Acoustic force model for the fluid flow under standing waves

Hong Lei; Daniel Henry; Hamda BenHadid

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Acoustic force model for the fluid flow under standing waves

机译：驻波作用下流体流动的声力模型

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An acoustic Strouhal number is introduced to demonstrate that the viscosity of fluid can be ignored in the process of sound propagation and acoustic streaming is independent on the frequency of the acoustic wave. Furthermore, acoustic force based on the periodic velocity fluctuation caused by standing acoustic wave is introduced into Navier-Stokes equation in order to describe the fluid flow in the acoustic boundary layer. The numerical results show that the predicted results are consistent with the analytic solution. And the effect of the nonlinear terms cannot be ignored so the analytic solution derived by boundary-velocity condition is only an approximation for acoustic streaming.

机译：引入了声Strouhal数，以证明在声音传播过程中可以忽略流体的粘度，并且声流与声波的频率无关。此外，将基于声驻波引起的周期性速度波动的声力引入到Navier-Stokes方程中，以描述声边界层中的流体流动。数值结果表明，预测结果与解析解是一致的。非线性项的影响不容忽视，因此边界速度条件得出的解析解仅仅是声流的一种近似。

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来源
《Applied Acoustics》 |2011年第10期|p.754-759|共6页
作者
Hong Lei; Daniel Henry; Hamda BenHadid;
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作者单位

Labomtoire de Mecanique des Fluides et d'Acoustique, UMR CNRS 5509, Ecole Centrale de Lyon/Universite Claude Bernard Lyon 1/Lnsa de Lyon, ECL,36 Avenue Guy de Collongue, 69134 Ecully Cedex, France,Key Laboratory of Electromagnetic Processing of Materials, Ministry of Education, Northeastern University, Shenyang 110819, China;

Labomtoire de Mecanique des Fluides et d'Acoustique, UMR CNRS 5509, Ecole Centrale de Lyon/Universite Claude Bernard Lyon 1/Lnsa de Lyon, ECL,36 Avenue Guy de Collongue, 69134 Ecully Cedex, France;

Labomtoire de Mecanique des Fluides et d'Acoustique, UMR CNRS 5509, Ecole Centrale de Lyon/Universite Claude Bernard Lyon 1/Lnsa de Lyon, ECL,36 Avenue Guy de Collongue, 69134 Ecully Cedex, France;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
acoustic streaming; standing wave; acoustic boundary layer; mathematical model;

机译：声流;驻波;声边界层;数学模型;
入库时间 2022-08-17 13:30:37

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Acoustic force model for the fluid flow under standing waves

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