A Numerical Investigation of an Electrostatic-Peristaltic Colloidal Micro Pump

N. Quddus, Subir Bhattacharjee, W. Moussa
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Abstract

An electrostatically driven peristaltic micropump is presented in this paper. A colloidal particle suspended in an electrolyte inside a charged cylindrical capillary will experience an electrical double layer force due to the charged capillary wall. Perturbations in the geometry of the capillary wall result in modification of the electrical force on the particle. If moving these perturbations of the capillary wall along its axis can set up a peristaltic motion of the capillary wall, it will drag the colloidal particle along the capillary. This type of motion can be employed to develop a microfluidic pumping device. This article describes a finite element simulation procedure employed to model such a device.
静电蠕动胶体微泵的数值研究
本文介绍了一种静电驱动的蠕动微泵。悬浮在电解液中的胶体粒子由于毛细管壁带电而受到双层电作用力。毛细管壁几何结构的扰动会导致粒子上电作用力的改变。如果毛细血管壁的这些扰动沿其轴线移动,可以建立毛细血管壁的蠕动运动,它将沿着毛细血管拖动胶体颗粒。这种类型的运动可以用来开发微流体泵送装置。本文描述了一种用于模拟这种装置的有限元模拟程序。
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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