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Uniform resonant chaotic mixing in fluid flows

T. H. Solomon () and Igor Mezić ()
Additional contact information
T. H. Solomon: Bucknell University
Igor Mezić: University of California at Santa Barbara

Nature, 2003, vol. 425, issue 6956, 376-380

Abstract: Abstract Laminar flows can produce particle trajectories that are chaotic1,2, with nearby tracers separating exponentially in time. For time-periodic, two-dimensional flows and steady three-dimensional (3D) flows, enhancements in mixing due to chaotic advection are typically limited by impenetrable transport barriers that form at the boundaries between ordered and chaotic mixing regions. However, for time-dependent 3D flows, it has been proposed theoretically3,4,5 that completely uniform mixing is possible through a resonant mechanism5 called singularity-induced diffusion; this is thought to be the case even if the time-dependent and 3D perturbations are infinitesimally small. It is important to establish the conditions for which uniform mixing is possible and whether or not those conditions are met in flows that typically occur in nature. Here we report experimental and numerical studies of mixing in a laminar vortex flow that is weakly 3D and weakly time-periodic. The system is an oscillating horizontal vortex chain (produced by a magnetohydrodynamic technique) with a weak vertical secondary flow that is forced spontaneously by Ekman pumping—a mechanism common in vortical flows with rigid boundaries, occurring in many geophysical, industrial and biophysical flows. We observe completely uniform mixing, as predicted3,4,5 by singularity-induced diffusion, but only for oscillation periods close to typical circulation times.

Date: 2003
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DOI: 10.1038/nature01993

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