Energy analysis of cavitation bubbles under dual-frequency acoustic excitation

IF 0.6 4区物理与天体物理 Q4 ACOUSTICS

Archives of Acoustics Pub Date : 2023-07-20 DOI:10.24425/aoa.2022.142898

Lv Liang, Hu Kai, Fei Liu, L. Yawei, B. Cui

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引用次数: 1

Abstract

Cavitation has been widely used in wastewater degradation, material synthesis and biomedical ﬁeld under dual-frequency acoustic excitation. The applications of cavitation are closely related to the power (i.e. the rate of internal energy accumulation) during bubble collapse. The Keller–Miksis equation considering liquid viscosity, surface tension and liquid compressibility is used to describe the radial motion of the bubble. The model is built in predicting the power during bubble collapse under dual-frequency acoustic excitation. The inﬂuences of parameters (i.e. phase diﬀerence, frequency diﬀerence, and amplitude ratio) on the power are investigated numerically. With the increase of phase diﬀerence, the power can be ﬂuctuated in a wide range at all conditions. Three typical characteristics of the power appear under the eﬀects of frequency diﬀerence and amplitude ratio. With the increase of amplitude ratio, if the frequency diﬀerence is small, the power has two maximum values; and if the frequency diﬀerence is medium, there is a maximum value. Otherwise, the power monotonously decreases. The results can provide theoretical references for the selections of experimental parameters of sono-luminescence and sonochemistry in the dual-frequency acoustic ﬁeld.

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双频声激励下空化气泡的能量分析

双频声激励下的空化现象在废水降解、材料合成和生物医学等领域得到了广泛的应用。空化的应用与气泡破裂时的功率(即内能积累速率)密切相关。采用考虑液体粘度、表面张力和液体可压缩性的Keller-Miksis方程来描述气泡的径向运动。建立了双频声激励下气泡崩塌功率预测模型。数值研究了各参数(相位差、频差和幅值比)对功率的影响。随着相位差的增大，功率在任何条件下都可以在较大范围内波动。在频率差和幅值比的作用下，功率表现出三个典型的特性。随着幅值比的增大，当频率差较小时，功率有两个最大值;如果频率差为中等，则存在最大值。否则，功率单调减小。研究结果可为双频声场中声发光和声化学实验参数的选择提供理论参考。

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来源期刊

Archives of Acoustics 物理-声学

CiteScore

1.80

自引率

11.10%

发文量

审稿时长

6-12 weeks

期刊介绍： Archives of Acoustics, the peer-reviewed quarterly journal publishes original research papers from all areas of acoustics like: acoustical measurements and instrumentation, acoustics of musics, acousto-optics, architectural, building and environmental acoustics, bioacoustics, electroacoustics, linear and nonlinear acoustics, noise and vibration, physical and chemical effects of sound, physiological acoustics, psychoacoustics, quantum acoustics, speech processing and communication systems, speech production and perception, transducers, ultrasonics, underwater acoustics.