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Power United States Technology

Algorithms Help Turbines Share the Wind (ieee.org) 81

carbonnation writes: As Spock so elegantly opined, "Logic clearly dictates that the needs of the many outweigh the needs of the few." Today Stanford U researchers presented the clearest proof to date that self-sacrifice can also benefit wind farms. In their demonstration at an Alberta wind farm, one turbine sacrifices a fifth of its generating potential to enable better performance by neighboring turbines, boosting the group's collective output. And all it takes to harness this altruistic behavior is a small (but intelligent) tweak to their control systems. "It is called 'wake steering' because rotors are turned about their towers to point slightly away from the oncoming wind and thus deflect their wakes away from downstream turbines," reports IEEE Spectrum. "To determine the best yaw angle for their experiment, the Stanford team fed five years of wind speed, wind direction and power generation data from the six test turbines to their proprietary optimization algorithm. Combining that data with a simple wind model, the algorithm projected that yawing each of the five upstream turbines about 20 degrees to the north would maximize the group's generation from the northwest winds."

Next, since the researchers couldn't reprogram the control systems running at Pincher Creek, they repositioned the direction-tracking wind vanes atop the turbines' nacelles during the 10-day test and thereby tricked the control system to turn 20 degrees off the wind. The results were significant: power generation rose 13 percent under 7-8 meters per second (mps) wind speeds. "Steering had a still greater impact amidst slower northwest winds by reducing the times when the wind hitting turbines fell below the 5 mps -- the threshold at which they automatically shut down," the report adds. "For 5-6 mps winds wake steering boosted generation by up to 47 percent."
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Algorithms Help Turbines Share the Wind

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  • The headline would have been better, "The algorithms that help turbines share the wind."
  • by goombah99 ( 560566 ) on Monday July 01, 2019 @08:03PM (#58858502)

    Getting maximum power is dandy but the more important effect is vibration. If you are sending turbulence down stream or putting uneven loads on the blades you may be vibrating the hell out of this thing leading to shorter lifespan.

    • by Anonymous Coward

      The algorithm's purpose is to steer the turbulent wakes away from other turbines.

      You and the researchers are in agreement.

      Also, turbulence is hard to extract energy from--it's a high entropy zone. Perhaps we ought to be siting windmills and RNGs together.

      • by jbengt ( 874751 )

        Perhaps we ought to be siting windmills and RNGs together.

        Not random enough. The "turbulence" of a wake is chaotic, but not really random.

    • by pz ( 113803 )

      Also, we might reasonably expect that these turbines are designed to fully face the wind, not point slightly askance. That additional side-loading may have an effect on decreased bearing lifetime.

  • That logic has led to the murder of 100s of millions of people.

    You can build collectivism atop respect for the individual, but you cannot build respect for the individual atop collectivism.

    The foundation of Civilization is necessarily and only respect for the individual.

    • That logic has led to the murder of 100s of millions of people.

      Can you give me an example where that is actually the case.

        -

      Cause all I can think of are things like when a democracy ends up replacing dictatorships or monarchies.

  • Very clever (Score:5, Insightful)

    by Jeremi ( 14640 ) on Monday July 01, 2019 @08:16PM (#58858542) Homepage

    A significant efficiency win at approximately zero cost, since it requires only a software upgrade.

    Well done!

    • by jblues ( 1703158 )
      This is currently the last comment in the feed. However it was the first reasonable and worthwhile one! Trolls are noisy today.
  • Spoiler: I am not a wind turbines guru.
    Nonetheless I wonder whether instead of using AI and special algorithms we'd have placed the turbines in a more (humanly) intelligent way.
    I fully understand that the winds can change strength and direction at any time, but I am also sure that turbines are not placed without proper studies and planning.
    Maybe just a little bit more of NI (natural intelligence) can suffice.

    • by Anonymous Coward

      Of course, turbines are placed optimally for the dominant wind direction. However, when the wind comes from a different direction, you may end up with a problem. It is not possible to place them optimally for all wind directions - unless you space them very far apart, which makes cabling much more expensive.

    • by necro81 ( 917438 )
      If you had read the article, you would have spotted the following:

      The plant's turbines are laid out to face Pincher Creek’s strong southeast winds. But during the summer and fall winds can also blow from the northwest, flowing straight down its tightly-packed rows of turbines.

      They did use natural intelligence to lay out the turbines to well capture the prevailing winds. But during some parts of the year that alignment is not great - which the wake-steering algorithm aims to ameliorate. Possibly t

    • by ceoyoyo ( 59147 )

      The wind in southern Alberta is primarily from the W or SW. The wind farms are geometrically optimized for that. When the wind comes from the NW, as discussed in the article, they're not optimized.

  • by Cesare Ferrari ( 667973 ) on Tuesday July 02, 2019 @03:42AM (#58859790) Homepage

    Isn't this basically attempting to resolve issues caused by the grid placement of the turbines. Wouldn't it be simpler to just not install the turbines in a regular pattern, but to randomise the placements? I was kind of expecting the designers to have run fluid dynamic models to choose the placements, but maybe not?

    • Re: (Score:3, Insightful)

      by Anonymous Coward

      Wind direction varies though and the turbines rotate accordingly. The optimal adjustments will depend on the wind direction and therefore needs to be adjustable independent of layout. Obvious case being the downwind turbines on the edge of the grid don't need to sacrifice anything. The grid layout could be the most flexible as a result.

  • "one turbine sacrifices a fifth of its generating potential to enable better performance by neighboring turbines, boosting the group's collective output. And all it takes to harness this altruistic behavior..."

    If MY turbine number 6 allows MY turbines number 1-5 to make more power, 'altruistic' ain't the right word, since it wouldn't do that for my neighbor's turbines.

    I'd call it 'teamwork'.

  • by Shaitan ( 22585 )

    *tips hat to Mr. Nash*

    This ladies and gentlemen is also what has broken in the competition model of capitalism.

In the long run, every program becomes rococco, and then rubble. -- Alan Perlis

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