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Power

WaveNET – the Floating, Flexible Wave Energy Generator 90

Zothecula writes: Scotland's Albatern is putting a new, modular spin on renewable energy generation. WaveNET is a scalable array of floating "Squid" generator units that harvest wave energy as their buoyant arms rise and fall with the motion of the waves. Each Squid can link up to as many as three others, effectively creating a large, floating grid that's flexible in every direction. The bigger this grid gets, the more efficient it becomes at harvesting energy, and the more different wave movements it can extract energy from. Albatern's 10-year target is to have 1.25 kilometer-long floating energy farms pumping out as much as 100 megawatts by 2024.
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WaveNET – the Floating, Flexible Wave Energy Generator

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  • Niche energy (Score:5, Insightful)

    by amorsen ( 7485 ) <benny+slashdot@amorsen.dk> on Wednesday November 26, 2014 @01:31PM (#48468587)

    Median energy density in waves is too low in most places. You need way too large machines to extract useful amounts of power. The few times you get sufficiently powerful waves they tend to rip your equipment to bits.

    Wave energy is one of those ideas which seem really obvious from a distance, so the fact that project after project fails does not seem to dissuade anyone. They were obviously just doing it wrong.

    I really hope that I am wrong and this turns out to be a great success, but I am not holding my breath.

    • For almost everything that works there was a time when it didn't work. Just because others have failed in the past doesn't mean it's impossible.

      • Which is why Youtube has tons of over unity 'free energy' videos. They say the same thing.

        Its that damn reality that keeps getting in the way!

        • I hate this negative attitude that pervades the world these days. It discourages invention and ingenuity by telling people only the ignorant and crazy would even try. Everything we accomplish in the next 50-100 years will be something that reality gets in the way of just now. Most things which are genuinely revolutionary are actually fairly simple twists on existing things.

          There are functional wave powered ocean vessels.

          There is no such thing as 'free energy' in the sense of something from nothing, it has t
    • We don't really need to have a one-size-fits-all power generation supply. Geothermal is great if you are in Iceland or certain parts of the Ring of Fire, but for the most of the world, it's not an option at all. Solar power is going to work better in places with lots of sunlight, wind power in places with lots of wind, etc.
    • Wave energy is one of those ideas which seem really obvious from a distance, so the fact that project after project fails does not seem to dissuade anyone. They were obviously just doing it wrong.

      Do you know how many rockets were unsuccessfully fired before we finally got one safely into space? Do you know how many airplanes were lost before we managed to make flight safe? How many boats were lost crossing the oceans?

      Just because we haven't figured it out yet doesn't mean we won't. Only way to crack the problem is to try.

    • Median energy density in waves is too low in most places.

      Note: "Scotland"

      I don't predict that will be a problem for the locations they're likely to be planning on. :)

    • Re:Niche energy (Score:5, Interesting)

      by Applehu Akbar ( 2968043 ) on Wednesday November 26, 2014 @02:35PM (#48469205)

      There may be amore important reason to develop wave energy. In most parts of the UK, shoreline erosion is a serious problem. Any technology that saps the energy of incoming waves is a good thing for countries with this problem.

      • In most parts of the UK, shoreline erosion is a serious problem.

        [SIGH] [Pulls on hard hat with "Rig geologist" written on the front.]

        There are some fairly small areas where shoreline erosion is a problem. Most of them are on the East coast, south of approximately Humberside. A few problematic spots along the south coast. Or, if you want to look at it another way, in the relatively sheltered parts of the innermost English Channel and Southern North Sea, where the coasts of Holland and France are just a few

    • Wrong on all accounts.

      Neither is the energy of waves to low nor do they rip anything apart. And yes, around coasts waves are very common ... no idea why you think waves would not be available at some spots ... sure, big lakes, even the meditarien, might be to small. But oceans always have waves.

      We are talking here about off shore waves, not breakers that ram into a steep coast.

      Wave energy systems we have since decades. But so far they where not economic (durability, maintenance etc. ) feasable.

    • by AmiMoJo ( 196126 ) *

      Human flight is one of those ideas which seem really obvious from a distance, so the fact that project after project fails does not seem to dissuade anyone. They were obviously just doing it wrong.

      With most new tech the R&D happens in a lab out of public view. The numerous failures are hidden from view and you just see the final, working prototype or a finished product. Unfortunately that isn't possible for large projects like this, so they have to do their R&D in public.

    • You've not been to Scotland :-)

      The waves don't need to be large or on the surface - most "wave" machines are located underwater and get a steady undulation of water going past them.

      Of course the best thing about this type of renewable is that it generates electricity all the time.

  • Saltwater and MTBF (Score:4, Insightful)

    by jgtg32a ( 1173373 ) on Wednesday November 26, 2014 @01:37PM (#48468647)

    I wish them the best of luck but saltwater is particularly nasty stuff over over an extended period of time. Hopefully they can find a cheap way to insulate against it.

    • by Spy Handler ( 822350 ) on Wednesday November 26, 2014 @02:19PM (#48469047) Homepage Journal

      Stop trying to be so nice and polite. What you really meant to say is that this aint ever gonna work because salt water is a crazy fucked up environment. Harebrained schemes like this always fail because seawater is so corrosive that maintenance costs will eat up any and all profits.

      Haven't seen anyone mention it yet, but only a couple months ago there was a Slashdot story about another wave power generation scheme that failed. Cause? Salt water and high maintenance costs.

      • by Hillgiant ( 916436 ) on Wednesday November 26, 2014 @02:45PM (#48469263)

        Cathodic protection [wikipedia.org] is a well understood science. I have seen sub-sea pipeline equipment that had been immersed for 20 years actuate like they are brand new.

        • by delt0r ( 999393 )
          That does not fix the bio fouling problem and is not maintenance free. You are always stuck with both high capitol costs and high maintenance costs. This translates into expensive power.
      • by gweihir ( 88907 )

        Indeed. And one of these days, they will crack it. It is not far out of reach. It just needs some engineering optimizations. And once the saltwater problem is solved, the solution will benefit other things working in saltwater as well.

      • Even though it is a tough engineering problem, i'm sure that there are solutions out there.

        For instance I have heard many times the nuclear industry to claim that they have solved harder problems with their molten-salt breeder designs.
        So if they have found a way to handle super-heated, radioactively saturated, oxidizing salts, how much difficult would be to handle sea-salts at standard temperatures?

        • It's not a question of whether or not it can be handled. Of course it can be handled, you just take the thing out of the water every x hours and repair/clean/repaint/whatever it. The question is, what's the value of 'x', and what's the associated cost, and at what point does that prevent the whole enterprise from being uneconomical?

        • by delt0r ( 999393 )
          There may well be a solution and it may well be more expensive than alternative methods of generating power. By the way the problem of corrosion in molten salt reactors was suggested, but neither tested or qualified. It was also very expensive.
      • You do know that Scottland and also other european countries have test installations in sea water since over 20 years?

        Ah, you don't ... how smart to point out the obvious. I really wonder why eceryone on /. always think that some random european engineers and companies (especially if it is regarding energy) are idiots?

        • Did I say European engineers are idiots? Or any engineers?

          Of course they can make it work, I was saying the project will fail due to economics, not because they can't engineer. Like the Concorde, an engineering marvel but economic failure.

          Here's an earlier Slashdot story and comment that sums it up nicely:

          http://hardware.slashdot.org/c... [slashdot.org]

      • by AmiMoJo ( 196126 ) *

        There are plenty of working schemes:

        Wave Dragon [wikipedia.org]
        Pelamis [wikipedia.org]
        Oyster [wikipedia.org]

    • by MrL0G1C ( 867445 )

      Rance Tidal Power Station [wikipedia.org] opened in 1966, still going strong, salty water not a problem.

      The UK is planning a large tidal lagoon, backed by Prudential Insurance, they don't seem to be in the slightest bit worried about salty water either. UK Renewables May Be Turning The Tide [oilprice.com]

      And of course there's a global shipping industry. Coal doesn't go by airplane.

  • energy is mass times velocity squared. Energy flux flowing over a windmill has another velocity, so velocity cubed.

    • Can you expand on this please? Why is the velocity cubed?
      Not that I know anything about this stuff, but it seems like water should have more energy. 1,000Kg/m^3 for water compared to like 1.25Kg/m^3 for air. It seems like the difference in mass would blow away (HURRR) any but the most extreme difference in velocity.
      • Why don't youndo the math then?
        Energy is m * v ^ 2.

        Obviously doubeling the v goes to the square for total energy, while doubeling the mass only doubles the energy.

        Wind energy increases in a turbine with the speed by the cube because first of all the air follows the same e = m * v ^ 2 ... but on top of that if you double the speed not only do you have (2 * v) ^ 2 but also (2 * m) as in the same time, now twice the mass of air goes through the turbine (twice the mass times twice the speed).

    • This may be so but we (the British Isles) are a group of islands in the Atlantic, we get waves rolling around our coastline 24/7, coming in a long way across open ocean, and we've got a lot of sea. We're a relatively small island and people get protective about windfarms getting built on land. So it's a reliable source of energy to explore in a place not many folk mind too much having installations on, definitely worth researching scaleable solutions here.

      • by Gonoff ( 88518 )

        ... people get protective about windfarms getting built on land

        The problem sometimes is that the people from the location are all for it but NIMBYs are brought in specially.

        I Come from further north than Aberdeen. In Orkney, we have had wind turbines for decades but various people would come from central or southern England and try to drum up opposition. I once had some on my (parents) doorstep. They told me about the harm that these things would do to me and how noisy they were. I declined and they moved on. I don't remember a single friend or relative who was in

  • This is one of the more novel designs I've seen. It seems to be scaled to a good size for wave action near the coastline, it's modular and extensible, and it looks like it would allow for small vessels to navigate over the grid, as long as their draft depth is shallow enough. Another advantage is that it doesn't "ruin the skyline" the way a wind farm might do in Massachusetts.Also, the ocean is more "reliable" as an energy source than wind or solar... this method ought to deliver a more "reliable" 24/7 outp

  • Agree with you both about two things

    1. Powerful wave movements can rip equipments apart
    2. Salt water is such a damaging factor to the equipments

    So my thought is that not only a power farm is located in a mild whether area... but also weather forecast data should be used to relocate the farm over an enormous area of ocean surface to avoid damage to equipment... and yet that area is still inside the national territory waters of any particular country... Otherwise they'd have to find a way to protect th
    • We use metal structures that are in contact with the ocean all the time. It's not suicidal in the slightest.

  • The alternative to this is one that resides on the ground and it generates the same power no matter what the height of the waves are. That's a lot more logical.
  • The modular design is cool. It's going to come in handy ...
  • by Charliemopps ( 1157495 ) on Wednesday November 26, 2014 @03:10PM (#48469443)

    This wont work...
    Here's the key piece of their mechanism:
    http://images.gizmag.com/galle... [gizmag.com]

    It's 25 meters beneath the north sea... in the midst of a spiderweb of steel...
    That joint is most likely to fail during a storm.
    When it does fail, you'd now have a floating buoy dangling a giant steel beam beneath it, riding storm waves...
    and crashing into the rest of the network.

    Storm conditions will prevent you from doing anything about it until the damage is done.

    • I wonder how much effect a storm will have on some equipment 25 metres below sea level?

    • Yes, Mr. ShashDot Pundit. You're absolutely right.

      You are so smart and they are so dumb. it's guaranteed that they spent no time doing any calculations about this. Every engineer they have has never even seen the ocean, only designed stuff on paper/computers in nice clean rooms. They've never run any simulations, or done any physical testing at all, because all engineers just know that complex new things always work perfectly the first time.

      So just call them and talk to the receptionist, or send them an e

      • You like to use the word "Pundit" in a derogatory manner quite frequently. I think that you've completely misunderstood the entire point of the site you're frequenting. If you don't like punditry, you shouldn't be here. It would be similar to if you left negative commends on Pornhub like "She should put more clothes on!"

    • by AmiMoJo ( 196126 ) *

      Really? Wow, good job we had you to warn us that all those marine engineers who designed the thing are idiots. After all, you came to your conclusion from just a photo, so how could they possibly have missed it?!

      • Right, because Marine engineers working for an energy company have never built something that could fail during adverse conditions right?
        http://i.imgur.com/rUNFYnD.jpg [imgur.com]

        Maritime accidents will happen. It's not a matter of if you can prevent them, you can't. Marine environments are some of the most extreme environments on earth. This will fail... It's a question of what will happen once it does. Given their design, it wont be good.

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