Archives of Acoustics

Jannesar, Elnaz Attar; Hamzehpour, Hossein

doi:10.24425/aoa.2020.132480

2020

DOI: 10.24425/aoa.2020.132480

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Archives of Acoustics

Elnaz Attar Jannesar

Hossein Hamzehpour

Abstract: Geometry of the fluid container plays a key role in the shape of acoustic streaming patterns. Inadvertent vortices can be troublesome in some cases, but if treated properly, the problem turns into a very useful parameter in acoustic tweezing or micromixing applications. In this paper, the effects of sinusoidal boundaries of a microchannel on acoustic streaming patterns are studied. The results show that while top and bottom sinusoidal walls are vertically actuated at the resonance frequency of basic hypothetic… Show more

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Cited by 2 publications

References 26 publications

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Acoustic interaction force between two particles immersed in a viscoelastic fluid

2023

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The interaction acoustic radiation force in a standing plane wave applied to each small solid sphere in a two-particle system immersed in a viscoelastic fluid is studied in a framework based on perturbation theory. In this work, the first- and second-order perturbation theories are used in the governing equations with considering the upper-convected Maxwell model to obtain mathematical modeling. We use the finite element method to carry out simulations and describe the behavior of the viscoelastic fluid. The mathematical development is validated from three literature case studies: a one-particle system in a viscous fluid, a two-particle system in a viscous fluid, and a one-particle system in a viscoelastic fluid. The novelty of this study is to establish the acoustic interaction force between two spherical particles immersed in a viscoelastic fluid. The results show that the acoustic interaction force between two spheres is greater in a viscous fluid in comparison with the viscoelastic fluid with the same shear viscosity. This behavior is due to the relaxation time effect. It is also indicated that the acoustic interaction force between the particles decreases by the relaxation time and increases by the fluid's viscosity. A mathematical formula is proposed for the acoustic interaction force between particles located close to each other in a viscoelastic fluid.

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Acoustic interaction force between two particles immersed in a viscoelastic fluid

2023

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Unveiling of the mechanisms of acoustic streaming induced by sharp edges

et al. 2020

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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.

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Archives of Acoustics

Cited by 2 publications

References 26 publications

Acoustic interaction force between two particles immersed in a viscoelastic fluid

Acoustic interaction force between two particles immersed in a viscoelastic fluid

Unveiling of the mechanisms of acoustic streaming induced by sharp edges

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