Floating turbine towers above — China’s S1500 hovers to harvest wind at 131 feet
www.ecoticias.com
China's S1500 floating turbine hovers at a 4,921 feet to harvest high-altitude winds, generating 1MW power equivalent to 328-foot ground turbines.

The S1500 floating turbine’s operating altitude is 4,921 feet above ground level, where wind speed moves about three times faster than at the surface. The advantage of this altitude (also referred to as vertical slice) can result in a power output up to 27 times higher than a conventional ground-based wind turbine of similar capacity.

The capacity to generate one megawatt of electrical power (MW) with the S1500 system is comparable in size to what small wind power turbines normally generate (a conventional 328-foot-tall wind turbine), while the footprint of the S1500 system is significantly smaller. This amazing power density shows the efficiency benefits of being able to access high altitude wind power resources by new and innovative airborne platforms.

  • ZoDoneRightNow@kbin.earth
    9·
    5 hours ago

    I am guessing that the 131 feet come from the size of the turbine (60m x 40m x 40m)… The article is extremely poorly written

  • Jolteon@lemmy.zipEnglish
    5·
    5 hours ago

    It’d be interesting to see the cost efficiency of that versus traditional wind turbines over the expected lifespan of both.

    • bryndos@fedia.io
      5·
      5 hours ago

      Yes it’s odd to see an article about electricity generation technology that doesn’t even have a speculative ‘levelised cost of energy’ as they call it. That is lifecycle expected average $/MWh.

      I guess its a very early prototype. and maybe China doesn’t care to much about LCOE.

  • mercano@lemmy.worldEnglish
    703·
    15 hours ago

    How come the 131 foot altitude in the headline is never mentioned in the article? These turbine operates at 4,921 feet, a number that makes a lot more sense when you convert it to metric, 1.5 km. The article is littered with these odd imperial measurements that should have just been left as nice round metric numbers, or least re-rounded after conversion. 130 feet would have read better, but the original number was 40 m.

  • nucleative@lemmy.worldEnglish
    231·
    13 hours ago

    The wind at 32,000 ft is 200 times stronger than the wind at the surface?

    Ummm… 10 knots * 200 = 2000 knots. I don’t think so lol.

    A lot of strange numbers in this article that bring its accuracy into question.

    No mention of the weight of a 1 and 1/2 km wire that is also suitable to anchor this thing in place. Or are they going to float batteries and bring them down to discharge?

    • DoubleDongle@lemmy.worldEnglish
      11·
      9 hours ago

      I can’t be arsed to dig up the equation, but it may mean that the wind has 200 times more usable energy, which I think is a cube function of its speed. Wouldn’t be 2000 knots in that case

    • drosophila@lemmy.blahaj.zoneEnglish
      21·
      10 hours ago

      Ummm… 10 knots * 200 = 2000 knots. I don’t think so lol.

      First of all, kinetic energy scales with the square of an objects velocity.

      Second, since we’re talking about a continuous stream of fluid instead of a single object, increasing the air speed not only increases the enegy per unit mass of air, but also the number of units of air per second that pass through the turbine. Which means that the amount of energy extracted scales by the cube of the wind speed.

      https://kpenergy.in/blog/calculating-power-output-of-wind-turbines

      So, more like going from 10 knots to 60.

      • anomnom@sh.itjust.worksEnglish
        2·
        2 hours ago

        You’re starting to sound like a chatbot now, MagSafe connectors aren’t wireless. That’s the point!

        (I know you’re probably not a chatbot)

    • XeroxCool@lemmy.worldEnglish
      2·
      10 hours ago

      I’m thinking it’s about consistency. 10kts 10% of the time vs average 150kts 100% of the time (the math is a little off but we’re in hypothetical estimates already)

    • Delilah@lemmy.blahaj.zoneEnglish
      3·
      9 hours ago

      2"Ø UHMWPE rope has a breaking strength of ~375000lbs weighs 94lbs per 100’ so about 4700lbs for 5000’

      That said I have know idea if 2"Ø is the correct diameter rope to anchor one of these balloons.

      Source: RightRope.com

      edit: I was originally planning on adding in the weight of a high voltage transmission cable, but I’m on my phone and feeling lazy, maybe some one else will feel more inspired than I.

      • SatansMaggotyCumFart@piefed.worldEnglish
        5·
        8 hours ago

        If you’re adding two strand #2 AWG wire it’s about a half pound per foot so another 2500lbs which means the floating windmill has to support 7200 lbs in addition to the weight of itself.

  • RamRabbit@lemmy.worldEnglish
    182·
    15 hours ago

    These are a massive liability every storm. You have to winch them down and get them into a blisteringly massive hangar that can hold them. Then get them set back up after. Every. Single. Storm.

    Furthermore, you don’t save on land use, as you need the massive, expensive hangar for each right at their base.

    Ground-based wind-turbines just feather their blades and lock their gearbox. Very simple.

  • tleb@lemmy.caEnglish
    5·
    16 hours ago

    Does it have batteries on board? How does it connect the power to the grid? O_o