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Power Government United States

Which Energy Future: Power Lines or Rooftop Solar Panels (and Storage Batteries)? (nytimes.com) 271

The New York Times reports on "an intense policy struggle" in America's national and state governments:

-On one side, large electric utilities and President Biden want to build thousands of miles of power lines to move electricity created by distant wind turbines and solar farms to cities and suburbs.

- On the other, some environmental organizations and community groups are pushing for greater investment in rooftop solar panels, batteries and local wind turbines.


And the result "could lock in an energy system that lasts for decades." At issue is how quickly the country can move to cleaner energy and how much electricity rates will increase... The option supported by Mr. Biden and some large energy companies would replace coal and natural gas power plants with large wind and solar farms hundreds of miles from cities, requiring lots of new power lines. Such integration would strengthen the control that the utility industry and Wall Street have over the grid. "You've got to have a big national plan to make sure the power gets from where it is generated to where the need is," Energy Secretary Jennifer Granholm said in an interview.

But many of Mr. Biden's liberal allies argue that solar panels, batteries and other local energy sources should be emphasized because they would be more resilient and could be built more quickly... In all probability, there will be a mix of solutions that include more transmission lines and rooftop solar panels. What combination emerges will depend on deals made in Congress but also skirmishes playing out across the country...

As millions of California homes went dark during a heat wave last summer, help came from an unusual source: batteries installed at homes, businesses and municipal buildings. Those batteries kicked in up to 6 percent of the state grid's power supply during the crisis, helping to make up for idled natural gas and nuclear power plants. Rooftop solar panels generated an additional 4 percent of the state's electricity... California showed that homes and businesses don't have to be passive consumers. They can become mini power plants, potentially earning as much from supplying energy as they pay for electricity they draw from the grid. Home and business batteries, which can be as small as a large television and as big as a computer server room, are charged from the grid or rooftop solar panels...

Regulators generally allow utilities to charge customers the cost of investments plus a profit margin, typically about 10.5 percent, giving companies an incentive to build power plants and lines... A 2019 report by the National Renewable Energy Laboratory, a research arm of the Energy Department, found that greater use of rooftop solar can reduce the need for new transmission lines, displace expensive power plants and save the energy that is lost when electricity is moved long distances. The study also found that rooftop systems can put pressure on utilities to improve or expand neighborhood wires and equipment.

The director of a Chicago-based environmental nonprofit tells the Times that "Solar energy plus storage is as transformative to the electric sector as wireless services were to the telecommunications sector."

In a weird twist, fossil fuel companies are now joining forces with local groups (including environmental groups) to fight the construction of new power lines.
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Which Energy Future: Power Lines or Rooftop Solar Panels (and Storage Batteries)?

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  • both (Score:5, Informative)

    by etash ( 1907284 ) on Monday July 12, 2021 @02:50AM (#61574249)
    they are not exclusive. rooftop installations might be good for someone who has his own house. apartment buildings have no such luxury, even if they do cover their roof top it will not be enough for all the apartments of the building. I don't know though how many people do have a house of their own though.
    On the other hand I have the impression that the rooftop "solution" is being pushed by companies who want to sell to individuals due to a bigger profit margin. Economies of scale (centralized large electricity utilities) are cheaper. Also, the grid does need to get upgraded for the electric vehicle revolution that is taking place. Most people don't have their own garage and house, so yeah...
    • having your own solar/battery on your home (if you are lucky enough) will make your dependence on a single point of failure (centralised utility) less of an issue. The grid will still be necessary but it doesn't have to be so big and it can be maintained easier and cheaper if more people become as independent as possible and generate/store their own power, they could still be connected to the grid as a backup.
    • The power lines are already there, and useful. What is hindering are the monopolies behind them. The best solution would be local, collectively owned grids to balance production and use, combined with state owned or even continent owned grids to balance the weather influence

      The latter is used mainly for wind energy, as the most wind (at least in the temperate zones) is in fronts. If you think continent-wide, the average wind is way more constant than state-wide. But that is off course the west-east directio

    • by AmiMoJo ( 196126 )

      Apartment buildings will want solar to make them more attractive, along with parking spaces that have car charging available. It's going to quickly reach the point where apartments without those things are much less attractive. The relatively small cost will be well worth it.

      This is already happening in Norway.

      We just need to be careful that the bottom end of the market doesn't get left out.

      • The "bottom of the market" in Norway is likely to be a lot different than in most of the world. The entire population of the country is smaller than many large metro areas in the world. And the country is rich in natural resources. The vast majority of Norway's electricity is produced by hydroelectric plants, not solar or wind.

        Best,

      • along with parking spaces that have car charging available.

        What is this off street parking of which you speak? Not that on street parking seems to hamper electric vehicles around here. There are both standalone chargers and ones integrated into the new LED lamp posts.

        • by AmiMoJo ( 196126 )

          They are going to have to pull their fingers out if the UK is going to transition to EVs. On street parking tied to the householder's energy bill is the only fair option, and we need a lot of it.

      • by Junta ( 36770 )

        For suburban housing, distributed solar has a decent chance at providing the aggregate energy needs.

        For multi-story apartment complexes, the ratio of roof to occupancy is a pretty uphill battle. Solar may be able to offset energy demand a bit, but apartment complexes can't realistically be self-sufficient, it's just packing people in too densely and lacks enough surface area to collect enough solar to do the job. Barring something drastic like a sudden jump to 60% efficient panels, dense living will still n

    • I'd consider a bit of everything - the grid to balance production and consumption, batteries as a buffer then add many different means of production to make electricity.

    • by gweihir ( 88907 )

      Indeed. the whole question is stupid. Of course it is "both". And it is finally getting rid of the old grid that only works because you push in more energy than needed.

      • Almost. The answer is certainly both, but it's also mostly centralized power and grid improvements. The grid improvements have to happen anyway, so that we can ship power further in exceptional cases. But we shouldn't spend any money promoting rooftop solar. What we should do to promote residential installations is mandate net metering. No more power companies dragging ass on your intertie, they need to be forced to pay you for your contributions. Otherwise the government should stay out of residential powe

    • I agree the answer is both. One reason why a decentralised electrical supply is desirable (even if you are also connected to a grid) is robustness during regional or national disasters. Your power utility may get hacked. Your rooftop solar panels likely will not. When power lines come down during an ice storm or wildfire, having a local electric supply, adequate for at least basic light, cooking and temperature control, can be a matter of life and death. Look at what happened in Puerto Rico after hurricane

      • Exactly this. Move the generation closer to the point of consumption. That reduces both transmission losses and helps to localize impact in the event of a fault in the national power grid.

        Personal rooftop solar for homeowners is also a method to be self reliant, rather than a dependent on a large power monopoly. Even if I never actually saved much money, that alone is worth the price of admission for me. Everyone will have to do their own assessment of how much that is worth to them.

        Best,

    • by fleabag ( 445654 )

      Definitely both, and the extent of each will surely depend on the situation. We have rooftop solar panels in the UK, and they work pretty well in the summer. Unfortunately, our peak demand is in the winter. We don’t need A/C, so summer demand is limited to hot water and whichever machines are running in the house. If we added a battery to this system, it would simply drive up the capital cost and not really provide any benefit.

      Locations close to the equator, with a material air con demand wou

  • Power via grid from off-premises, rather than from local generation and storage, has an advantage for tyrants: If a neighborhood is resisting them, they can cut the power. (Similarly with water, fuel, comm, etc.)

    • If you're worried about that, then buy your own solar panels and batteries. But don't expect the government to buy them for you, when building a few HVDC power cables would decarbonize the grid at much lower cost.

    • Power via grid from off-premises, rather than from local generation and storage, has an advantage for tyrants: If a neighborhood is resisting them, they can cut the power. (Similarly with water, fuel, comm, etc.)

      I always thought Slashdotters were full of basement dwelling nerds, not disaster prepper bunker dwelling nerds.

  • by bobstreo ( 1320787 ) on Monday July 12, 2021 @03:05AM (#61574277)

    Renewables and storage batteries are great for residential homes, especially those in more remote areas.

    Power lines work very well, especially in densely populated areas.

    Newer small scale nuclear (and someday fusion) plants means power lines.

    • Yes, you are right - both! A good network supporting integration of both techniques will be the most resiliant and offer the ability to balance costs for the consumer. For resiliance, today people often integrate a local backup generator. We can extend that idea into the renewables.
  • ... I'd go with Rooftop / Garden Solar, Batteries and optimised power-consumption. When you're out in the boondocks and heatwaves, hurricanes and other extreme conditions regularly cancel the grid, it's better to be independant.

    The ideal is probably a mix of both, with the bulk of load coming of a grid running on renewable energy. However, for that you need a feasible well-regulated and fault-tolarant grid and as I understand it, those are somewhat lacking in certain areas of the US.

    • ... I'd go with Rooftop / Garden Solar, Batteries and optimised power-consumption. When you're out in the boondocks and heatwaves, hurricanes and other extreme conditions regularly cancel the grid, it's better to be independant.

      Here's the problem, in order to be independent you need literally days of battery backup, or more generation capacity than you need — and you STILL need a battery bank. You pay a substantial premium for a solar controller/inverter combo that can do islanding without batteries, so much in fact that a small battery bank is cheaper, and islanding without batteries makes zero sense. So it winds up cost a LOT more to provide the same capacity with a bunch of residential systems than it does with centalize

  • Power lines are ~95% efficient, batteries are ~85% efficient. These are rough numbers and both can be improved but the idea is that power lines, even long ones are more efficient. Utility-scale solar is also more cost-effective, and probably also more efficient, other forms of power generation are just impractical on a small scale.

    Power lines and large scale utilities are just more efficient and I can't believe that environmental organization push for local solutions. It is a typical American thinking, lik

    • Power lines and large scale utilities are just more efficient and I can't believe that environmental organization push for local solutions

      These are the same environmental organizations that promote closing nuclear power even when it will be replaced by fossil fuels. What it seems to boil down to is they oppose human development more than they support saving the environment.

  • Today's batteries are still a weak link in off grid solutions. They contain costly and rare materials and upon disposal, an environmental menace. Can we start looking at hydrogen storage as a battery source? It can be made easily and only dumps oxygen in the air.
    • Today's batteries are still a weak link in off grid solutions. They contain costly and rare materials and upon disposal, an environmental menace.

      Depends on who you've been listening to. If you've been listening to Musk and the media uncritically parroting his reality distortion about the world's biggest battery then yes. On the other hand the world's biggest grid battery was until January this year a very large sodium-sulphur battery in Japan. It's a chemistry suited only for very large batteries, but doesn

    • Can we start looking at hydrogen storage as a battery source? It can be made easily and only dumps oxygen in the air.

      The efficiency is now acceptable but the capital costs are still significant. The fuel cells don't last forever, either. Still, it may make sense for large stationary installations.

    • They contain costly and rare materials and upon disposal, an environmental menace.
      Let me brake it down for you:
      1) They contain costly: nope - batteries are actually pretty cheap, since a decade or so
      2) and rare materials: nope - nothing rare in battery, not even Cobalt is rare
      3) and upon disposal, an environmental menace: nope - they get recycled

      • "Rare Earth" elements are indeed not all that rare in the Earth's crust. However they are expensive and dirty to extract and process. That expense keeps their supply rare.

        And we are not talking about buying a pack of AAs in a store. Enough batteries to power an entire house for an entire day someplace where they need air conditioning is going to be in the tens of thousands of USD. A small price to pay for energy independence, but it puts it out or reach of 90% of the western world and 99% of the entire worl

  • Those batteries kicked in up to 6 percent of the state grid's power supply during the crisis, helping to make up for idled natural gas and nuclear power plants.
    What does that mean? You have:
    a) a crisis? lacking power?
    b) but the power plants are idle?
    c) and by luck you have full batteries that take the slack?

    That does not compute for me ...

  • by sabbede ( 2678435 ) on Monday July 12, 2021 @07:34AM (#61574717)
    Nowhere? Really?? Then that means authority over it belongs to the States and People, not the Federal government.
  • by FeelGood314 ( 2516288 ) on Monday July 12, 2021 @08:18AM (#61574837)
    8.5 minutes is how long it would take all the newly installed wind power last year to charge all the batteries manufactured last year. We can't store electricity! And before you say it, pumped hydro doesn't work either. We need bigger grids to reduce variability in demand and supply. We need pricing to closer match spot prices so that we will consume more wind and solar and we will reduce our demand when coal or gas peaker plants are in use. We use batteries to stabilize the grid, to fix phase differences between voltage and current and to keep the voltage up while we wait for coal or natural gas plants to kick in.

    Here are the energy prices in Ontario - http://reports.ieso.ca/public/... [reports.ieso.ca]
    You will see that they vary between -$0.02 and $0.70. Even with swings like that you can't make batteries storage profitable. Big grids that span multiple time zones and temperature zones are always going more economical than a single home system.
  • It isn't an either/or situation. Most people in the world simply can't rely on rooftop solar for all their power needs. Either they life in a place where it has weather, too far north, or simply live in an apartment.

    The good news is, there is no need for a one-solution-for-all. People that can afford solar (either the requirements or the price) can do so, and get hooked up to the grid.

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