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How Orkney Leads the Way For Sustainable Energy (theguardian.com) 201

An anonymous reader shares a report: It seems the stuff of fantasy. Giant ships sail the seas burning fuel that has been extracted from water using energy provided by the winds, waves and tides. A dramatic but implausible notion, surely. Yet this grand green vision could soon be realised thanks to a remarkable technological transformation that is now under way in Orkney. Perched 10 miles beyond the northern edge of the British mainland, this archipelago of around 20 populated islands -- as well as a smattering of uninhabited reefs and islets -- has become the centre of a revolution in the way electricity is generated.

Orkney was once utterly dependent on power that was produced by burning coal and gas on the Scottish mainland and then transmitted through an undersea cable. Today the islands are so festooned with wind turbines, they cannot find enough uses for the emission-free power they create on their own. Community-owned wind turbines generate power for local villages; islanders drive nonpolluting cars that run on electricity; devices that can turn the energy of the waves and the tides into electricity are being tested in the islands' waters and seabed; and -- in the near future -- car and passenger ferries here will be fuelled not by diesel but by hydrogen, created from water that has been electrolysed using power from Orkney's wind, wave and tide generators.

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How Orkney Leads the Way For Sustainable Energy

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  • by Anonymous Coward on Sunday January 20, 2019 @07:06PM (#57993548)

    If everyone harvested the wind and the waves, there'd be no wind and waves. This solution simply does not scale.

    • If everyone harvested the wind and the waves, there'd be no wind and waves. This solution simply does not scale.

      Are you perhaps related to the guy back in the day who said cars can't travel faster than fifteen miles per hour because all of the air in the cab would be sucked out the back?

      As for changing the weather patterns, think about this next time a hurricane is blowing people into the sky.

      • If everyone harvested the wind and the waves, there'd be no wind and waves. This solution simply does not scale.

        Are you perhaps related to the guy back in the day who said cars can't travel faster than fifteen miles per hour because all of the air in the cab would be sucked out the back?

        I think you done went Whhoosh.

    • by 93 Escort Wagon ( 326346 ) on Sunday January 20, 2019 @07:49PM (#57993706)

      If everyone harvested the wind and the waves, there'd be no wind and waves. This solution simply does not scale.

      Well, their first choice was to build a Dyson Sphere... but once they looked at Dyson’s Catalog, they decided the company’s prices are just too outrageous.

      • Well, their first choice was to build a Dyson Sphere... but once they looked at Dyson's Catalog, they decided the company's prices are just too outrageous.

        Plus transparent plastic looks cool but it's just not the best choice.

        • by AmiMoJo ( 196126 )

          It looks bad after the first use, but at least you can see how full the bin is. Kinda wish the hose was transparent too so it's easier to look for blockages, although these days I mainly use the hand-held ones anyway.

  • Hydrogen is a way of storing energy the same as a battery. Today batteries are better in every possible way except possibly air travel. Hydrogen is dangerous, hard to store and hard to transport. Again, except possibly for air travel, hydrogen is either expensive or less efficient to turn back into mechanical energy.
    • by Freischutz ( 4776131 ) on Sunday January 20, 2019 @07:33PM (#57993650)

      Hydrogen is a way of storing energy the same as a battery. Today batteries are better in every possible way except possibly air travel. Hydrogen is dangerous, hard to store and hard to transport. Again, except possibly for air travel, hydrogen is either expensive or less efficient to turn back into mechanical energy.

      True, but the reason hydrogen storage is still interesting is that the storage capacity you can achieve with hydrogen based completely dwarfs anything you can achieve with batteries, hydro storage or practically anything else at the moment. The round trip efficiency is currently between 30-40 %, it can realistically be increased to 50% in the near future. If you recover the stored energy by burning the hydrogen in in a combined cycle gas power plant the efficiencies is as high as 60%.

      • Lithium batteries have a round-trip efficiency of about 95%.

        For hydrogen, it is about 60%.

        So lithium wins for most applications.

        Hydrogen wins when weight is a really big concern. So it may make sense for aviation.

        Hydrogen also scales well, since big tanks have a better volume-to-area ratio. So it may make sense for ships.

        For static applications like grid-storage, sodium-ion or vanadium-redox may be better than either lithium or hydrogen.

        But for cars or smaller, lithium batteries are the way to go. You wi

        • by Freischutz ( 4776131 ) on Sunday January 20, 2019 @08:56PM (#57993930)

          Lithium batteries have a round-trip efficiency of about 95%.

          For hydrogen, it is about 60%.

          So lithium wins for most applications.

          Hydrogen wins when weight is a really big concern. So it may make sense for aviation.

          Hydrogen also scales well, since big tanks have a better volume-to-area ratio. So it may make sense for ships.

          For static applications like grid-storage, sodium-ion or vanadium-redox may be better than either lithium or hydrogen.

          But for cars or smaller, lithium batteries are the way to go. You will never see a hydrogen fuel cell in a cell phone.

          Hydrogen wins when you need to store store truly massively amounts of excess energy which is something you cannot currently do with batteries. That is the one big thing what still makes Hydrogen interesting despite the low conversion efficiency. If you are producing huge amounts of excess energy and can't store it in battery arrays, storing it as Hydrogen at 50% round trip efficiency is still better than letting all that energy go to waste assuming you can do the hydrogen conversion cost effectively. The currently most sensible thing to do with this hydrogen is use it to power always on gas power plants to supplement solar and wind power and then use the energy to charge cars or whatever else it is you need the energy for. This, again, assumes that you can do the round trip conversion of electric energy into hydrogen cost effectively.

          • by ShanghaiBill ( 739463 ) on Sunday January 20, 2019 @09:06PM (#57993952)

            Hydrogen wins when you need to store store truly massively amounts of excess energy

            Actually, it is usually not the best solution. Pumped storage and compressed air have better efficiency and need less capital investment. Vanadium-redox will give much better efficiency, and can scale with just a bigger tank.

            If hydrogen made sense for grid storage, profit seeking companies would be doing it. They aren't.

            Hydrogen storage only makes sense when weight and/or power density are more important than efficiency.

    • by LynnwoodRooster ( 966895 ) on Sunday January 20, 2019 @07:44PM (#57993690) Journal
      Hydrogen has about 142 MJ per kg, about 3X that of diesel and gasoline. Which themselves are about 25X that of LiPo batteries (the best, mass-producible rechargeable batteries out there). Making hydrogen about 75X the energy density of the best battery packs. Batteries are terrible for aerospace uses, and even for vehicles where hydrogen could be recharged in a matter of a few minutes, requires a LOT less mass for motion (meaning more efficient and easier on the roads), and simpler to build (as you can use a fuel cell and then drive electric motors). Why would you want to carry around 800 kg of batteries when you could do 12 kg of hydrogen? The weight savings in terms of wear-and-tear on roads and tires is massive.
      • by arth1 ( 260657 )

        Hydrogen has about 142 MJ per kg, about 3X that of diesel and gasoline. Which themselves are about 25X that of LiPo batteries (the best, mass-producible rechargeable batteries out there). Making hydrogen about 75X the energy density of the best battery packs.

        Except that the same mass of hydrogen takes up a HECK of a lot more volume.
        And once you factor in the mass of the containers and other hardware needed to secure hydrogen, the advantage per mass is no longer as clear either.

        • by LynnwoodRooster ( 966895 ) on Sunday January 20, 2019 @09:30PM (#57994016) Journal

          Nope [wikipedia.org]. You get about 9.7MJ/L for compressed hydrogen, and about 40% of that (4.3 MJ/L) for LiPo batteries. Hydrogen is much more efficient by weight and volume.

          And if you need 700+ kg of tank to store your hydrogen - you're doing it wrong. Here's a massive 850L tank [mahytec.com] that would be equivalent energy storage to about 4800 kg of batteries - and it weighs 215 kg. Not even close.

          • What about the combustion engine and complex drivetrain? With an electric motor you shave a lot of weight. No fuel pump/plumbing, no radiator, no water pump, no belts, no alternator, no exhaust system, very simple fixed gearbox, smaller 12V battery, no engine oil, and of course no engine block with pistons and spark plugs and all the rest of it.

            Also a lot lower maintenance.

            • Fuel cell. Incredibly efficient, extremely simple - and you get power right out. You don't need a reciprocating engine.
              • by q_e_t ( 5104099 )
                Fuel cells are about 50% efficient, so the 11MJ/kg hydrogen tank produces about 5.5MJ/kg at the wheel (assuming no other losses). A good diesel or petrol car is about 30% efficient, so it's producing 9MJ/kg at the wheel, based on fuel and containment weights. You'd have to take into account the overall vehicle efficiency, so weight of transmission, engine, fuel cell, overhead of heating and cooling, etc., to make a full comparison fully fair. You might get some improvement for hydrogen if using a fuel cell
            • I would think that electric is also quieter.

              But what about the material to make the battery? If the whole world started using batteries for everything, would there eventually be a shortage of such material? Also have to consider the disposal of such material. Is such material considered hazardous?

          • And if you need 700+ kg of tank to store your hydrogen - you're doing it wrong. Here's a massive 850L tank [mahytec.com] that would be equivalent energy storage to about 4800 kg of batteries - and it weighs 215 kg. Not even close.

            Are you serious? That tank is the equivalent of a 100 kWh battery. Just like the one you get in some Teslas. Are you claiming that those Teslas weigh over 4800 kg?

          • by q_e_t ( 5104099 )

            And if you need 700+ kg of tank to store your hydrogen - you're doing it wrong. Here's a massive 850L tank [mahytec.com] that would be equivalent energy storage to about 4800 kg of batteries - and it weighs 215 kg. Not even close.

            Assuming that's just the weight of the tank, it contains 60kg of liquid hydrogen. So the energy contained is 60*142MJ in 215+60kg, so the actual energy density is 31MJ/kg. For petrol that's still about 180L, or 40 gallons, which is not really typical of the typical car. So if you scale it down

      • Why would you want to carry around 800 kg of batteries when you could do 12 kg of hydrogen?

        You forgot the weight of the hydrogen tank and the fuel cells. There are many whys. One, hydrogen is soluable in many metals which makes building effective tanks surprisingly difficult. Then there's the issue of filling via very high pressure hoses, something which is a rather different prospect from liquid hydrocarbons or just plugging in. Then there's the infrastructure required to either create or ship hydrogen. It

        • See above - hydrogen tanks and valving is really not that heavy. A couple hundred kg to carry the equivalent of a tonne or two of batteries. Hydrogen has ~75X the power density by weight - that leaves a BIG overhead factor for a tank or valving system. As far as infrastructure - we have one now, with tens of thousands of refilling stations all around.
          • Hydrogen has ~75X the power density by weight

            Absolutely not. Two tonnes of batteries today have a power output of almost 2 MW. That requires around a 1000 kg fuel cell today. So it's at best 2x as much, and only if you completely discount the storage which might easily almost double that. So it's maybe in the 1.5x ballpark for power density.

            • How heavy is the battery pack in a Model 3? We know that two of those battery packs are about the same as the 38 kg tank I linked - are you claiming that the battery packs on the Model 3 are just 38 kg, or even 76 kg?
              • How heavy is the battery pack in a Model 3?

                Around 360 kg. However, it's designed to be flat and have a low CG, so it's mostly out of the way (under your feet). Cylindrical tanks and the fuel cell stack would require some room either in the front or in the back.

                We know that two of those battery packs are about the same as the 38 kg tank I linked

                We know it's the other way round; you need two of those tanks with 1.5 kg hydrogen in each to store an equivalent amount of electricity that one Model 3 battery pack can store, plus a 100 kg fuel cell to power Model 3's 200 kW motors, or a 170 kg fuel cell to power the 350 kW performance model

          • See above - hydrogen tanks and valving is really not that heavy.

            quote the numbes then. It's not going to be as heavy overall but it's not as light as you're making out. It's not a 75x difference.

            A couple hundred kg to carry the equivalent of a tonne or two of batteries.

            It's reached the stage of needing actual hard numbers.

            Hydrogen has ~75X the power density by weight

            ITYM energy density.

            that leaves a BIG overhead factor for a tank or valving system.

            Well no. Hydrogen has more or less fixed costs for the valv

      • by q_e_t ( 5104099 )

        Hydrogen has about 142 MJ per kg, about 3X that of diesel and gasoline.

        Yes, but the issue is MJ/litre, not per kg in a practical sense for creating cars.

    • Convert it to methane? It makes it a lot easier to store and transport.

    • It's not a just a way of storing energy, it's also a valuable chemical feedstock, and its synthesis will be necessary if we want to get rid of fossil fuels in the chemical industry.
    • > Today batteries are better in every possible way except possibly air travel

      What about the materials used to make batteries? Are those materials available in near limitless amounts?

      What about the processing and disposal of those materials?

      • Well, there's for example enough lithium in sea water to make a 170 MWh battery for every person currently living on this planet. Is that enough?
  • by Arzaboa ( 2804779 ) on Sunday January 20, 2019 @07:20PM (#57993602)

    Put in large systems that run off the currents in the ocean that fill up tanks full of hydrogen so that automated ships can come dock with them and move the hydrogen around? Sounds like a great idea to me. I'm glad they thought of this.

    --
    “Time and tide for nae man bide” – Unknown

  • by petes_PoV ( 912422 ) on Monday January 21, 2019 @01:49AM (#57994554)

    they cannot find enough uses for the emission-free power they create

    How about using all their excess electricity to make the next generation of wind turbines to replace the ones they bought from an industrialised country?

    Generating their own electricity is nice, but it doesn't make them self-sufficient. They are completely dependent on places with mines, steel plants, manufacturing and development to send them the equipment to generate electricity and to maintain it. If they wanted properly sustainable energy, they would have produce the wind turbines on their islands.
    But that would require a fully industrial society which their small population could not support.

    • Generating their own electricity is nice, but it doesn't make them self-sufficient.

      Since nobody claimed they were self sufficient (except in energy) your point is... what exactly?

      (Seriously, how did this drivel get modded up?)

  • by Paul Johnson ( 33553 ) on Monday January 21, 2019 @03:43AM (#57994664) Homepage
    Bear in mind that these are small islands off the north coast of Scotland. They have a dialect word "yarfast" meaning "tied down so it won't get blown away". https://books.google.com/books... [google.com]
    • by Gonoff ( 88518 )

      Proof of the exceptional weather in Orkney is that my mother told me I have special genetic variations to cope...

      Big feet and a low centre of gravity!

  • FTFA :

    Today the islands are so festooned with wind turbines ...

    I'm dropping any idea of visiting there as a tourist*. The place must look like an industrial estate.

    * Perhaps they see that as a plus point.

  • ...the story doesn't mention anything about subsidies and/or tariffed rates. Is this that rarest of beasts, unique in all the world, a commercial wind turbine installation built for the purpose of generating a profit?

    Of course not! https://www.theguardian.com/en... [theguardian.com]

    "The Scottish government warned this week that if Westminster ruled out allowing onshore windfarms in the Western Isles, Orkney and Shetland to compete for subsidies, £2.5bn of investment would be put at risk."

    Anyone who's worried that win

    • By the way, I wonder what wind and solar (and tidal in the case of the Orkenys) has done to the cost of electricity?

      Made it cheaper, for people living in the Orkneys. Tiny little islands the world over typically generate electricity using imported diesel. It's expensive. It's stupidly expensive. It's permanently stupidly expensive. Solar is cheaper. Wind is much much cheaper.

      In the next decade, there's going to be a glut on the market of used tanker ships that formerly delivered diesel to islands that don't need it anymore.

  • The Fully Charged YouTube channel has a number of reports from Orkney. https://www.youtube.com/watch?v=FXe1hBvlylw&list=PLzD0K2OhbVfGCtXeA6iAQ3ufh2W84t2Gy [youtube.com]

Ocean: A body of water occupying about two-thirds of a world made for man -- who has no gills. -- Ambrose Bierce

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