Anti-shock body is the name given by
Richard T. Whitcomb to a pod positioned on the upper surface of a wing. Its purpose is to reduce
wave drag while travelling at
transonic speeds (
Mach
The Mach number (M or Ma), often only Mach, (; ) is a dimensionless quantity in fluid dynamics representing the ratio of flow velocity past a Boundary (thermodynamic), boundary to the local speed of sound.
It is named after the Austrian physi ...
0.8–1.0), which includes the typical cruising range of conventional
jet airliner
A jet airliner or jetliner is an airliner powered by jet engines (passenger jet aircraft). Airliners usually have twinjet, two or quadjet, four jet engines; trijet, three-engined designs were popular in the 1970s but are less common today. Air ...
s. The Cambridge Aerospace Dictionary defines shock body (also known as Whitcomb body, Küchemann carrot or speed bump) as a streamlined volume added to improve
area rule distribution.
The anti-shock, or shock, body was one of a number of ways of implementing what was then the recently developed area rule. Another was fuselage shaping.
Theory
The theory behind the anti-shock body was independently developed during the early 1950s, by two aerodynamists,
Richard Whitcomb at
NASA
The National Aeronautics and Space Administration (NASA ) is an independent agencies of the United States government, independent agency of the federal government of the United States, US federal government responsible for the United States ...
and
Dietrich Küchemann at the British
Royal Aircraft Establishment.
[Barnard and Philpott 2010, p. 254.] The anti-shock body is closely associated with the
area rule,
a recent innovation of the era to minimise wave drag by having a
cross-sectional area which changes smoothly along the length of the aircraft. The extension beyond the trailing edge was considered secondary to the body on the wing surface, which slowed the supersonic flow to give a weaker shock and acted as a fence to prevent outward flow. The extension was only long enough to prevent flow separation.
Whitcomb stated that the anti-shock body was no longer required on the top surface of a wing when the
supercritical airfoil was introduced because they both decreased the strength of, or eliminated, the shock and its attendant drag.
Applications
Aircraft that have used anti-shock bodies are the
Convair 990 and
Fokker 100 airliners.
[Ed Obert (2009), ''Aerodynamic Design of Transport Aircraft''. . Fig.40.28.]
Küchemann carrots were added to the
Handley Page Victor
The Handley Page Victor was a British jet-powered strategic bomber developed and produced by Handley Page during the Cold War. It was the third and final ''V bomber'' to be operated by the Royal Air Force (RAF), the other two being the Vickers ...
to provide volume for carrying chaff. They did not improve the performance of the aircraft, and when they became redundant for their intended purpose they were left in place to save the cost of removing them.
Several
Tupolev
Tupolev ( rus, Туполев, , ˈtupəlʲɪf), officially United Aircraft Company Tupolev - Public Joint Stock Company, is a Russian aerospace and Arms industry, defence company headquartered in Basmanny District, Moscow.
UAC Tupolev is succes ...
aircraft of the
Soviet Union
The Union of Soviet Socialist Republics. (USSR), commonly known as the Soviet Union, was a List of former transcontinental countries#Since 1700, transcontinental country that spanned much of Eurasia from 1922 until Dissolution of the Soviet ...
utilized Küchemann carrots as gear storage pods, which were mounted mid-wing and extended past the trailing surface. Examples are the
Tu-104,
Tu-134 and
Tu-154 airliners and the
Tu-16 and
Tu-95 bombers.
Boeing tested the effect of adding similar bodies to a wind tunnel model of the Boeing 707. Although the speed beyond which the drag rose abruptly was increased, the additional friction drag on the surface area of the bodies cancelled out any advantage.
Alternative
Modern jet aircraft use supercritical airfoils to minimize drag from shockwaves on the upper surface.
Gallery
File:Convair 990 on ramp EC92-05275-30.jpg, NASA Convair 990 with antishock bodies on the top of the wings
File:Handley Page Victor (16139406372).jpg, Handley Page Victor B2 with Küchemann carrots on wing surface
File:Austrian Arrows Fokker F100 (1) (cropped).jpg, Fokker 100 showing anti-shock bodies
References
Citations
Bibliography
* ap Rees, Elfan. "Handley Page Victor: Part 2". ''Air Pictorial'', June 1972, Vol. 34, No 6., pp. 220–226.
* Barnard, R. H. and D. R. Philpott. ''Aircraft Flight: A Description of the Physical Principles of Aircraft Flight.'' Pearson Education, 2010. .
{{refend
Aerodynamics
Aircraft wing design