微通道截面和外加电场对电渗透迁移率的影响

A. Bhagat, S. Dasgupta, R. Banerjee, I. Papautsky
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引用次数: 3

摘要

本文报道了聚二甲基硅氧烷/玻璃杂化微通道中通道截面和电场对电渗透流动(EOF)迁移率影响的数值和实验研究。用实验结果对求解流体流动的Navier-Stokes方程和求解外电场的泊松方程的仿真模型进行了标定和验证。根据Helmholtz Smoluchowski方程,电渗透迁移率(muEO)与通道截面和外加电场无关。与上述关系相反,本工作的结果表明,muEO不是恒定的,而是随着通道截面和外加电场的变化而变化。这项工作的结果将有助于在给定的外加电场下确定所需电渗透速度的最佳通道尺寸。
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Effects of Microchannel Cross-Section and Applied Electric Field on Electroosmotic Mobility
In this work we report on the numerical and experimental investigation of the effects of channel cross-section and applied electric field on electroosmotic flow (EOF) mobility in polydimethylsiloxane (PDMS)/glass hybrid microchannels. The experimental results are used to calibrate and validate the simulation model to solve the Navier-Stokes equation for fluid flow and Poisson equation to resolve the external electric field. According to the Helmholtz Smoluchowski equation the electroosmotic mobility (muEO) is independent of channel cross-section and applied electric field. Contrary to the above relationship, the results presented in this work indicate that muEO is not constant but changes with channel cross-section as well as the applied electric field. The results of this work will be useful in determining the optimum channel dimensions for a desired electroosmotic velocity at a given applied electric field.
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