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Government Power

Scotland Produced Enough Wind Energy To Power All Its Homes Twice Over (cnbc.com) 216

An anonymous reader quotes a report from CNBC: Wind turbines in Scotland generated 9,831,320 megawatt hours between January and June 2019, WWF Scotland said Monday. The numbers, which were supplied by WeatherEnergy, mean that Scottish wind generated enough electricity to power the equivalent of 4.47 million homes for six months. That is almost double the number of homes in Scotland, according to WWF Scotland. By 2030, the Scottish government says it wants to produce half of the country's energy consumption from renewables. It is also targeting an "almost completely" decarbonized energy system by 2050. "Up and down the country, we are all benefiting from cleaner energy and so is the climate," Robin Parker, climate and energy policy manager at WWF Scotland, said in a statement Monday. "These figures show harnessing Scotland's plentiful onshore wind potential can provide clean, green electricity for millions of homes across not only Scotland, but England as well," Parker added.
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Scotland Produced Enough Wind Energy To Power All Its Homes Twice Over

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  • Excess power (Score:3, Insightful)

    by sn0wflake ( 592745 ) on Monday July 15, 2019 @07:09PM (#58931412)
    Last week I watched a report from a location in my country producing an excess of 100 KWh because they couldn't offload the power. That financially made them shut down some windmills. Can anybody explain me like I'm an 5 year old why we are generating in excess of green energy that apparently cant be offloaded because we are still using fossil fuels?
    • Re:Excess power (Score:5, Informative)

      by Krishnoid ( 984597 ) on Monday July 15, 2019 @07:11PM (#58931424) Journal

      Maybe it can't be transmitted to where it needs to go? I think you should call the news station and ask them this exact question verbatim.

    • THey need it for bit coin.

    • Because more then 95% of the time, all the wind energy can be offload. And while it sucks that there are times we generate free energy for no use, that is not a major concert.

      As the production of wind energy increases, It may be in big problem in the future, which is why there are being build new power transfer lines, and invested in huge energy storage systems.
       

      • Re:Excess power (Score:5, Interesting)

        by K. S. Kyosuke ( 729550 ) on Monday July 15, 2019 @08:39PM (#58931764)

        and invested in huge energy storage systems.

        Scotland is already doing it. [bbc.com] This is like 40% of the country's average electricity demand in one storage unit.

    • Re:Excess power (Score:4, Informative)

      by Misagon ( 1135 ) on Monday July 15, 2019 @08:33PM (#58931730)

      The energy system itself needs to balance supply with demand within a certain degree at all times.
      This means that suppliers are not allowed to feed more energy onto the grid than what there is demand for.

      The power is regulated by automatically starting up and shutting down power sources as demand changes.
      That requires that there are always power sources available that don't depend on the weather (directly), and which are able to start and stop relatively fast. In other words, these need to be available to meet demand when the wind isn't blowing.

    • by whoda ( 569082 )

      Where was the wind farm located? Electric companies are often required to purchase the cheapest electricity available to them, and off-shore wind is the most expensive.
      Modern gas powered plants can be slightly cheaper than on-shore wind.

      • It's located on land in Denmark, the home of green windmills, so we are doing fine with green energy. Too good actually. The location is a big area covered in solar panels, and they want to expand but they cant because they cant offload enough power for it to be profitable.
      • and off-shore wind is the most expensive.
        No, nuclear is the most expensive, followed by coal and gas plants.

        Offshore wind is more expensive to build than onshore, in terms of $/MW.
        But it is the cheapest to farm in terms of $/MWh. Not the subtile change in units.

    • Sorry but may be beyond 5yo level.
      When operating a Grid the generation needs to match the load, so if you are generating 200 and your load is 100 you have a big problem. Also visa versa. If these two do not match you will crate a under frequency or over frequency situation which can cause huge damage as well as Grid collapse. Damage here would be to grid infrastructure, transformers, substations.

      Solution is you generate more than you need and have a big heater that you use to maintain balance (normally m
      • by q_e_t ( 5104099 )
        But the aren't generating 200 when the demand is 100, more generating 200 when the demand is 1000, of which 100 is houses. If those houses used electricity for heating too, then the demand over a year would increase hugely, although you still need to match on a daily basis.
      • Typically this is managed by for any power station at all renewable or not the System manager will have another power station producing enough for that power station to give 0 output at 0 notice.
        Zero production is not happening without knowing it hours in advance, if not even days. Your implied idea that a renewable plant drops from 100% production to 0% and needs an instant replacement is just nonsense.

        Stuff like this only can happen if there is a majour accident and the connection to the grid is lost. And

    • because wind and solar are inconsistent supplies that spike up and down and because generation from fossil fuels can't react as fast to those changing spikes. Therefore if wind or solar spike up to high you have to shut some down if you can't offload as bringing down the fossil fuel power generation could lead to blackouts as you can't ramp up fast enough should solar or wind drop.
      • by q_e_t ( 5104099 )
        It's potentially more nuanced going forward. E.g. if there is a surge in production then if things like fridges can react to that signal and are well insulated then potentially they can work hard during a brief surge, then slack off. It adds complexity to the system, though, and raises the prospect of emergent behaviour of an unhelpful kind if there are issues with the algorithms. Or, if being Scotland, it could turn on everyone's kettle for a cup of tea. And who doesn't like tea. Even if you didn't want a
    • Re: (Score:2, Interesting)

      by Anonymous Coward

      Power Systems Engineer Here.

      Possible reasons:
      1: Insufficient transmission capacity
      2: Power was reduced automatically for system stability reasons (rising frequency means too much generation is operating). This is usually temporary (seconds or minutes)
      3: Power was reduced by the operator in order to ensure overall system stability.

      Number 3 is the most interesting case. It happens in countries with low overall demand, weak interconnection and high renewables penetration. Ireland is hit hard by this issue.

      Basi

    • Often its capacity constraints - the wind farms are set up in far away places and the cables can only carry so much power to where its needed. Upgrading that infrastructure costs a lot. (eg in Scotland when the demand is all down south in places like London)

      So when too much power is generated the government pays generators to turn off for a bit. Now, who do you want to turn off? clean wind, or dirty fossil plants? obviously the latter - so you pay them to turn off, and it looks like some grubby fossil fuel

      • Perhaps you want to google the term "reserve power".

        The problem is that if you didn;t pay them to turn off, they'd give up generating completely - no point running a power station that will be used only half the time after all. But the problem there is that the power station is needed the other half the time - if you didn't have it, there'd be days when not enough power is generated and the lights (and wifi!) would go off.

        That is why we have:
        a) primary reserve power plants - alternative name: seconds reserv

    • I think your have confused energy and power (rate of change of energy) as kWh is a unit of energy.

      Note the SI unit (metric) term for energy is Joule (J) so really we should be using MJ (megajoules) and GJ (gigajoules) rather than the made-up term kWh (not an SI unit). So people get confused because kW (kilowatt) is a SI unit (metric) term for power which is measured in Watts and is equivalent to Joules per second (rate of change of energy).

      Power consumption relies on there being sufficient demand to consume

    • Last week I watched a report from a location in my country producing an excess of 100 KWh because they couldn't offload the power. That financially made them shut down some windmills. Can anybody explain me like I'm an 5 year old why we are generating in excess of green energy that apparently cant be offloaded because we are still using fossil fuels?

      I'll try like you're 10. I think I can manage that.

      We can't trust wind turbines to supply power when we need them, so when there's too much power for the system demand, they press a button and apply the brakes. When demand is bigger and the variability of wind supply can disappear in the 'noise' of the total demand, they can turn them back on again.
      The power plants you can rely on take hours to start up and shut down, and ramp power up and down over several minutes to several hours- but they do it when you

      • You are confusing cause and effect there.
        The term "baseload" only exists because these power plants take hours to start up and shut down and are slow to ramp up and down.
        Take them out of the equation, replacing them with either load following plants (hydro) or massive overcapacity that can be ramped up and down very quickly (wind) and the whole baseload concept becomes irrelevant at once and for good.

  • by WillAffleckUW ( 858324 ) on Monday July 15, 2019 @07:15PM (#58931438) Homepage Journal

    As you may have noticed, Scotland is buying a really big battery to handle the wind solar and tidal energy fluctuations on the interties, to store excess electricity like this.

    While at first it will only be exported to England and Wales, we can expect it to also go to nearby places as well.

    Renewables are here, and they're making continuing operation of coal plants, nuclear fission plants, and other fossil fuels even more uneconomical in comparison.

    If it weren't for the massive tax subsidies and tax exemptions and expensed depreciation for fossil fuels, they would already have been shut down by now.

    • Mod parent up. In what world is this a troll?

      (No, wait - don't tell me, it's in the climate denier world)

    • If it weren't for the massive tax subsidies and tax exemptions and expensed depreciation for fossil fuels, they would already have been shut down by now.

      Who gives massive subsidies and tax exemptions? - Trump? In Europe it's the opposite. Coal power plants need to buy quotas for emission which in some countries, have had a drastic impact on electricity prices. People are getting pissed off and I don't blame them. Especially if their countries consume more CO2 than they produce (with the help of an ingenio

  • The US will just have to produce more carbon emissions to offset that. China, too.
  • That's awesome, and I'm glad it works for them. Hopefully they are in a position that they can sell the excess and pay for the generation gear, maintenance, and net out an income stream as well.

    But let's face it, Scotland is an anomaly- sparsely populated, a crazy good coast mile : square mile ratio... wind still isn't terribly viable for the rest of the world. And here in the US we have to deal with the "But it kills birds!" (it doesn't) crowd and similar idiocy.

    Oddly, I was thinking just this morning a

    • And here in the US we have to deal with the "But it kills birds!" (it doesn't) crowd and similar idiocy.

      More like from the "Dead Kennedys" singing, "But it will spoil our ocean view!"

      • Of course it kills birds.

        But a minuscule fraction of the number of birds that cats kill.

        And I think fewer birds than skyscrapers kill.*

        * One night at work there was a loud "CRACK" and the window 30' from me was completely shattered. We thought it was a rock or maybe even a bullet. It was a hawk. Dead as a doorknob on the ground below where it had hit the window.

        • One of the reasons why the "myth" of wind turbines killing birds occurred was some of the first wind farms deployed in the US really did kill a load of birds. After this, wind turbines were placed in more bird friendly areas and technology improved to be less lethal to birds. So unfortunately, the misinformation continues to be associated with modern wind farms which is not helpful. Of course some birds get killed by wind turbines but not in the large numbers reported by the "myth".

          Also domestic cats killin

    • And here in the US we have to deal with the "But it kills birds!"

      Insects as well apparently.

      https://www.forbes.com/sites/m... [forbes.com]

    • Little rock with few exports can manage it but the supposedly greatest nation can't? We must really fucking suck

  • From the fine article...

    By 2030, the Scottish government says it wants to produce half of the country's energy consumption from renewables. It is also targeting an "almost completely" decarbonized energy system by 2050.

    There's quite a few experts that believe this simply cannot happen. Not unless nuclear power is included. Those experts included a very intelligent and educated UK citizen, Dr. David MacKay.
    https://www.theguardian.com/en... [theguardian.com]

    His CV...
    https://www.withouthotair.com/... [withouthotair.com]

    The costs of going without nuclear power is simply too high. Dr. MacKay doesn't argue that 100% renewable is impossible, quite the opposite. He's spelled out in considerable detail how to do it but the costs make it too high for it to be practical.

    Here's another pair of smart people that did the math...
    http://www.roadmaptonowhere.co... [roadmaptonowhere.com]

    And more very intelligent and educated people from IEA that did the math...
    https://www.reuters.com/articl... [reuters.com]

    Again, it's not that a switch to 100% of energy from wind, water, and sun, can not happen. It's that it will not happen. The cost is far too high.

    • by Uecker ( 1842596 ) on Tuesday July 16, 2019 @01:34AM (#58932472)

      I would rather ask people, who really did the math.The IEA has long been criticized by scientists for not acknowledging the potential of renewables.
      For example here (Nature Energy): https://www.nature.com/article... [nature.com]

      Here is a full simulation for south and central america showing that a completely renewable energy system is cost effective:
      https://journals.plos.org/plos... [plos.org]

      So, yes, 100% energy from renewables can happen and will be relatively cheap (in contrast to nuclear).

      • I would rather ask people, who really did the math.The IEA has long been criticized by scientists for not acknowledging the potential of renewables.

        How about instead of these scientists go about criticizing the IEA they go make their case to some investors and get them to build out this renewable energy infrastructure? Unlike nuclear power, that needs government permits printed unicorn skins with unobtainium ink, they can put solar panels on rooftops all they want.

        Here is a full simulation for south and central america showing that a completely renewable energy system is cost effective:

        So, yes, 100% energy from renewables can happen and will be relatively cheap (in contrast to nuclear).

        Scotland is not in South America.

        I just gave links to websites that went through the math in considerable detail on why the UK and USA cannot do without nuclear power. If some scientists di

        • Scotland is not in South America.

          I just gave links to websites that went through the math in considerable detail on why the UK [...] cannot do without nuclear power.

          Yeah, Mr. blindidot. Scotland is not South America. Brilliant. And that exactly is why they don't need nuclear, as wind is enough. How dumb can you be?

          It must be really difficult for you to grasp the concept of different climate/weather, sizes of countries, coast length, etc. p.p.

          Hint, this is a map, you can look on it (cant be so hard): https: [windfinder.com]

    • Comment removed based on user account deletion
  • There is a lot of industrial and commercial use. So Scotland is probably still net negative.

    For those talking batteries, Scotland has plenty of mountains, which suggest pumped hydro would be the way to go.

    It's cold and windy in Scotland.

    • I think Scottish electricity is exported to England via transmission lines and other nearby countries export is done via undersea interconnect cables typically rated at 1GW.

      The population of Scotland is about 5 million people. The population of Greater London is about 8 million people. Therefore there are more people in London than in the whole of Scotland.

      It is relatively easy for Scotland to have sufficient renewable electricity for its people due to the low population density.

  • Turning wind into electricity lowers the amount of wind (Oban Airport) [windfinder.com] in Scotland, a nation that has too much. Using the electricity raises the temperature of the surrounding area, making Scotland warmer, another benefit.
  • Up and down the country, we are all benefiting from cleaner energy and so is the climate

    No - the climate in Scotland is still terrible. Lots of wind, lots of rain, not a sign of warming.

    • The climate in Scotland is very mild for its latitude. Even in Shetland, which is ~50 kilometers further to the south than Anchorage, the record low is just -9 degrees Celsius.

    • For people who have never been to Scotland, let me enlighten you. The depression above Scotland is world famous, at least in Europe. That depression hovers between Iceland and Scotland, so it is never far away. That depression directly influences most of the northern European weather. Off course depressions travel, but around Scotland and Iceland there is a zone where all depressions from the Atlantic go to die, circling around each other. Especially in October, the weather map looks like a stable "depressi

    • Lol, they have less freezing in winter, like every other country in Europe.

  • --OK, so - serious question. If you've ever read Terry Pratchett, the History Monks have a series of "spinners" that take up excess load - a series of tiny ones going all the way up to huge+heavy.

    --If there's too much power being generated, can we route it to a series of gear-reduction spinners that can wind up like a spring, and then "unwind" later to provide more power when the generation is low?

    REF:
    https://www.youtube.com/watch?... [youtube.com]

    --If the "spinners" can lift a load off the ground (or wind something up)

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