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Morphing Plane Wings for Efficient Flights

Roland Piquepaille writes "Airplanes, whether manned or unmanned, need to travel at various speeds. For example, a surveillance plane needs to fly fast to reach its destination point. Then, it needs to reduce its speed to achieve its surveillance mission. But with its fixed wings, it doesn't offer the same level of efficiency during these two phases. That's why Penn State engineers have devised airplane wings that change shape like a bird and have scales like a fish. Right now, the team has only built a tabletop model. So it will be a long time before you catch a plane and watch the wings disappear by looking through the window. This overview contains more details and references, including a couple of images describing the work done so far."

6 of 202 comments (clear)

  1. Re:Hmm? by twostar · · Score: 5, Insightful

    Actually commercial aircraft have to fly in many different conditions. Flying out of SFO is completely different then flighting out of DEN first in air density and then there are different weather conditions.

    If Boeing or Airbus could offer an aircraft that could take off out of Denver on a hot day with the same payload capabilities as flying out of SFO on a cold day, they would have alot of buyers.

    Once they're at cruising altitude you could change your wing to cruise settings for that maximum distance based on total weight and alter that durring the flight to minimize induced drag.

  2. Re:Closer to a biological system, but not quite by Anonymous Coward · · Score: 5, Insightful

    I cannot think of a single organic substance which doesn't eventually weaken and break. It's called death.

    There's lots of bendy stuff that outlasts anything organic in the world.

  3. Weight/complexity penalty? by plsuh · · Score: 5, Insightful

    One of the reasons that aircraft designers have moved away from swinging variable-geometry wings is the inherent weight and complexity penalty.

    A swing-wing VG aircraft is inevitably heavier than a non-swing-wing aircraft. Gains from the more efficient aerodynamic shape are eaten up by having to support a greater weight of wing structure, which has bad effects on things like power-to-weight ratio and wing loading. On top of that, the greater mechanical complexity leads to a higher maintenance load, usually expressed in Maintenance Man-Hours per Flight Hour (MMHFH).

    This project looks like much of the same. Modern aircraft wings are monocoque, and have very little internal structure (although the space may be filled by other things like fuel tankage). These wings would require a lot of heavy internal structure to accomplish the effect, thus losing the benefits of the more efficient airfoil. Plus, the MMHFH ratio must be pretty awful with hundreds of little actuators.

    On top of that, what are the failure modes? What happens if one of those actuators fails in the middle of a shift? Does the wing rip itself apart?

    Move along folks, nothing to see here.

    --Paul

  4. Huh? by mrsam · · Score: 5, Insightful

    The couple of times I've had a window seat on commercial flights (various Boeing 7x7s, and MD-80s) I distinctly saw movable flaps being used to change the shape of the wing during take-offs and landings.

  5. Storing fuel in the wings? by delibes · · Score: 4, Insightful
    Uhm, I thought planes stored fuel in the wings. So I guess you need some flexible fuel tanks now too? Tell you what, I'll just pour the kerosene into this nice rubber bag and ...

    Also, I would guess these wings aren't going to be very strong. I don't think they will safely be able to transmit the lift that they generate along their length to the body of the aircraft.

    Might work for small UAVs though, since they're smaller, and lighter.

    --
    This is not a sig
  6. Re:Closer to a biological system, but not quite by Gleapsite · · Score: 5, Insightful

    I beleive this is the reason for having the overlapping metal plates or "scales." these would minimize the parts that would be required to move, and thus minimizing a failure. Now, if the wing could be constructed for less that it would cost to repair... Then instead of repairing we'd just replace. Probably for a passenger plan repairing would be a better idea, but for an unmanned spyplane? no need for self repairing abilities... unless of course your making real transformers.

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    face the world with eyes of fire.