Influence of wettability and surface tension on bubble formation from a needle

IF 1.4 4区工程技术 Q3 ENGINEERING, CHEMICAL

Asia-Pacific Journal of Chemical Engineering Pub Date : 2024-10-23 DOI:10.1002/apj.3169

Meng Jia, Mingjun Pang

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引用次数: 0

Abstract

The multiphase flow accompanied by contact line motion is a common flow phenomenon in nature and industry. When investigating the bubble formation from a needle, it is generally assumed that the contact line is fixed at the inner diameter of a needle. Namely, the influence of contact line motion on bubble formation is ignored. In this paper, the effects of wettability and surface tension on the characteristics of bubble formation were studied using volume of fluid method. The changes of bubble volume, instantaneous contact angle, contact line radius, and the motion mechanism of contact line were analyzed in detail. It is found that when surface wettability and/or surface tension are different, the motion type of contact line during bubble formation is different, and the stage of bubble formation shows a great difference too. The motion of contact line is mainly affected by the pressure inside a bubble, the adhesion force, and the hydrostatic pressure of liquid outside a bubble. The sum of all forces driving contact line to move inward or outward controls the motion type of contact line.

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润湿性和表面张力对针状气泡形成的影响

伴随接触线运动的多相流是自然界和工业中常见的流动现象。在研究针的气泡形成时，一般假定接触线固定在针的内径处。也就是说，接触线运动对气泡形成的影响被忽略了。本文采用流体体积法研究了润湿性和表面张力对气泡形成特性的影响。详细分析了气泡体积、瞬时接触角、接触线半径的变化以及接触线的运动机理。研究发现，当表面润湿性和/或表面张力不同时，气泡形成过程中接触线的运动类型也不同，气泡形成的阶段也有很大差异。接触线的运动主要受气泡内部压力、粘附力和气泡外部液体静水压力的影响。驱动接触线向内或向外运动的所有力的总和控制着接触线的运动类型。

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

Asia-Pacific Journal of Chemical Engineering ENGINEERING, CHEMICAL-

自引率

11.10%

发文量

111

期刊介绍： Asia-Pacific Journal of Chemical Engineering is aimed at capturing current developments and initiatives in chemical engineering related and specialised areas. Publishing six issues each year, the journal showcases innovative technological developments, providing an opportunity for technology transfer and collaboration. Asia-Pacific Journal of Chemical Engineering will focus particular attention on the key areas of: Process Application (separation, polymer, catalysis, nanotechnology, electrochemistry, nuclear technology); Energy and Environmental Technology (materials for energy storage and conversion, coal gasification, gas liquefaction, air pollution control, water treatment, waste utilization and management, nuclear waste remediation); and Biochemical Engineering (including targeted drug delivery applications).