纳米线在液体中运动的流体力学特性的数值研究

IF 0.4 Q4 ENGINEERING, MECHANICAL
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引用次数: 0

摘要

在纳米科学和纳米技术的发展中,在液体环境中操纵微(纳米)尺寸的实体是一项具有挑战性但又必不可少的任务。由于微(纳)级物体的尺寸小,其粘性行为主导着其运动。本研究采用计算流体力学(CFD)方法研究了纳米线(NM)绕其长轴和短轴旋转时的水动力效应。比较了几种处理流体中固体运动的数值方法,包括一些CFD方法和有限元分析方法。研究了阻力系数随NW长度、NW直径、平动速度、转速和壁面效应的变化规律。作为模型,研究了尺寸为1-10µm,直径为50 nm-250 nm的纳米线在液体中,速度为0.5-500µm/s。纳米线绕其长轴以ω=0.25π, 0.5π, 1.0π, 2.0π rad/s的角速度旋转,绕其短轴以流体流动允许纳米线的一端绕x和y轴旋转运动。并与已有的分析模型进行了比较。数值计算结果与解析计算结果吻合较好。在封闭边界中重复有限元模型,研究壁面对纳米线在液体环境中运动的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Numerical Study to Investigate the Hydrodynamic Properties of Nanowire Motion in Liquid
Manipulating micro(nano)-sized entities in liquid environment is a challenging yet necessary task in nanoscience and nanotechnology development. Due to the small dimensions, viscous behavior dominates the micro(nano)-sized obejcts motion. In this study, a computational fluid dynamic (CFD) approach has been used to investigate hydrodynamic effects on a nanowire (NM) translating an rotating about its long and short axis. Several numerical methods dealing with solid motion in fluid, including some CFD methods and Finite element analysis (FEA), have been compared. The change in drag coefficient with NW length, NW diameter, translational velocity, rotation speed, and wall effects has been researched. As a model, nanowires with 1-10 µm dimensions and 50 nm-250 nm diameters were investigated in liquid, with velocities of 0.5-500 µm/s. Nanowire is rotated about its long axis with an angular velocity of ω=0.25π, 0.5π, 1.0π, 2.0π rad/s, and about its short axis with a fluid flow allow the rotation of the nanowire whose one end is contsrained to a rotational motion around x and y axis. These models were also compared with the existing analytical models. Good agreement was observed between the numerical results and analytical calculations. The FEA model is also repeated in the closed boundary to investigate the wall effects on the nanowire’s motion in liquid environment.
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来源期刊
International Journal of Multiphysics
International Journal of Multiphysics ENGINEERING, MECHANICAL-
CiteScore
1.20
自引率
57.10%
发文量
21
审稿时长
15 weeks
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