Numerical study of the effect of liquid compressibility on acoustic droplet vaporization |
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Institution: | Department of Mechanical Engineering, Sogang University, Seoul, South Korea |
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Abstract: | In acoustic droplet vaporization (ADV), a cavitated bubble grows and collapses depending on the pressure amplitude of the acoustic pulse. During the bubble collapse, the surrounding liquid is compressed to high pressure, and liquid compressibility can have a significant impact on bubble behavior and ADV threshold. In this work, a one-dimensional numerical model considering liquid compressibility is presented for ADV of a volatile microdroplet, extending our previous Rayleigh-Plesset based model Ultrason. Chem. 71 (2021) 105361]. The numerical results for bubble motion and liquid energy change in ADV show that the liquid compressibility highly inhibits bubble growth during bubble collapse and rebound, especially under high acoustic frequency conditions. The liquid compressibility effect on the ADV threshold is quantified with varying acoustic frequencies and amplitudes. |
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Keywords: | Acoustic droplet vaporization Bubble growth Bubble rebound Liquid compressibility Shock wave Threshold |
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