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An experimental study of non-linear interaction of velocity fluctuations in the transition region of a two-dimensional wake

Published online by Cambridge University Press:  29 March 2006

Hiroshi Sato
Affiliation:
Institute of Space and Aeronautical Science, University of Tokyo, Japan

Abstract

As an extension of our previous work (Sato & Kuriki 1961), an experimental study was made on the laminar-turbulent transition of a two-dimensional wake, with emphasis on the non-linear interaction of velocity fluctuations. In the natural transition, a sinusoidal velocity fluctuation first appears as a result of the selective amplification of irregular disturbances. When the amplitude of the fluctuation becomes large, a non-linear interaction takes place: higher harmonics of the sinusoidal fluctuation and a slow, irregular fluctuation are generated. The transition into turbulence is gradual, and there are no abrupt ‘breakdowns’.

When a sound with two frequencies (f1 and f2) is introduced into the wake, two velocity fluctuations are induced. They are amplified independently when amplitudes are small. If amplitudes exceed certain values, a mutual interaction takes place, and the growth of each component is suppressed by the presence of the other. At the same time, fluctuations with frequencies of f1f2, 2(f1f2) … and f1 + f2, 2(f1 + f2) … are produced. The behaviour of the slow, irregular fluctuation in the natural transition closely resembles that of the f1f2 component. They seem to be produced by the same mechanism.

In the transition region of the wake, a small variation in the amplitude of velocity fluctuation is enhanced by the suppression effect, and a small irregularity in the frequency is amplified by the generation of the f1f2 component. These are two elementary processes of randomization of regular fluctuations, which lead to the development of turbulence.

Type
Research Article
Copyright
© 1970 Cambridge University Press

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