Fountain, G. O. ; Khakhar, D. V. ; Mezic, I. ; Ottino, J. M. (2000) Chaotic mixing in a bounded three-dimensional flow Journal of Fluid Mechanics, 417 . pp. 265-301. ISSN 0022-1120
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Related URL: http://dx.doi.org/10.1017/S002211200000118X
Abstract
Even though the first theoretical example of chaotic advection was a three-dimensional flow (Henon 1966), the number of theoretical studies addressing chaos and mixing in three-dimensional flows is small. One problem is that an experimentally tractable three-dimensional system that allows detailed experimental and computational investigation had not been available. A prototypical, bounded, three-dimensional, moderate-Reynolds-number flow is presented; this system lends itself to detailed experimental observation and allows high-precision computational inspection of geometrical and dynamical effects. The flow structure, captured by means of cuts with a laser sheet (experimental Poincare section), is visualized via continuously injected fluorescent dye streams, and reveals detailed chaotic structures and chains of high-period islands. Numerical experiments are performed and compared with particle image velocimetry (PIV) and flow visualization results. Predictions of existing theories for chaotic advection in three-dimensional volume-preserving flows are tested. The ratio of two frequencies of particle motion - the frequency of motion around the vertical axis and the frequency of recirculation in the plane containing the axis - is identified as the crucial parameter. Using this parameter, the number of islands in the chain can be predicted. The same parameter - using as a base-case the integrable motion - allows the identification of operating conditions where small perturbations lead to nearly complete mixing.
Item Type: | Article |
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Source: | Copyright of this article belongs to Cambridge University Press. |
ID Code: | 17409 |
Deposited On: | 16 Nov 2010 08:34 |
Last Modified: | 17 May 2016 02:03 |
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