延迟时间对微通道中非牛顿电渗透流动的影响

G. Adamu, A. M. Kwami, M. Abdulhameed, D. G. Yakubu
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引用次数: 3

摘要

本文研究了在Helmholtz-Smoluchowski速度驱动下,非牛顿Oldroyd-B型流体在微通道中滞流时间的影响。用泊松-玻尔兹曼方程描述沿微通道长度方向施加势电场。采用经典的偏微分方程方法对控制模型方程进行解析求解。利用MATHEMATICA软件对解析解进行了仿真,并对各物理流动参数的图形化结果进行了分析。结果表明,粘弹性流体滞延时间越大,流体的粘弹性效应越强,这使得应力响应变形所需的时间越长。此外,微通道的电动力宽度对速度分布的性能也有重要影响。
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Effects of Retardation Time on Non-Newtonian Electro-Osmotic Flow in a Micro-Channel
In this paper, we have studied the effects of retardation time of non-Newtonian Oldroyd-B type fluid driven by Helmholtz-Smoluchowski velocity in a micro-channel. The potential electric field is applied along the length of the micro-channel describing by the Poisson–Boltzmann equation. The governing model equation was solved analytically using the classical method of partial differential equations. Analytical solution was simulated with the help of MATHEMATICA software and the graphical results for various physical flow parameters were analyzed. Results shows that for larger values of retardation time of a viscoelastic fluid the higher the viscoelastic effect of the fluid and this makes it to need more time for the stress to respond to deformation. Also, the electrokinetic width of micro-channel play a vital rule on the performance of velocity distribution.
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