关于焦科夫斯基水翼对密闭空间内气泡坍塌动力学影响的理论和实验研究

IF 8.7 1区化学 Q1 ACOUSTICS

Ultrasonics Sonochemistry Pub Date : 2024-11-24 DOI:10.1016/j.ultsonch.2024.107174

Junwei Shen , Hongbo Wang , Cheng Zhang , Yuning Zhang , Yuning Zhang

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引用次数: 0

摘要

本文研究了密闭空间内水翼附近的气泡坍塌动力学。高速摄影实验详细揭示了两块玻璃板（即密闭空间）之间不同水翼附近典型的气泡形态演变，并定量分析了厚度相关参数和凸度相关参数的分区。在保角变换的基础上，利用液体速度场和开尔文冲量定性和定量分析了气泡塌陷特征，包括气泡界面运动、横截面圆度和塌陷射流。主要结论归纳如下。(1) 水翼附近的气泡形态演变可分为五种典型的塌陷形状，其分区范围受厚度相关参数和凸度相关参数的显著影响。(2）与厚度相关的水翼参数与气泡界面运动和横截面圆度呈正相关，而与凸度相关的参数与之呈反相关。(3) 气泡与水翼头尾端点之间的高速区域解释了实验中观察到的气泡界面凹陷现象

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Theoretical and experimental research on the impacts of the Joukowsky hydrofoils on the bubble collapse dynamics within a confined space

The present paper investigates the bubble collapse dynamics near hydrofoils within a confined space. Experiments involving high-speed photography reveal in detail the typical bubble morphological evolution near different hydrofoils between two glass plates (namely the confined space), and the partitioning of the thickness-related and camber-related parameters is analyzed quantitatively. Based on conformal transformation, the liquid velocity field and Kelvin impulse are used to analyze the bubble collapse characteristics qualitatively and quantitatively, including the bubble interface motion, cross-sectional roundness, and collapse jet. The main conclusions are summarized as follows. (1) The bubble morphological evolution near the hydrofoils can be categorized into five typical collapse shapes, and their partition ranges are significantly affected by the thickness-related and camber-related parameters. (2) The thickness-related hydrofoil parameter positively correlated with the bubble interface motion and cross-sectional roundness, while the camber-related parameter is inversely correlated with them. (3) High-velocity regions between the bubble and the hydrofoil head and tail endpoints explain the bubble interface depressions observed in the experiments

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来源期刊

Ultrasonics Sonochemistry 化学-化学综合

CiteScore

15.80

自引率

11.90%

发文量

361

审稿时长

59 days

期刊介绍： Ultrasonics Sonochemistry stands as a premier international journal dedicated to the publication of high-quality research articles primarily focusing on chemical reactions and reactors induced by ultrasonic waves, known as sonochemistry. Beyond chemical reactions, the journal also welcomes contributions related to cavitation-induced events and processing, including sonoluminescence, and the transformation of materials on chemical, physical, and biological levels. Since its inception in 1994, Ultrasonics Sonochemistry has consistently maintained a top ranking in the "Acoustics" category, reflecting its esteemed reputation in the field. The journal publishes exceptional papers covering various areas of ultrasonics and sonochemistry. Its contributions are highly regarded by both academia and industry stakeholders, demonstrating its relevance and impact in advancing research and innovation.