Autorotation

In aviation, the word autorotation is applied to operation of fixed-wing aircraft and rotary-wing aircraft. The word has significantly different meanings in each of these two applications.

In the operation of fixed-wing aircraft, autorotation is the name given to the manner in which an aircraft in a stall, or approaching the stall, displays a tendency to roll spontaneously to the right or left. A fixed-wing aircraft in a spin rolls continuously to the right or left, displaying the characteristic known as autorotation.Clancy, L.J., "Aerodynamics", Sections 16.48 and 16.49]

In the operation of helicopters and autogyros, autorotation is the name given to the generation of lift by the main rotor even though no power is being provided to the rotor by an engine. Autogyros have an un-powered main rotor so they rely continuously on autorotation as their source of lift. Following an engine failure, helicopters are able to glide safely to the ground using autorotation.

Fixed-wing aircraft

[


thumb|A_typical_lift coefficient versus angle of attack curve.] When the angle of attack is less than the stalling angle, any increase in angle of attack causes an increase in lift coefficient that causes the wing to rise. As the wing rises the angle of attack decreases, and that tends to restore the wing to its original angle of attack. Conversely, any decrease in angle of attack causes a decrease in lift coefficient that causes the wing to descend. As the wing descends the angle of attack increases, and that tends to restore the wing to its original angle of attack. For this reason, when the angle of attack is less than the stalling angle, the angle of attack is stable. The aircraft displays damping in roll.

When the wing is stalled and the angle of attack is greater than the stalling angle, any increase in angle of attack causes a decrease in lift coefficient that causes the wing to descend. As the wing descends the angle of attack increases, and that causes the lift coefficient to decrease further and the angle of attack to increase even further. Conversely, any decrease in angle of attack causes an increase in lift coefficient that causes the wing to rise. As the wing rises the angle of attack decreases, and that causes the lift coefficient to increase further towards the maximum lift coefficient. For this reason, when the angle of attack is greater than the stalling angle, the angle of attack is unstable. Any disturbance of the angle of attack on one wing will cause the whole wing to roll spontaneously and continuously.

When the angle of attack on the wing of an aircraft, or on one wing, reaches the stalling angle, the aircraft is at risk of autorotation that will eventually develop into a spin if the pilot does not take corrective action.

Autorotation in helicopters

Autorotation is the phenomenon which results in the rotation of and lift generation by a rotorcraft's primary rotor through purely aerodynamic forces, under certain conditions. Autorotation is employed in the normal operation of an autogyro as the primary lifting mechanism, whereas it is used in helicopters only in an emergency mode after failure of the helicopter's powerplant or transmission. The autorotation of maple seeds allow them to disperse further from the tree.

Autorotation is a somewhat complex phenomenon involving the balance of opposing aerodynamic forces along the rotor's blades. Because of the rapidly varying airspeeds, Mach numbers, and angles of attack encountered by the blades as they traverse a full rotation, analysis of the aerodynamics of the rotor presents a difficult problem in fluid dynamics. Generally, however, it is the portion of the blade nearer the hub that provides the aerodynamic force (torque) tending to increase rotational speed, and the portion toward the blade tip that provides the preponderance of the lifting force. The aerodynamic drag produced by this outer blade region opposes the torque from the inner region, and thus the rotor's speed arrives at an equilibrium point at which these torques balance each other. [ [http://www.faa.gov/library/manuals/aircraft/media/faa-h-8083-21.pdf FAA's Rotorcraft Flying Handbook] ] The equilibrium speed depends on a number of factors including the speed of the rotor through the air, the angle between the plane in which the blades move and the incoming air, and the collective pitch setting of the rotor.

In helicopters, autorotation of the main rotor allows a controlled descent to an emergency landing in case of powerplant failure. Proper design of the helicopter is necessary to assure that autorotation can be usefully employed, and skilled changes to the collective and cyclic pitch are necessary during the maneuver to manage the energy of the rotor and the airspeed of the craft. Autorotation depends on the maintenance of air velocity through the rotor, and during an emergency autorotation maneuver this airspeed is provided by the helicopter's descent. In autogyros, airspeed is provided by power from an airplane-type propeller which propels the aircraft horizontally; autorotation is the sole source of rotational power for the main rotor.

Autorotation in kites

# Magnus effect rotating kites that have the rotation axis bluntly normal to the stream direction use autorotation; a net lift is possible that lifts the kite and payload to altitude. The Rotoplane, the UFO rotating kite, and the Skybow rotating ribbon arch kite use the Magnus effect resulting from the autorating wing with rotation axis normal to the stream. [http://www.blueskylark.org/zoo/single/rot/index.html Rotating Kites] ]
# Some kites are equipped with autorotation wings.
# Again, a third kind of autorotation occurs in self-rotating bols, rotating parachutes, or rotating helical objects sometimes used as kite tails or kite-line laundry. This kind of autorotation drives wind and water propeller-type turbines, sometimes used to generate electricity.

See also

*Autorotation (helicopter)
*Kite types

References

* Clancy, L.J. (1975), "Aerodynamics", Pitman Publishing Limited, London. ISBN 0 273 01120 0

Notes


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Look at other dictionaries:

  • Autorotation — ist das nur durch Luftströmung (Fahrtwind) erzeugte freie Rotieren eines Hubschrauberrotors oder Flugkörpers. Beim Rotor eines Drehflügelflugzeugs setzen die Rotorblätter die Energie des Luftstroms dabei in dynamischen Auftrieb um, vergleichbar… …   Deutsch Wikipedia

  • autorotation — ● autorotation nom féminin Mode de fonctionnement d un rotor d hélicoptère dont le système d entraînement mécanique ou par réaction n agit plus …   Encyclopédie Universelle

  • Autorotation — Autorotation,   Selbstdrehung, Luftfahrt: 1) Flugzustand eines Hubschraubers, der bei Triebwerkausfall durch Verstellung der Rotorblätter eingenommen werden kann. Der durch einen Freilauf vom Triebwerk entkuppelte Rotor wird im Sinkflug durch den …   Universal-Lexikon

  • Autorotation — L autorotation est le mouvement de rotation sur lui même qu un mobile subit éventuellement lors de son déplacement dans le fluide : il peut par exemple s agir d une hélice non motorisée, fonctionnant à la manière d une éolienne. Pour les… …   Wikipédia en Français

  • autorotation — i. A condition in which a rotor of a helicopter is driven solely by the action of air ascending through its blades rather than by engine power. In helicopters, descending with the power off, air flows in the reverse direction upward through the… …   Aviation dictionary

  • autorotation — noun Date: 1918 the turning of the rotor of an autogiro or a helicopter with the resulting lift caused solely by the aerodynamic forces induced by motion of the rotor along its flight path • autorotate intransitive verb …   New Collegiate Dictionary

  • autorotation — autorotational, adj. /aw toh roh tay sheuhn/, n. Aeron. the condition of flight occurring when lift is derived solely from the action of air upon the unpowered rotor of a moving helicopter or autogiro. [1915 20; AUTO 1 + ROTATION] * * * …   Universalium

  • autorotation — noun The rotation of the blades of a helicopter driven solely by the action of ascending air …   Wiktionary

  • Autorotation — Au|to|ro|ta|ti|on die; , en <zu ↑auto... u. ↑Rotation, eigtl. »Selbstdrehung«>: a) die auf ↑aerodynamische Kräfte zurückzuführende Drehbewegung des ↑Rotors eines Hubschraubers um seine eigene Achse; b) die bei zu hohem Anstellwinkel… …   Das große Fremdwörterbuch

  • autorotation — noun rotation of an object caused by the flow of moving air or water around it. Derivatives autorotate verb …   English new terms dictionary


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