The roles of individual force components on the capture mechanism of bubbles around a vortical flow

IF 4.4 2区工程技术 Q1 ENGINEERING, OCEAN Applied Ocean Research Pub Date : 2024-08-12 DOI:10.1016/j.apor.2024.104154

Tzu-Yao Huang , Artur K. Lidtke , Rens Stigter , Martijn X. van Rijsbergen , Tom J.C. van Terwisga

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Abstract

The mechanism of bubble capture in a vortical flow is investigated using a Lagrangian bubble tracking method. The motion of bubbles and the factors influencing their movement are examined. Detailed analysis is conducted on the roles played by each force component, such as the lift, added mass, and centrifugal forces, in the bubble capture process. An interesting finding is the identification of the stabilizing effect of the azimuthal lift force on the bubble capture mechanism. Furthermore, a model for capture time based on the radial force balance is also developed, and validated with existing experimental data. These findings, including the force mechanism and capture time model, provide a foundation for understanding the bubble capture process and can potentially inform future studies on tip vortex cavitation inception such as determining the cavitation hotspot.

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气泡在涡流周围的捕获机制中各个力的作用

采用拉格朗日气泡跟踪方法研究了涡流中气泡捕获的机理。研究了气泡的运动及其影响因素。详细分析了气泡捕获过程中各个力的作用，如升力、附加质量和离心力。一个有趣的发现是确定了方位角升力对气泡捕获机制的稳定作用。此外，还建立了一个基于径向力平衡的捕获时间模型，并与现有实验数据进行了验证。这些发现，包括力机制和捕获时间模型，为理解气泡捕获过程奠定了基础，并有可能为今后有关尖端涡旋空化萌发的研究（如确定空化热点）提供参考。

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来源期刊

Applied Ocean Research 地学-工程：大洋

CiteScore

8.70

自引率

7.00%

发文量

316

审稿时长

59 days

期刊介绍： The aim of Applied Ocean Research is to encourage the submission of papers that advance the state of knowledge in a range of topics relevant to ocean engineering.