Vortex lift

Image showing formation of vortices behind the leading edge of a delta wing at high angle of attack
A delta winged F-106 military aircraft
A cloud of smoke clearly shows the vortex formed at the end of a typical wing. As this vortex lies beside and behind the wing, it does not contribute to lift. The delta traps this over the rear surface of the wing and uses it for lift.

Vortex lift is a form of lift generated by delta wings operating at high angles of attack.

How it works

Vortex lift works by capturing vortices generated from the sharply swept leading edge of the wing. The vortex, formed roughly parallel to the leading edge of the wing, is trapped by the airflow and remains fixed to the upper surface of the wing. As the air flows around the leading edge, it flows over the trapped vortex and is pulled in and down to generate the lift.

Advantages and disadvantages

The major advantage of vortex lift is that it allows angles of attack that would stall a normal wing. Since it does not require camber to generate lift, but does require significant sweep back, vortex lift is utilized by most supersonic aircraft for landing; the characteristic bending nose of the commercial Concorde was built to allow the pilots to see over the nose during landing, when the aircraft was at a very high angle of attack.

The disadvantage of vortex lift is the drag that it produces. Vortices are a primary cause of drag in most aircraft, and the large vortices generated when using vortex lift cause correspondingly high drag. This high drag can actually be considered advantageous during landing as it aids in slowing down the aircraft.

See also


This article is issued from Wikipedia - version of the 3/23/2013. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.