On the coupling instability of a gas jet impinging on a liquid film

IF 3.6 2区 工程技术 Q1 MECHANICS
David Barreiro-Villaverde, Anne Gosset, Marcos Lema, Miguel A. Mendez
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Abstract

We investigate the dynamics of a gas jet impinging perpendicular to a thin liquid film dragged by a rising vertical substrate. This configuration is relevant to the jet-wiping process in hot-dip galvanization and it is unstable. Previous studies analysed the dynamics of the instability in the case of liquids with low Kapitza numbers (highly viscous liquids), more amenable to experimental and numerical investigations. This work extends the previous investigations by focusing on the wiping at much higher Kapitza numbers, which are more relevant to the galvanizing process. The simulations are carried out by combining volume of fluid and large-eddy simulations, and the dynamics of the gas–liquid interaction is analysed using extended multiscale proper orthogonal decomposition. The simulations allowed for analysing the jet-wiping instability in new flow conditions. Despite the largely different conditions, the results show that the interaction between the gas jet and the liquid film is qualitatively similar, featuring two-dimensional waves in the liquid correlated with oscillations and deflections of the gas jet in all cases. The wave characteristics (e.g. frequency and propagation speed) scale remarkably well using the Shkadov-like scaling based on the liquid, suggesting a dominant role of the liquid film in the coupling, and potentially enabling extrapolation of the results to a broader range of wiping conditions. Finally, we use the numerical results to discuss the limitations of liquid-film models, which constitute currently the only possible approach to study the jet-wiping process in industrial conditions.
关于撞击液膜的气体射流的耦合不稳定性
我们研究了垂直于被上升的垂直基底拖动的薄液膜的气体射流的动力学。这种构造与热镀锌中的喷射擦拭过程有关,而且不稳定。之前的研究分析了 Kapitza 数较低的液体(高粘度液体)的不稳定性动态,更适合进行实验和数值研究。这项工作扩展了之前的研究,重点关注 Kapitza 数高得多的擦拭情况,这与镀锌工艺更为相关。模拟结合了流体体积模拟和大涡流模拟,并使用扩展多尺度适当正交分解分析了气液相互作用的动力学。模拟分析了新流动条件下的喷流擦拭不稳定性。尽管条件大不相同,但结果表明气体射流和液膜之间的相互作用在本质上是相似的,在所有情况下,液体中的二维波与气体射流的振荡和偏转相关。波的特性(如频率和传播速度)使用基于液体的类似于什卡托夫(Shkadov)的缩放比例非常好,这表明液膜在耦合中起着主导作用,并有可能将结果推广到更广泛的擦拭条件中。最后,我们利用数值结果讨论了液膜模型的局限性,该模型是目前研究工业条件下喷射擦拭过程的唯一可行方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
6.50
自引率
27.00%
发文量
945
审稿时长
5.1 months
期刊介绍: Journal of Fluid Mechanics is the leading international journal in the field and is essential reading for all those concerned with developments in fluid mechanics. It publishes authoritative articles covering theoretical, computational and experimental investigations of all aspects of the mechanics of fluids. Each issue contains papers on both the fundamental aspects of fluid mechanics, and their applications to other fields such as aeronautics, astrophysics, biology, chemical and mechanical engineering, hydraulics, meteorology, oceanography, geology, acoustics and combustion.
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