仿生鱼鳞表面高低速条纹的流场特性和阻力降低性能

IF 1.6 Q4 ENGINEERING, BIOMEDICAL
Dengke Chen, XianXian Cui, Huawei Chen
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引用次数: 0

摘要

提高能源效率和降低成本是工程学领域的一项长期挑战。几个世纪以来,自然生物系统已经进化出独特的功能表面或特殊的生理功能,以适应其复杂的环境。在这些生物奇迹中,鱼类作为最古老的脊椎动物之一,因其卓越的流体动力学能力而备受关注。研究人员正在积极探索鱼皮独特的结构和材料特性在减少阻力方面的潜力。本研究建立了仿生交错鱼鳞模型,并研究了这些仿生表面的流场演变特征和减阻性能。结果表明,仿生鱼鳞表面产生的高低速条纹与流体运动之间存在密切关系。条纹的突出程度随着相邻鱼鳞间距和鱼鳞倾斜角度的增大而增大,条纹的速度振幅随着交错鱼鳞表面暴露长度的增大而减小。此外,仿生交错鱼鳞表面可以减小速度梯度,从而降低壁面剪应力。从鱼皮启发的仿鱼鳞表面获得的启示为深入分析鱼类流体力学提供了宝贵的视角,并为工程应用中的减阻和防污策略提供了新的灵感。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Flow field characteristics and drag reduction performance of high–low velocity stripes on the biomimetic imbricated fish scale surfaces

Flow field characteristics and drag reduction performance of high–low velocity stripes on the biomimetic imbricated fish scale surfaces

Improving energy efficiency and cost reduction is a perennial challenge in engineering. Natural biological systems have evolved unique functional surfaces or special physiological functions over centuries to adapt to their complex environments. Among these biological wonders, fish, one of the oldest vertebrate groups, has garnered significant attention due to its exceptional fluid dynamics capabilities. Researchers are actively exploring the potential of fish skin's distinctive structural and material characteristics in reducing resistance. In this study, models of biomimetic imbricated fish scale are established, and the evolution characteristics of the flow field and drag reduction performance on these bionic surfaces are investigated. The results showed a close relationship between the high–low velocity stripes generated and the fluid motion by the imbricated fish scale surface. The stripes' prominence increases with the spacing of the adjacent scales and tilt angle of the fish scale, and the velocity amplitude of the stripes decreases as the exposed length of the imbricated fish scale surface increases. Moreover, the biomimetic imbricated fish scale surface can decrease the velocity gradient and thereby reduce the wall shear stress. The insights gained from the fish skin-inspired imbricated fish surface provide valuable perspectives for an in-depth analysis of fish hydrodynamics and offer fresh inspiration for drag reduction and antifouling strategies in engineering applications.

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来源期刊
Biosurface and Biotribology
Biosurface and Biotribology Engineering-Mechanical Engineering
CiteScore
1.70
自引率
0.00%
发文量
27
审稿时长
11 weeks
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