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Unveiling of the mechanisms of acoustic streaming induced by sharp edges

Chuanyu Zhang, Xiaofeng Guo, Laurent Royon, Philippe Brunet

2020Physical review. E55 citationsDOIOpen Access PDF

Abstract

Acoustic waves can generate steady streaming within a fluid owing to the generation of viscous boundary layers near walls of typical thickness δ. In microchannels, the acoustic wavelength λ is adjusted to twice the channel width w to ensure a resonance condition, which implies the use of MHz transducers. Recently, though, intense acoustic streaming was generated by acoustic waves of a few kHz (hence with λ≫w), owing to the presence of sharp-tipped structures of curvature radius at the tip r_{c} smaller than δ. The present study quantitatively investigates this sharp-edge acoustic streaming via the direct resolution of the full Navier-Stokes equation using the finite element method. The influence of δ,r_{c}, and viscosity ν on the acoustic streaming performance is quantified. Our results suggest choices of operating conditions and geometrical parameters, in particular the dimensionless tip radius of curvature r_{c}/δ and the liquid viscosity.

Topics & Concepts

AcousticsComputer sciencePhysicsMicrofluidic and Bio-sensing TechnologiesFlow Measurement and AnalysisElectrical and Bioimpedance Tomography
Unveiling of the mechanisms of acoustic streaming induced by sharp edges | Litcius