Friam Digest, Vol 43, Issue 6 Formation Flight

> In connections with the comments about FORMATION FLIGHT
>
>
> FORMATION FLIGHT  by PETER LISSAMAN
>
> The formation flight of birds has long been of interest to natural
> scientists.  Leonardo da Vinci discussed this in 1504, as did Lord
> Rayleigh
> in 1889.  The Vee formation produces significant energy saving.  There is
> no debate about this.  It has been established unequivocally
> theoretically,
> measured in flight tests with aircraft, and also, indirectly, in the
> remotely monitored pulse rate of formations of our feathered friends,
> actually Brown Pelicans. The mathematics is complicated.  It relates to
> the
> flows induced by the vortex wake behind a lifting wing.  Outboard of the
> wing a large upwash is induced, proportional to the circulation on the
> wing, and the wing man ("bird"?), if he tucks up tight on the tip, is
> flying in a strong upwash, with big drag savings.  That's all there is to
> it!  But, Ah, the Details!  As Leonardo said "God is in the Details"!   It
> would be boring to go into those mathematics, except to say that the
> procedure is considered well-understood and correct, but a helluva mess!
> The birdies jus' do it, and could care less!
>
> The first paper I know of that treated the topic mathematically (and
> brilliantly) was Wieselsberger in ZFM, 1914; and there has been a fairly
> lively activity since then, as computers have removed the formidable and
> intelligent math required, and made it possible for anyone to get results
> without understanding them.  In 1969 Carl Shollenberger, my valued friend
> and colleague, and I worked on this, and published the results in Science.
> The paper (Lissaman & Shollenberger, Formation Flight of Birds, Science,
> Vol. 168, 1970) shows the very large size of these savings.  We used the
> impressive new IBM 360 computer at Caltech.  It occupied a three storey
> building about the size of a four unit apartment block, and had men's and
> women's toilets inside, as well as 12 real people who punched cards, fed
> data and generally dealt with the I/O.   One picked up outputs at about
> 3:00 am each night.  My wife never really believed that was what kept me
> up, although I did my thesis on mathematics of wing theory some years
> before using that old 360!  And used the same story!   Computation is
> clumsy, but more than Doktor Wieselsberger ever had!  Carl was killed a
> few
> years later, flying in night mountain turbulence over the Sierra Madres.
> It was a great loss to aviation - he was a fine pilot and aerodynamicist.
> I acknowledge his contribution fondly.  He would be glad that his work was
> still used.   Recently I revisited this subject in a paper Simplified
> Analytical methods for Formation Flight (Lissaman, AIAA. Jan. 2005) and
> next week will give a paper  Neutral Energy Cycles for a Vehicle in
> Sinusoidal and Turbulent Vertical Gusts (Lissaman & Patel, AIAA. Jan 2007)
>
> The Science paper shows that in theVee, for tight formations, one can
> almost double the range for a given energy input.  Also that there is a
> stability mechanism, by which a member finds that moving ahead of the line
> of the Vee requires power increases. So there's a comfortable "groove" to
> fall into, which animals love!  One should always be skeptical of
> attributing effects derived from theoretical calculations to animal
> behavior, but the general consensus of ornithologists and aerodynamicists
> is that this Vee formation saving is so significant, and its application
> so
> ubiquitous, that migrating birds DO use it to extend their range.  The
> paper addressed the savings for different positions in the Vee.  In line
> abreast, the center birds experience twice the saving of the tip members,
> but if the tip members find this hard work and fall back to take advantage
> of the increased favorable downstream upwash of the vortex wakes of the
> inner members, then a balancing of savings occurs. We calculated the angle
> of the Vee for equipartition.   It is about the same as is observed with
> migrating birds.  We also showed that it was not necessary have equal legs
> of the Vee.  Provided there are at least about 6 birds on one side of the
> Vee, the other leg can be almost as long as the birds choose to make it.
> Interestingly, for a linear Vee, the wing at the apex of the Vee has the
> maximum saving.  In 1971 I was in communication with ornithologists in
> Florida, who noted that their observations validated our Vee estimates and
> indicated that the apex position was usually taken by the older and more
> powerful birds.  They wondered why the more powerful members of the flight
> should take the easiest jobs!  My answer was that most intelligent species
> are pretty anthropomorphic!
>
> It may be noted that the savings are not related to drafting, that is
> following behind a draggy object to take advantage of its lower dynamic
> pressure wake.  I am very familiar with this, and, as an automobile
> aerodynamicist, have utilized this theory in race car design, and as is
> obvious, the slingshot maneuver is very significant. But not in flight!
> It
> is, in fact, horrible to fly directly astern of another flight vehicle, as
> every pilot knows.  Folks can, and do, get killed tangling with wake
> vortices, as I know to my sadness, when an old friend and experienced Navy
> pilot died as a consequence of following too close on final.
>
> Peter Lissaman,  Da Vinci Ventures
>
> Expertise is not knowing everything, but knowing what to look for.
>
> 1454 Miracerros Loop South, Santa Fe, New Mexico 87505
> TEL: (505) 983-7728                        FAX: (505) 983-1694
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