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Technology

Fanwing Planes? 384

waimate writes "Up until now, there's been fixed wing, or there's been rotating wing, and that's it. But now thanks to Patrick Peebles, there's an entirely new principle of flight called the Fanwing. Initially developed in secrecy and flown only at night, as reported in this Bulletin article this machine combines the many of the attributes of helicopters and conventional aircraft, but not by combining the worst aspects of both like the V-22 Osprey. The FanWing is a whole new way of getting off the ground, particularly suited to inner city applications. It's only downfall (he he) is that it lacks any ability to glide in the event of an engine outage. Includes videos of the prototype in action."
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Fanwing Planes?

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  • by ellisDtrails ( 583304 ) on Wednesday November 20, 2002 @08:57AM (#4714815) Homepage
    Will a dainty girl walking on the beach do the first commerical for this?
  • by Bazman ( 4849 )
    What a bizarre-looking bird. Looks like it can be used to provide aircon in the hangers when its not flying.

    Baz
    • ... link directly to videos on some poor shmuck's site. Surely they'll be able to withstand the onslaught of /.'ers. Oh wait... :P
    • by FFFish ( 7567 ) on Wednesday November 20, 2002 @11:37AM (#4715933) Homepage
      ... he used to mow his lawn with it. Rotary push-mower, I believe it was called.

      There's an amusing but morbid story of how he connected a B&O engine to the mower, and ended up flying over two counties and setting a new altitude record before running out of gas and thereby learning that the thing simply does not and, rather terminally, will not autorotate.

      Ol' Ms. Winslow's petunias were crushed when he hit the ground, and she went rather catatonic for several months, what with having been working on the begonias a few feet away when the old man splattered, but the story goes that they were prize-winners the following year.

      Within my own family, it led to an everlasting fear of lawnmowers. My grannie had her yard turned into a gravel Zen garden, and my father took it even a step further when he married and moved out of the home, choosing to encase the yard in a foot-thick pad of reinforced concrete painted a nasty, hinky green.

      I'm the renegade of the family, though, what with being several generations removed from this early air disaster, and have planted my own yard with low-growing, never-needs-mowing golf green fescue. It doesn't need trimming, and I've every opportunity to practice my putting.

      True story, all of it, I swear.
  • A video? (Score:2, Insightful)

    by DirkDaring ( 91233 )
    Well this site should be /.'d in about 35 seconds for the rest of the day.

    Dirk
  • by ekrout ( 139379 ) on Wednesday November 20, 2002 @09:02AM (#4714838) Journal
    The FanWing is a whole new way of getting off

    Jeeves, buy me a dozen!
  • Flying Cars (Score:5, Funny)

    by Orclover ( 228413 ) on Wednesday November 20, 2002 @09:02AM (#4714842)
    So affordable flying cars by next year then? We are a bit overdue.
    • Re:Flying Cars (Score:5, Insightful)

      by xiaix ( 247688 ) on Wednesday November 20, 2002 @09:17AM (#4714916) Homepage
      I do not want to see flying cars until people learn to drive the ones that don't fly. As dangerous as these "I am the only person on the road" mentality drivers are, imagine them with an "I am the only person in the sky" additiude. Goody, another whole dimension to cut people off in.
      • Oh yeah. Quite nasty! Imagine getting top ended, bottom-swiped... etc. Double parking could become quadruple parking (or even worse!) The horror!
      • Re:Flying Cars (Score:5, Insightful)

        by zbuffered ( 125292 ) on Wednesday November 20, 2002 @09:40AM (#4715053)
        I say make 'em get pilots' licences, or some modified form thereof. That'll cut down on the soccer moms and grandparents and who(m?)ever else causes all the problems on the roads today.
      • Re:Flying Cars (Score:2, Offtopic)

        by Ghengis ( 73865 )
        Driving tests should be harder. There should also be more of a follow-up (re-tests every several years,) and stiffer penalties for violations. Living in Atlanta, where traffic lights are merely a suggestion, is like running a gauntlet daily!!
    • Re:Flying Cars (Score:5, Informative)

      by WolfWithoutAClause ( 162946 ) on Wednesday November 20, 2002 @10:25AM (#4715374) Homepage
      Unlikely. However there's always cartercopters [cartercopters.com] which has demonstrated speeds of 180 mph and should have a top speed of about 450 mph, lands on a dime and can easily autorotate down if the power goes out (unlike a helicopter, where it is a major incident). Significantly it looks much safer than a helicopter, and outperforms helicopters (except a CarterCopter basically lacks hover, since it has an unpowered rotor, but for transportation, who cares?).

      That's the nearest thing to a flying car I know of right now- unlike the other systems, this one seems to have fewer drawbacks.

      • Its called an auto-gyro. Idea's been around for years. I guess Cartercopter sounds better or maybe its just an ego thing. Anyway, its not a bad idea, but not a new one either. The problem is, auto-gyros can't hover, although they have short take-offs and almost vertical landings.

        The great thing about AG's is the simplicity of the drive train. The probem that plagues all choppers is where to put the engine and how to get the power to the rotors. Probably the most common solution is to put the engine on the roof (like most of Bell's [textron.com] line, which minimizes the drive train length, but then, well, you have an engine on the roof, creating a lot of drag and looking stupid. Some put it behind the cabin (a la MD helicopters [mdhelicopters.com] , which is great drag-wise and looks groovy, but then you get a gear box about 4 inches from the back passengers ear plus a long drive shaft from behind the passengers up to the roof. Its nightmarish.

  • Wow... (Score:2, Insightful)

    by Anonymous Coward
    From a military perspective (and it is always about that in aviation), the payload to power ratio is impressive. I can't imagine it is fast though, or very easily maintained, but hey that is what prototypes are for.
    • From a military perspective (and it is always about that in aviation), the payload to power ratio is impressive. I can't imagine it is fast though, or very easily maintained, but hey that is what prototypes are for.

      There are many applications for this innovation for the military. Think Recon/Surv drones. They need no excessive payload as they are filled with electronics and cameras. The payload/power ratio would allow for more fuel as opposed to payload thus allowing longer flight times.

      On a non-military tangent I am interested in its flight ceiling. This could be of use to researchers studing the upper reaches of the atmosphere. With extended flight capabilities and remote operation it could be far more useful than precurring a retrofitted commercial airliner or military aircraft.

      Hate to see this thing flying through a hurricane though...
      • Re:Wow... (Score:4, Insightful)

        by thrillseeker ( 518224 ) on Wednesday November 20, 2002 @10:10AM (#4715278)
        There are many applications for this innovation for the military. Think Recon/Surv drones. They need no excessive payload as they are filled with electronics and cameras. The payload/power ratio would allow for more fuel as opposed to payload thus allowing longer flight times.

        A reconnaissance platform needs survivability. A design such as this does not appear to offer any sort of low-observabilty, or alternatively, high speed for defensive requirements. This particular design could be brought down with the lowest-tech of weaponry. That said, it might serve well as a surveillance platform for peacetime uses, if it had loiter time that made the development effort worthwhile - if such a wing/propeller design could handle heavy weather well, and hold together for long periods of time (you are rotating a large mass at a high speed in this design). A development effort for a large passenger-carrying aircraft such as depicted in the google cache of the photos can be a several hundred million dollar process to meet FAA certification requirements to have people on board.

        Because of the design expense, an aircraft needs to be focused to a particular market segment. However, paraphrasing Bill Lear, who designed the Lear jet, the trick is to discern that market before others. This particular aircraft has a unique wing and lift-engine design, but that doesn't mean at endgame that it'd be a worthwhile development effort, since the technology in use now has made great strides in efficieny and cost. But it's certainly worth studying at a certain level of investment (of time and money), since who knows what will turn out to be the better mousetrap.

        Capitalizing on such technological improvements in design approach, material availability, market desire for a particular platform, etc, is hard work and a lot of luck to make it a cost-effective endeavor considering the (necessary for safety) expense of certification.

        Disclosure: I work in the business - www.avtechgroup.com [avtechgroup.com]

    • From a military perspective (and it is always about that in aviation), the payload to power ratio is impressive. I can't imagine it is fast though, or very easily maintained,

      Easily maintained is likely to be an issue for a military aircraft, speed might not be, depending on the intended application. Wonder what its radar cross section is like though.
  • by HBPiper ( 472715 ) on Wednesday November 20, 2002 @09:04AM (#4714850)
    It is a neat concept and works well on the model. But it just feels like scaling it up to the point where it will lift meaningful weight will prove it to be not efficient.
  • by wiredog ( 43288 ) on Wednesday November 20, 2002 @09:06AM (#4714857) Journal
    Can't autorotate (like a helicopter) either. Ouch.
    • according to the FAQ they are working on this, and seem confident that they'll be able to get it to work well enough for a reasonable emergency landing.
    • by richie2000 ( 159732 ) <rickard.olsson@gmail.com> on Wednesday November 20, 2002 @09:19AM (#4714927) Homepage Journal
      <KARMA WHORE="copy & paste from slashdotted website">

      How does it work? The FanWing has a cross-flow fan at the leading edge. The fan pulls the air in at the front and accelerates it over the trailing edge of the wing. By transferring the work of the engine to the rotor, which spans the whole wing, the FanWing accelerates a large volume of air and achieves a high lift-efficiency.

      We have clear evidence of the success of the design. Video clips of flights are available on this site and successful wind tunnel tests have been conducted at both the University of Rome and at Imperial College, London.

      The wind-tunnel tests have shown that we have an unusually efficient wing. Documented efficiencies for the first prototypes were found to be in the order of 20 grams of lift per watt of input power. This means that with this original concept, even before any real research and development, we were already looking at a lift of 1 -1 ½ tons of weight in the air with 100 hp. And since those early stages there have been demonstrated in the most recent wind tunnel experiments some marked improvements in efficiency, flight speed and autorotation. (emphasis karma whore's)

      The flying prototypes show many actual and predicted strengths:
      • Short take-off and landing capability with clearly predictable vertical-take-off possibilities
      • Reduced sound emission
      • Reduced fuel consumption
      • Simple, inexpensive construction with no high-tech requirements for basic manufacture
      • High manoeuverability
      • Stability in flight - because it's not sensitive to the angle of the incoming air
      • No stall
      • Simple control system

      </KARMA>

    • Cirrus Design SR80 had a complete parachute system for the light aircraft, but that's hardly a scalable approach, and dropping even a small general aviation plane on a parachute over an urban area is distinctly second-best to being able to glide towards some reasonably open space *before* deploying the 'chute.

      (Hm. A quick Google search indicates that Cirrus is actually manufacturing their planes. Good for them, innovation in any field is welcome.)
  • The site's moving slow so I didn't get past the home page at fanwing.com so this is probably answered on the site but what I want to know is what the uses of plane like this would be. The cockpit seems awfully small (again judging only by the image on the home page.)

    Anyone know what the planned uses of this type of plane are?
    • Re:Use (Score:3, Informative)

      There are no manned prototypes as yet, but the article suggests cropdusting, cargo, and people transportation. One of the mentions it has is that a 200hp engine could lift about two tons, albeit at only 100kph.
      • by smagoun ( 546733 ) on Wednesday November 20, 2002 @09:36AM (#4715035) Homepage
        For comparison, the current model of the Cessna 172 (single piston engine 4-place general aviation aircraft) has a 160HP engine with a max takeoff weight of 2450lbs. The max useful load (which includes fuel, I think) is 837lbs. Cruise speed is 122kts, which is about 230kph.

        Does the 2 tons that the fanwing can lift include the weight of the craft, fuel, etc. or is that 2 tons of cargo? The site is down...

  • by jalet ( 36114 ) <alet@librelogiciel.com> on Wednesday November 20, 2002 @09:10AM (#4714878) Homepage
    It seems their web server was in the same building than security.debian.org , because it too doesn't show any sign of life anymore.
  • by GMontag ( 42283 ) <gmontag@guymontag. c o m> on Wednesday November 20, 2002 @09:11AM (#4714885) Homepage Journal
    My Right to autorotate shall not be abridged!

    Otherwise it sounds cool, might get one for my ex-wife ;-)
    • The article says this thing can autorotate, and they're working on improving it(someone else who read the article said this... I can't get to the article).

      As a former rotary wing aviator, can you explain autorotation for us? Also, have you ever been in a situation where that was necessary? And last, how well to helicopters autorotate compared to winged aircraft gliding?

      Thanks

      • by AlecC ( 512609 ) <aleccawley@gmail.com> on Wednesday November 20, 2002 @10:00AM (#4715196)
        I am no pilot, but I can give a view of autorotation. Basically, the rotor can work both ways - rotor turns and drives air, or air running through rotor turns it. So if the engine fails, you declutch the engine and keep the rotor turning as yo descend - fast but not too fast. You use the enerdy of your descent to keep the rotors turning, keeping the rotors on shallow pitch - which also slows your descent. As *just* the right moment, you put the rotors into steep pitch, which rapidly converts the kinetic energy of the rotors into lift - which kills your vertical speed just befor you hit the ground - you hope.

        Autorotaion is *much* hairier than gliding a plane, because you have to time things much more precisely, killing your descent at the right moment. But it is *much* better than the alternative (plummetting).
        • Re:autoratation (Score:5, Informative)

          by GMontag ( 42283 ) <gmontag@guymontag. c o m> on Wednesday November 20, 2002 @10:12AM (#4715292) Homepage Journal
          Very good description. And the way we "de clutch" the engine (in the UH-1Hs that I flew) was a "sprag clutch" that would allow the engine power to go to the transmission system but would disengage if it was not driving the rotor, thus not dragging down the trans/rotor/etc.

          Sorry that I missed answering part of Ender Ryan's question. Yes, I have autorotated meny times, it is something we practiced in flight school and throughout the time I was flying. Since I began flying helicopters and then learned to fly airplanes much later, autorotation seems "normal" to me and gliding an airplane seems "boring". Just a perspective thing.
          • Re:autoratation (Score:5, Insightful)

            by PD ( 9577 ) <slashdotlinux@pdrap.org> on Wednesday November 20, 2002 @11:16AM (#4715729) Homepage Journal
            gliding an airplane seems "boring".

            Just gotta say that in anything that flies, boring is considered a good thing. Excitement can mean something is going very wrong.
            • by srmalloy ( 263556 ) on Wednesday November 20, 2002 @03:00PM (#4717985) Homepage
              Just gotta say that in anything that flies, boring is considered a good thing. Excitement can mean something is going very wrong.

              What most people do not understand about light aircraft is that the propellor does not actually provide any thrust; it is there to cool the pilot. This is easy to prove -- just watch how much the pilot starts to sweat if it stops.
  • > It's only downfall (he he) is that it lacks any ability to glide in the event of an engine outage

    I'm sure they could add some kind of parachute system, like what is being developed for the ISS lifeboat!
    • by SEWilco ( 27983 ) on Wednesday November 20, 2002 @09:29AM (#4714989) Journal
      If you look a little further, you'll find it can autorotate. I only saw a glide ratio of 2:1 to 3:1, although they hope to improve that...but it's better than no gliding.

      Incidentally, where they mention "ballistic recovery system"...that is a parachute. The "ballistic" part refers to a parachute which an explosive launches from a mortar tube, for faster deployment.

      • by smagoun ( 546733 ) on Wednesday November 20, 2002 @10:04AM (#4715227) Homepage
        For comparison, a Cessna 172 has a glide ratio of about 9:1, which means you can cover 9 miles of ground for every mile of altitude. Mooney - whose aircraft are legendary for not wanting to come out of the sky - builds planes with a glide ratio of 10:1 to about 15:1. Sailplanes can have about a 50:1 ratio. Believe it or not, the Boeing 747 has about a 15:1 ratio. The space shuttle has about a 1:1 ratio.

        In sum, with a glide ratio of 2:1 or 3:1, you don't want to lose power in a fanwing. Let's hope they're successful in increasing it.

        • Depends upon the airspeed. If it's still VTOL while gliding it won't really matter.

          i.e. if it gets a 2:1 glide ratio but is still has airspeed less than 60mph when it hits the ground I'd take that any day.

          Who cares if your landing spot has to be within a mile or so if you can land on a side street or in a Walmart parking lot?

  • by Anonymous Coward
    So that's how those things in Dune get invented. I guess we'll have to beware of the Harkonnen

    (Been a while since I read Dune, so don't whine about the spelling).
  • Paddleboat? (Score:5, Funny)

    by VTg33k ( 605268 ) on Wednesday November 20, 2002 @09:14AM (#4714895)
    Ha, it looks like someone took one of those Mississippi River paddleboat steamers and built an airplane around it...
  • by richie2000 ( 159732 ) <rickard.olsson@gmail.com> on Wednesday November 20, 2002 @09:14AM (#4714900) Homepage Journal
    Flettner's brief brush with fame came back in the twenties when he figured out how to get lift from a rotating cylinder [howstuffworks.com]. He also built a ship which used rotating cylinders to provide thrust [nasa.gov].

    Now, the scary part is that I wrote a report on this maniac/genius back in high school and I remembered his name so I could google for it...

    • by micromoog ( 206608 ) on Wednesday November 20, 2002 @09:53AM (#4715147)
      ...lift from a rotating cylinder...

      This effect is easy to see yourself:

      1. Take a cheap ballpoint pen (the kind that's just a light white uniform plastic cylinder with plugs at each end for the pen part and end part).
      2. Take it apart, so you're just left with the empty cylinder.
      3. Place the cylinder on a table, and press down on it hard with 8 fingers.
      4. Allow the cylinder to slip out from under your fingers, away from you. If it's done right, it will be moving away from you, but with a very fast rotational motion towards you. The rotation will cause it to lift and float gently across a room.
  • nope! (Score:4, Insightful)

    by e8johan ( 605347 ) on Wednesday November 20, 2002 @09:17AM (#4714917) Homepage Journal

    "...particularly suited to inner city applications ... it lacks any ability to glide in the event of an engine outage"

    No way, bad idea! I've seen more people that I need to running out of gas to recognize this as a *bad* idea. The ability to glide is *important* and very useful when things seriously seizes to function

    • Parachutes possible (Score:4, Interesting)

      by Outland Traveller ( 12138 ) on Wednesday November 20, 2002 @09:22AM (#4714949)
      I seem to remember a report of the first successful real-world use of a emergency parachute for light aircraft. A cessna-like plane had its engines cut own and the pilot was able to parachute his entire plane to safety.

      Perhaps that is a valid solution for this fanwing bird.
      • by tramm ( 16077 )
        Outland Traveller wrote:
        I seem to remember a report of the first successful real-world use of a emergency parachute for light aircraft. A cessna-like plane had its engines cut own and the pilot was able to parachute his entire plane to safety.
        It wasn't the first successful use, BRS claims over 100 saves [airplaneparachutes.com]. It wasn't a Cessna [cessna.com], it was a Cirrus SR-22 [cirrusdesign.com]. And the engine didn't die, the left aileron fell off. [avweb.com]
    • Re:nope! (Score:2, Interesting)

      by terraformer ( 617565 )
      It's /.'d already so I have no idea what the application for this plane is but I suspect military based on the secrecy of the project. That said, most new govt built planes have a few shared characteristics. The most relevant here is they are fly by wire since they posses the aerodynamics of rocks. The F177a stealth F/B is a great example of a plane that could not fly without the intervention of a computer to make thousands of adjustments a second. In this case the design was for the stealth capabilities but also the F16/18's are not terribly aerodynamic either and have low wing thickness. As a result of these aerodynamic features the stall speed is very high and requires thrust in most circumstances. I do not pretend to understand this fully but apparently these aerodynamic "features" (in this case not a codeword for bug...) allow for amazing manuevuers such as the Mig29's 45 angle of attack. see here [aeronautics.ru] and here [alphalink.com.au] and it's ability to do a tail-slide (when the nose is actually behind the tail while the plane is moving forward or graphically like this \ moving > slightly) This was performed at a show in 1998 (see here [codeonemagazine.com])
  • by leehwtsohg ( 618675 ) on Wednesday November 20, 2002 @09:19AM (#4714933)
  • by Anonymous Coward
    I managed to grab a couple videos from the (lagging from the start) site before the webserver came to a grinding halt. The R/C models fly nicely, they have impressive stability, especially at low speeds (in fact, it looks like speed matters less than with traditional wings).
    They make buzzing noises, a tad like mosquitoes.

    From the article title, I thought this was about the "rotating fans" lifting-body aircraft I had read about a few years ago in specialized press... At least the one in this article does not look like a UFO. [rexresearch.com]
  • by Hairy_Potter ( 219096 ) on Wednesday November 20, 2002 @09:20AM (#4714942) Homepage
    So the Fanwing is especially suited for inner city applications? I'm guessing it's all chromed up and has a CD player that goes boom boom boom boom da boom.
  • i.e. it has propellers on the wings, just like the pinion feathers on the wings of a bird. It fles like a bird, therefore.

    Does that not make it an ornithopter? Do the wings flap? I can't tell from the bullettin article.

    The more detailed page is slashdotted, I only read the article, so it is very posible I'm missing something.
    • Ornothopters flap (Score:4, Informative)

      by FreeUser ( 11483 ) on Wednesday November 20, 2002 @09:56AM (#4715172)
      i.e. it has propellers on the wings, just like the pinion feathers on the wings of a bird. It fles like a bird, therefore.

      Does that not make it an ornithopter? Do the wings flap?


      Ornithopter wings flap. The fan wing does not flap, so it is in no way an ornithopter (nor does it resemble one). It is a fixed wing with a horizontal rotor inside which pulls air across the lifting surface and creates a vortex which lifts the plane. Think of a big combine built into the wing, spinning quickly, and you get a rough idea. The videos are pretty cool ... the full flight one shows the plane stopping and hovering a couple of times ... one of the nice features of having no stall that my plane, alas, cannot emulate.

      It isn't a new "principle" of aviation by any means, but it is a new and very promising design. Unfortunately the patent will probably limit design improvements by anyone other than the original inventor for the next twenty years or so, but there will be some innovative uses and improvements despite that, and in twenty years, once the patent expires, there will doubtless by quite a hayday of new designs.
  • Too Light? (Score:2, Insightful)

    by BoBaBrain ( 215786 )
    There's an entirely new principle of flight called the Fanwing

    It sure is a radical design [virtualflybox.com], but I can't imagine it could carry much of a payload.
  • Model plane manufacturers had almost perfect replicas of the stealth fighters years before they were officially announced to the public.

    Same for the SR-71, and many others over the years. These guys have really good contacts inside the military and/or contractors.

    Of course I'm sure thats all illegal now and will get you permanently detained and/or dissappeared here in the US.
  • Mirror with picture (Score:5, Informative)

    by infolib ( 618234 ) on Wednesday November 20, 2002 @09:26AM (#4714974)
  • by handorf ( 29768 ) on Wednesday November 20, 2002 @09:31AM (#4714995)
    Because it's an easy target, I guess. Big money, ambitious project, several setbacks, no supporters anymore. It just happens to be the perfect tool for what it needs to do... that's all.

    Give designers a contradictory set of specs (long range/endurance, high speed, VTOL, high capacity) and you get a vehicle that's a bit odd and a bit difficult to build and maintain.

    OTOH, I'd trust my life to an osprey ANY DAY over something that can't glide when the engines quit.
  • by Beautyon ( 214567 ) on Wednesday November 20, 2002 @09:31AM (#4714997) Homepage
    This is not an entirely new principle, its more like a linear ducted fan [kyosho.com]. or a Stretched turbine [ccrh.org]

    A new principle would exclude fanning, flapping or any kind of turning of wheels (circular motion) to create thrust. This is a beautiful project, but it is really a derivative of Leonardos helicopter, which was an Archimedes screw for air.

    When there is propulsion generated without circular motion (props, turbines, ducted fans), or without shooting something out of a tube like rocketry, then we will be talking about something that is really new.
    • From the bits of the website I've been able to see, it's not much at all like the Kyosho DF (I had the electric F-16 and the glow-powered F-86). Kyosho uses the fan to produce thrust, lift is generated by the wings.

      The Fanwing is producing both lift and thrust from the same device.
    • by Bazzargh ( 39195 ) on Wednesday November 20, 2002 @10:04AM (#4715228)
      Its the *lift* that is being generated that is interesting, not the forward thrust. In the ducted fan you point to for example, lift is generated by the wing shape. In the fanwing, its from the rotation of the fan (the Magnus effect).

      Note that in airscrews and turbines, thrust is generated in the direction of the axis of rotation. In the fanwing, both thrust and lift are perpendicular to the axis of rotation.
  • you missed one (Score:2, Informative)

    by nikko ( 158280 )
    >waimate writes "Up until now, there's been fixed >wing, or there's been rotating wing, and that's it.

    What about ornithopters? None are in production, but several are in development, as has been reported on /.
  • Come on, there's no need for a direct link from the articel to the videos hosted on fanwing.com [fanwing.com]. Perhaps I *too* could have a look at the pictures if the server wasn't slashdotted because everybody's trying to download the videos ...
  • I couldn't see a picture of it since the site is slashdotted, but the description reminds me of on of Tom Swifts' (Tom Swift Jr) - his Ultrasonic Cycloplane! [tripod.com]


    -asb

  • How It Works (Score:5, Informative)

    by SEWilco ( 27983 ) on Wednesday November 20, 2002 @09:41AM (#4715068) Journal
    The Slashdot article provides no hint of how it works, and now it's hard to reach the swarmed fanwing.com site.

    It's a squirrel-cage fan along the leading edge of a wing.

    The fan throws air over the top of the wing, rather than the air passively flowing over the leading edge. This produces much more lift at slow speeds.

    Apparently it operates at slow speeds (100 kph, about 60 mph, is mentioned). I expect that at high speeds, when the forward motion exceeds the speed of the fan rotation, the fanwing behaves like a wing with ridges along the leading edge -- but air can leak through these ridges. A fanwing which starts moving too fast probably begins to lose lift from the leading edge, although it might gain some lift from the rest of the wing. But if a fanwing does not have thrust engines and only gets its forward motion from the fanwing, it can't move faster than the fanwing can push it.

  • by jellomizer ( 103300 ) on Wednesday November 20, 2002 @09:42AM (#4715073)
    Looking at the model and if it is intended for common man use. I can see Cats finding there ways into this and perhaps little adventrous kids getting into the wings (A great place to hide). And the wings seem to be placed rather high so it it tough for an adult to look into these. And the sound this would be made if it was parked under an oak tree.
  • by Anonymous Coward on Wednesday November 20, 2002 @09:45AM (#4715090)
    Entirely new? I think not - especially given that the date on the main page says the site was last updated in early 2001(!). Additionally, Radio Control Modeler (RCM) and Model Airplane News (MAN), arguably the two most popular magazines covering model aircraft of all types, had an article about this back in 1999.....
  • by bluesnowmonkey ( 148168 ) on Wednesday November 20, 2002 @09:53AM (#4715156)
    "He's developed a batch of inventions - an electric fork for twirling spaghetti,..."

    I think that's sort of a "Hello World" for inventors.
  • The Fairey Rotodyne (Score:4, Interesting)

    by XNormal ( 8617 ) on Wednesday November 20, 2002 @10:14AM (#4715308) Homepage
    Another aircraft that combined many of the advantages of helicopters and airplanes was the Fairey Rotodyne. It was an autogyro that converted temporarily to helicopter mode for vertical takeoff and landing.

    This was back in the 1950s.

    An autogyro generates lift using an unpowered rotor that rotates in the airstream. It is probably the safest type of aircraft because it can land by autorotation. Some helicopters can also do that but they are much more difficult to control. An autogyro can fly faster than a helicopter, though not as fast as an airplane. Autogyros are also more fuel-efficient than helicopters.

    The big drawback of autogyros is that they can't take off and land vertically. They need a short runway.

    The Rotodyne overcame this limitation by using small jets at the tips of the rotor blades that converted it to a helicopter for the duration of
    the takeoff and landing.

    See this page [internetage.com.au] if you want to know more about the history of the Rotodyne and why we don't have regular Rotodyne passenger flights between city hubs today.
    • Gyroplane (Score:4, Informative)

      by MacAndrew ( 463832 ) on Wednesday November 20, 2002 @11:21AM (#4715766) Homepage
      ...as I think they were called in the states ... my airman's exam included a few ancient questions about them, though to my knowledge they are essentially extinct. A helicopter pilot I quered described them as you do -- combining features of a fixed-wing and helicopter -- but as he put it, the gyroplane adopted all the worst aspects of each.

      Most regular helicopters can land quite well by autorotation, in fact emergency autorotation is 75% of helicopter flight training if one already knows how to fly. Autorotating is basically diving to build up momentum in the rotor after a power failure, then increasing the pitch of the blades to slow descent into, one hopes, a half-decent landing. I tried this once with an instructor in a doorless Robinson, and as a fixed-wing pilot I admit it scared the heck out of me. :)

      I glimpsed a gyroplane in flight for the first time the other night watching the classic It Happened One Night [netflix.com] (1934; Clark Gable and Claudette Colbert). Highly recommended -- the movie, not the flying contraption. :)
  • by Etrigan_696 ( 192479 ) on Wednesday November 20, 2002 @10:22AM (#4715361)
    ****Warning****
    I am not responsible for any severed arteries, eyes gouged out, or for you getting fired for doing this at work. It's all you baby!

    1) Get the materials.
    Go get one of those plastic Bic ball point pens. The kind with the white tube. Then get a pair of scissors, a pocket knife, or a pair of needle nose pliers.

    2) Remove cap from pen. Remove the black plastic cone from the "writing" end of the pen. This also pulls out the ink tube.

    3) You now have a white plastic tube with a little black cap in the end. Get that cap out. Use the pocket knife, scissors, or the pliers to get the thing out. If you destroy the end of the white plastic tube, just cut it off clean again.

    4)Now you have just a white plastic tube. Wee! This is your fanwing plane. You're about to make it fly using the same principle.

    5) Clean off a table so there's nothing on top. Face one side of it. Put the pen tube near and parallel to the edge. Lock your thumbs under the edge of the table and place all 8 fingertips on the white tube.

    6) Pressing down as hard as you can, roll your fingers back towards you.

    7) If all goes well, the tube will spin very fast and fly through the air, doing loops and such.

    I've actually got the things to fly twenty yards. And the do all kinds of twists and loops.

    The principle that keeps the fanwing plane in the article in the air works here too - only with no control or stability.

    Enjoy, and don't get in trouble.
  • by paiute ( 550198 ) on Wednesday November 20, 2002 @10:34AM (#4715432)
    I was downtown, tooling along the sidewalk on my Segway, when this moron in a Fanwing who was trying to read email on his simputer crashed into me.
  • Glide ability (Score:3, Interesting)

    by phorm ( 591458 ) on Wednesday November 20, 2002 @11:26AM (#4715820) Journal
    It's only downfall (he he) is that it lacks any ability to glide in the event of an engine outage

    Last time I checked, helicopters didn't tend to glide all that well either (sometimes akin to rocks). I'm guessing that something more planelike would also do easier in the "ejection" or other escape issues in case of a breakdown.

    If it's cheap or fast, probably a good method for low-capicity aircraft. From the working models, the plane seems to be mostly (a huge) tail anyhow, so probably not a lot of passenger capacity - although the theoretical pictures show it as a normal plane with fan-wings.
    • Re:Glide ability (Score:4, Informative)

      by Doppleganger ( 66109 ) on Wednesday November 20, 2002 @12:00PM (#4716136) Journal
      Last time I checked, helicopters didn't tend to glide all that well either (sometimes akin to rocks).

      A lot of helicopters have the ability to decouple the blades from the engine in the case of an engine failure, alowing a much more controlled landing than would be possible if the blades simply stopped. The momentum of the blades allows the helicopter to stay in the air a lot longer, in a sort of glide. You're more committed to an immediate landing than in some planes, but it's still a lot better than simply plummeting to the ground...
    • Autorotation (Score:3, Informative)

      by EnglishTim ( 9662 )
      Most helicopters can disconnect a stopped engine from the blades, allowing them to keep spinning. The pilot then allows the vehicle to fall/glide down until he is quite close to the ground. Then by suddenly increasing the collective pitch he is able to convert the stored rotational energy of the rotors into lift, slowing the vehicle dramatically and achieving (hopefully) a soft landing.

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