Jets, wakes and separated flows : proceedings of International Conference on Jets, Wakes and Separated Flows, ICJWSF
Online ISSN : 2424-2888
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ACOUSTIC WAVE GENERATION IN A COMPRESSIBLE WAKE(Wake and Mixing Layer)
Hiroshi MAEKAWATakashi TAKIGUCHIDaisuke WATANABE
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会議録・要旨集 フリー

p. 783-788

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抄録
The compressible Navier-Stokes equations are numerically solved to study acoustic generation mechanism associated with the evolution of the structure in a compressible plane wake undergoing transition to turbulence. High-order compact finite difference schemes are used for spatial derivatives and a 4th order Runge-Kutta scheme is employed for time advancement. Navier-Stokes characteristic boundary conditions are used in the vertical direction and periodic boundary conditions in the stream-wise and spanwise directions. Three-dimensional structures of the wake are studied by means of temporally evolving plane wakes forced with a combination of unstable modes obtained from linear stability theory using a mapped Fourier method for the viscous compressible equations. Forcing with a pair of oblique subharmonic unstable modes yields streamwise/vertical counter- rotating vortices in the saddle region. As the streamwise/vertical vortices evolve outside, their self-induction causes inclined braidlike structures to form in the wake, which are similar to observations in the experimental supersonic flat wake transition. The effect of the oblique subharmonic unstable modes is also to cause the spanwise variations in the core that lead to roller distortion. Acoustic waves of the plane wake are generated when two-dimensional rollup structures appear and rotate in the wake. The near-field sound wave pressure decreases downstream due to the three-dimensional evolution of the wake.
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© 2005 一般社団法人 日本機械学会
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