instead focus on subsidies for energy storage.
    As to solar, they should simply require that all new buildings of 5 stories and less, have enough on-site AE to equal or exceed the average monthly energy used of the HVAC.
    • As to solar, they should simply require that all new buildings of 5 stories and less, have enough on-site AE to equal or exceed the average monthly energy used of the HVAC.

      You DO realize that your solution would exacerbate CA's current problem, right?

      • Just the opposite.
        By having CA focusing their subsidies on STORAGE and not on generation, this will enable buildings to buy cheap energy, or save their own.
        At the same time, by requiring unsubsidized on-site AE, it will encourage builders to put in more insulation, and switch to geo-thermal HVAC.
    • Seriously, they should instead focus on subsidies for energy storage.

      There was a program which (I think) finished recently, under which you could get an almost free battery for your house.

    • Seriously, they should instead focus on subsidies for energy storage.

      There's already a market in place for storage. They will pay you to take the energy, and then they'll pay you to give it back. It doesn't need subsidies, it just needs time to grow.

      • does not matter. If they can give a LIMITED time subsidy to kick start it, great. If not, so be it. BUT, better, at this time, to subsidize storage, then production.
  • Can some Slashdotter in the know advise on how Californian's are storing energy for use in the night? I am meant to understand that there are a number of options; Molten Salt, pumping water up a mountain and later utilizing gravity, compressed air in rocks or under the sea and of course batteries.

    • by guruevi ( 827432 )

      They are basically "storing" it in Arizona, paying Arizona to take it and paying Arizona to give it back.

    • by LynnwoodRooster ( 966895 ) on Sunday July 02, 2017 @11:07AM (#54729731) Journal
      We don't. The reality is that subsidies are only in place for solar power generation, not storage. And of course, without those subsidies the profitability of solar power generation plummets as well. So for now, we in CA get to pay taxes to private companies to build solar plants to sell power to us, but because we don't pay taxes to private companies to build storage of power we get to pay taxes to other States to take our power and then pay them to sell it back to us. I guess it's a win-win for everyone else...
  • California companies are locating their data centers in neighboring states to take advantage of those state's cheaper power.

  • Curious... (Score:5, Interesting)

    by kenh ( 9056 ) on Sunday July 02, 2017 @09:56AM (#54729349) Homepage Journal

    ...on those 14 days in March, electricity customers paid exactly the same price for electricity as they did the other 17 days in March, so how did that help the consumers in California?

    Likewise, customers in the state that got 'free' electricity from California also paid exactly the same rate for electricity every day in March.

    So I ask, who benefitted from all that 'free' excess solar electricity? I can tell you who suffered because of all that 'free' excess solar electricity, every consumer of electricity in California, because the utility company is required, by law, to pay a premium price for every solar generated KWh fed into their grid, whether they need it or not, whether or not they can resell it.

    • by guruevi ( 827432 )

      It only changes if you're paying market prices. So if you're speculating on demand and supply in the energy market (kind of like the stock market for energy supply), you're basically been given some money if you invested correctly previously.

      This doesn't affect customer much. My energy supply costs me $0.02xxx and even though I have a variable rate, that cost doesn't vary much throughout the year, only the smaller digits change, the other ~10c is primarily delivery and transport and about 3-4c in taxes and

    • March this year had exceptional weather. It was sunnier than usual , so solar power generation was higher than one would expect for this time of year.

      But paying to send electricity in this manner is not new. In the UK, where generators bid to sell electricity into the grid, there have been occasions where the bids have been negative. This is because the owners of generating capacity want to keep their equipment running.

    • The power company in Arizona, that bought the power and got money on top, profited.

      Wow, that was easy again.

      • Is the profitability of the Arizona utility the reason Californians built solar plants?

        The California utility was forced to buy the electricity from solar plant owners, that raises, not lowers, California consumer electricity costs - is that the reason Californians built the solar plants?

        The California utility was forced to pay the Arizona utility to take the excess solar electricity, that raises, not lowers, California consumer electricity costs - is that the reason Californians built the solar plants?

        Acco

  • Why are the reporters always writing such a nonsense?

    You feed power into the grid: it needs to be consumed. Or you can not feed it in.

    And: I guess the solar power was teleported to Arizona, to prevent "overloading a wire"?

    • by Kohath ( 38547 ) on Sunday July 02, 2017 @10:57AM (#54729677)

      Electricity is stored in wires. If the wires get full, the solar panels no longer work correctly. The excess energy has to be drained so feedback from the solar panels doesn't damage the sun.

      If you went to journalism school, you would know these things.

      • If you went to engineering school, you would know these things

        FTFY

        • by Kohath ( 38547 )

          You can't engineer a new sun. We need to raise awareness so we don't destroy the one we have.

    • Because sensationalist headlines get more reads, and because journalists are usually under tight time constraints that do not allow them to do in-depth study.

  • I am wondering why they have to ship the power to a neighboring state instead of letting me run my AC and pool for free until the crisis is over. My utility bill routinely breaks over $600/month (both gas and electric) from PG&E in the summer.

    Oh, wait. I'm in Northern California. That means they can use my water all they want but something like sharing their excess energy must be illegal. Rather than do that they would prefer to break California in two so they don't have to pay taxes to redwood tree

    • Real time electricity pricing would be a good start to let the market fix this problem.

    • by djinn6 ( 1868030 ) on Sunday July 02, 2017 @12:21PM (#54730087)
      A lot could be fixed if we just charged residents market rate instead of a fixed rate. This way people can buy smart appliances that take advantage of when the cost of electricity is low, and they can buy or repurpose old batteries to pick up cheap power and resell it when it's expensive.

      California is a huge state with an economy larger than that of France. You need 27 Nebraska's to make 1 California. But for all of that size, CA doesn't get any more negotiating power in the federal government. With 2 Californias, we get more representatives in congress and more electoral votes. Some of the stupidity could also go away, like declaring a drought when it's been raining for a month straight in NorCal.

      The only down side is that SoCal might join Mexico.
  • by kenh ( 9056 ) on Sunday July 02, 2017 @12:05PM (#54730017) Homepage Journal

    The solar industry is propped up by regulations that deny utility companies the ability to refuse electricity they don't need from either distributed or utility-scale sources. The guarantee that every KWh generated by a solar source will be bought - at a premium - is what convinces investors to back them, but that same regulation increases consumer costs since at times of over-production the utility is running non-solar power plants that can't be spun down as needed, and simultaneously buying unneeded solar power at a premium.

    The moment power companies can refuse to buy unneeded solar power is the moment the solar industry stops growing, and electricity prices will start coming down.

    Factor in subsidies for manufacturing plants, subsidies for construction/installation of panels, etc. and solar energy in America lives in a special, politically-built protected market.

    Before anyone goes off on 'oil industry subsidies' - I've never heard of the gov't cutting a check to cover half the cost of an oil refinery or offering loan guarantees on oil rigs, and the gov't certainly doesn't guarantee oil companies that every gallon of fuel they bring to market will find a buyer at a guaranteed price.

    • I've never heard of the gov't cutting a check to cover half the cost of an oil refinery or offering loan guarantees on oil rigs, and the gov't certainly doesn't guarantee oil companies that every gallon of fuel they bring to market will find a buyer at a guaranteed price.

      But the gov't does pick up the tab for all the costs of increased CO2 levels.

  • Simple Solution (Score:5, Informative)

    by LeftCoastThinker ( 4697521 ) on Sunday July 02, 2017 @12:42PM (#54730181)

    The simple solution is to build a few large bore (2m diameter), high pressure pipes up into lakes in the rocky mountains. Drop them down to pumping stations with holding ponds. During the day when you have excessive solar, you pump water from your holding pond up into the lake at something like 3000 feet differential elevation. At night, when you need power, you let the water discharge down into your holding pond. Designed right this system will recover about 85% of the energy stored. If you are worried about evaporation, you can cover your ponds with ping pong balls (reduces evaporation by 90% plus.)

    If you pump that water at 1m/sec up for 6 peak sunny hours per day, from the Bernoulli equation we know that the stored energy would be Volume rate * density * acceleration due to gravity * height of lift * time or:

    3.14 m^3/sec * 1000 kg/m^3 * 9.81 m/s^2 * 1000 m * 6h * 3600 sec/h = 665 GigaJoules of stored energy or (*.85 efficiency) ~157MWh of recoverable electricity per day. You would need around 68,000 cubic meters of water to work with (about 6.8 Hectares) in a lake (or you could build 5 holding ponds at elevation that were 20m deep x 30m wide.)

    Most natural gas power plants in California generate around this number. The main reason that 10 of these hydro lift systems aren't built post haste is all the environmental nuts that would lose their shit over human beings building pipelines in California and/or using a lake for anything other than squatting next to while meditating...

  • Desalination would be an ideal 'peak absorber' use to shave off the high points in a fluctuating power supply in a state with a long-term shortage of water. But good luck getting California to issue permits for something this obvious before the end of this century.

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