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Interpreting the influence of liquid temperature on cavitation collapse intensity through bubble dynamic analysis

Kewen Peng, Frank G.F. Qin, Runhua Jiang, Shimin Kang

2020Ultrasonics Sonochemistry63 citationsDOIOpen Access PDF

Abstract

The violent collapse of inertial bubbles generates high temperature inside and emits strong impulsive pressure. Previous tests on sonoluminescence and cavitation erosion showed that the influence of liquid temperature on these two parameters is different. In this paper, we conducted a bubble dynamic analysis to explore the mechanism of the temperature effect and account for the above difference. The results show that the increase of vapor at higher liquid temperatures changes both the external compression pressure and the internal cushion and is responsible for the variation of bubble collapse intensity. The different trends of the collapsing temperature and emitted sound pressure are caused by the energy distribution during the bubble collapse. Moreover, a series of simulations are conducted to establish the distribution map of the optimum liquid temperature where the collapse intensity is maximized. The relationship between the collapse intensity and the radial dynamics of the bubble is discussed and the reliable indicator is identified. This study provides a clear picture of how the thermodynamic process changes cavitation aggressiveness and enriches the understanding of this complex thermal-hydrodynamic phenomenon.

Topics & Concepts

CavitationBubbleSonoluminescenceIntensity (physics)MechanicsMaterials scienceThermodynamicsRadiant intensityOpticsPhysicsRadiationUltrasound and Cavitation PhenomenaCavitation Phenomena in PumpsUltrasound and Hyperthermia Applications
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