Nonlinear Sciences – Chaotic Dynamics
Scientific paper
2003-12-31
Nonlinear Sciences
Chaotic Dynamics
8 pages,7 figures
Scientific paper
10.1103/PhysRevE.69.066305
Microscopic flows are almost universally linear, laminar and stationary because Reynolds number, $Re$, is usually very small. That impedes mixing in micro-fluidic devices, which sometimes limits their performance. Here we show that truly chaotic flow can be generated in a smooth micro-channel of a uniform width at arbitrarily low $Re$, if a small amount of flexible polymers is added to the working liquid. The chaotic flow regime is characterized by randomly fluctuating three-dimensional velocity field and significant growth of the flow resistance. Although the size of the polymer molecules extended in the flow may become comparable with the micro-channel width, the flow behavior is fully compatible with that in a table-top channel in the regime of elastic turbulence. The chaotic flow leads to quite efficient mixing, which is almost diffusion independent. For macromolecules, mixing time in this microscopic flow can be three to four orders of magnitude shorter than due to molecular diffusion.
Bar-Joseph Israel
Burghelea Teodor
Groisman Alex
Segre Enrico
Steinberg Victor
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