Directional transport behaviour of droplets on the surfaces with asymmetric slanted cone arrays

IF 5.3 Q1 ENGINEERING, MECHANICAL International Journal of Hydromechatronics Pub Date : 2023-01-01 DOI:10.1504/ijhm.2023.134340
Guotao Zhang, Liangliang Ma, Baohong Tong, Fanglin Liang, Xiaoyi Wang, Enzhu Hu, Karl Dearn
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Abstract

For exploring the directional transport behaviour of droplets on micro-structured surfaces, a dynamic model of droplet directional transport on the surfaces with asymmetrically oblique cones is established. The change of the droplet morphology and the flow properties are discussed. Results show that droplet can transport directionally on the surfaces with asymmetrically inclined cones. The transport velocity and morphology is significantly affected by different structural parameters. Under the preferred geometric parameters, the droplet has the maximum transport velocity and has non-splitting and stable forward transport. On both sides of the solid-liquid contact interface, the left vortex and the right vortex push and pull the interface forward respectively. This causes the droplets to flow forward synchronously with the interface. The results reveal the directional transport mechanism of droplets on the inclined cone surface, which provides a theoretical basis for the engineering surface design with fluid transport function.
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液滴在非对称斜锥阵列表面上的定向输运行为
为了研究液滴在微结构表面上的定向输运行为,建立了液滴在非对称斜锥表面上定向输运的动力学模型。讨论了液滴形态和流动特性的变化。结果表明,液滴可以在非对称倾斜锥体表面进行定向输运。不同的结构参数对输运速度和形貌有显著影响。在优选几何参数下,液滴具有最大的输运速度,且具有不分裂和稳定的正向输运。在固液接触界面两侧,左涡旋和右涡旋分别向前推动和拉动界面。这使得液滴与界面同步向前流动。研究结果揭示了液滴在斜锥表面的定向输运机理,为具有流体输运功能的工程表面设计提供了理论依据。
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来源期刊
CiteScore
7.60
自引率
0.00%
发文量
32
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