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Enhanced Microfluidic Mixing via a Tricritical Spiral Vortex Instability

Experimental measurements and numerical simulations are made on fluid flow through cross-slot devices with a range of aspect (depth:width) ratios, 0.4 < alpha < 3.87. For low Reynolds numbers Re, the flow is symmetric and a sharp boundary exists between fluid streams entering the cross-slot from opposite directions. Above an alpha-dependent critical value Re_c, the flow undergoes a symmetry-breaking bifurcation (though remains steady and laminar) and a spiral vortex structure develops about the central axis of the outflow channel. An order parameter characterizing the instability grows according to a sixth-order Landau potential, and shows a progression from second order to first order transitions as alpha increases. A tricritical point occurs for alpha ~ 0.55. The spiral vortex acts as a mixing region in the flow field and this phenomenon can be used to drive enhanced mixing in microfluidic devices.

preprint2015arXivOpen access
Simon J. HawardRobert J. PooleManuel A. AlvesPaulo J. OliveiraNigel GoldenfeldAmy Q. Shen
physics.flu-dyn
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Simon J. HawardRobert J. PooleManuel A. AlvesPaulo J. OliveiraNigel GoldenfeldAmy Q. Shen

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