Dynamics of interaction modes in excited annular jets

Evolution of coherent structures and their interaction dynamics are educed in the near field of an acoustically excited basic annular jet using conditional sampling technique based on a multiple triggering criterion to detect the two dominating modes of structure pattern. Acoustic excitation is appl...

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Bibliographic Details
Published in:Experimental thermal and fluid science 1998-08, Vol.17 (4), p.319-338
Main Authors: Ko, N.W.M., Lau, K.K., Lam, K.M.
Format: Article
Language:English
Subjects:
Acoustic wave effects
Boundary layer and shear turbulence
Exact sciences and technology
Excitation
Flow interactions
Flow patterns
Fluid dynamics
Free shear flow
Fundamental areas of phenomenology (including applications)
Interaction
Jets
Pattern selection
pattern formation
Physics
Sampling
Shear flow
Thick shear flows
Turbulent flows, convection, and heat transfer
Vortex shedding
Wakes
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Summary:Evolution of coherent structures and their interaction dynamics are educed in the near field of an acoustically excited basic annular jet using conditional sampling technique based on a multiple triggering criterion to detect the two dominating modes of structure pattern. Acoustic excitation is applied with an aim to better organize the phase alignment of initial rolling and pairing process in the outer shear layer. Negligible modification of the time-averaged flow field results from the excitation. The educed coherent vorticities show that the two modes of evolution are due to the corresponding two modes of shedding pattern of the wake structures from the centerbody, namely the mode one wake and the mode zero wake. In both modes, the shear-layer mode jet vortex rings in the outer layer are perturbed by the shedding of wake structures in the inner region and interaction involving primary merging of three successive jet vortex rings or their partial circumferential sections is found. This results in the formation of wake-induced structures of the corresponding mode pattern, which possesses concentration of coherent vorticity and fluid circulation over a large spatial extent at 1 < x/ D < 2. Secondary interactions, such as vortex tearing, are also observed.
ISSN:0894-1777
1879-2286
DOI:10.1016/S0894-1777(98)10004-3