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Investigation of the behavior of microscopic bubbles in insulating liquids: transition from the inertial regime to the viscous one

机译：绝缘液体微观气泡行为的研究：从惯性制度到粘稠的液体过渡

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The dynamics of microscopic bubbles have been widely studied in low-viscous insulating liquids. The bubble motion (growth, collapse, rebound, etc.) is governed by inertial forces. In this paper, we analyse the bubble dynamics in viscous liquids (μ  250L?3 mPl), and we observed that the implosion time of the bubble becomes more and more important than that obtained in slightly viscous liquids. We conclude that the effect of viscosity controls the bubble dynamics. Experimentally, we have also observed for the first time the transition of the bubble dynamics from the viscous regime to the inertial one and this transition can be explained by a refined analysis of the Rayleigh-Plesset model of bubble dynamics.

机译：在低粘性绝缘液体中广泛研究了微观气泡的动态。泡沫运动（生长，崩溃，反弹等）受惯性力的管辖。在本文中，我们分析了粘性液体中的气泡动力学（μ≥250L？3MP1），我们观察到气泡的内爆时间比在略微粘稠液体中获得的更重要。我们得出结论，粘度控制泡沫动力学。通过实验，我们还首次观察到第一次将气泡动力学从粘性制度转换到惯性1，并且可以通过对泡沫动力学的Rayleigh-Plesset模型的精致分析来解释。

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《International Conference on Dielectric Liquids》|2002年||共5页
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F. Jomni; F. Aitken; A. Denat;
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专利

1. The Dynamics Of Microscopic Bubbles In Viscous Insulating Liquids [J] . F. Jomni, A. Denat, F. Aitken Journal of Applied Physics . 2009,第5期

机译：粘性绝缘液体中微小气泡的动力学
2. Identification of flow regimes and transition points in a bubble column through analysis of differential pressure signal-Influence of the coalescence behavior of the liquid phase [J] . Bouchaib Gourich, Christophe Vial, Abdel Hafid Essadki, Chemical Engineering and Processing . 2006,第3期

机译：通过分析压差信号识别气泡塔中的流动状态和过渡点-液相合并行为的影响
3. Transition from the Viscous to Inertial Regime in Dense Suspensions [J] . Martin Trulsson, Bruno Andreotti, Philippe Claudin Physical review letters . 2012,第11期

机译：在稠密悬浮液中从粘性状态转变为惯性状态
4. Investigation of the behavior of microscopic bubbles in insulating liquids: transition from the inertial regime to the viscous one [C] . Jomni, F., Aitken, . 2002

机译：绝缘液体中微小气泡行为的研究：从惯性态到粘性态的转变
5. Beams and Bubbles: Interplay Between Elastic, Inertial, Viscous, and Interfacial Mechanics [D] . Oratis, Alexandros. 2021

机译：梁和气泡：弹性，惯性，粘性和界面力学之间的相互作用
6. Universality in the viscous-to-inertial coalescence of liquid droplets [O] . Xi Xia, Chengming He, Peng Zhang 2019

机译：液滴黏性到惯性合并的普遍性
7. Transition from viscous to inertial regime in dense suspensions [O] . Trulsson, Martin, Andreotti, Bruno, Claudin, Philippe 2012

机译：在致密悬浮液中从粘性转变为惯性状态
8. Flow Regime Transitions for Vertical Upward Gas Liquid Flow: A. A Model for Flow Regime Transitions for Vertical Upward Gas Liquid Flow-Effect of Properties and Line Size. B. A Theoretical Approach to the Prediction of Flow Regime Transitions in Unsteady [R] . Dukler, A. E., Taitel, Y. 1977

机译：垂直向上气液流动的流动状态转换：a。垂直向上气液流动的流动状态转换模型 - 性质和线尺寸的影响。 B.非定常流动状态转换预测的理论方法

Investigation of the behavior of microscopic bubbles in insulating liquids: transition from the inertial regime to the viscous one

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