新型直流电渗微输液泵的设计、仿真与优化

2014 Second RSI/ISM International Conference on Robotics and Mechatronics (ICRoM) Pub Date : 2014-12-18 DOI:10.1109/ICROM.2014.6990978

Firouz Safaifar, Nima Talebzadeh, H. Veladi

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引用次数: 0

摘要

本文介绍了一种新型低电压大流量微流控电渗输液泵的设计、数值模拟与优化。这个微泵配备了四个微电极，嵌入在微通道的弯曲侧面。电极阵列由布置在入口和出口附近的两组微电极组成，其形状为圆形的象限。在微泵内部设置微通道，以提高电渗透力和流量。通过两组仿真，数值分析了内微通道对泵浦效率的影响。首先，内部微通道宽度保持在20 μm，长度在0 ~ 210 μm范围内变化。当微通道长度为40 μm时，最大流速为40.4 μl/min。然后，将内部微通道的长度保持在110 μm，而内部微通道的宽度在12.5 ~ 240 μm之间。当微通道宽度为37.7 μm时，泵浦效率为37 μl/min。

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Design, simulation and optimization of a novel DC electroosmotic micro-infusion pump

This paper illustrates the design, numerical simulation and optimization of a novel microfluidic electroosmotic infusion pump with low voltage requirement and high flow rate. This micropump is equipped with four microelectrodes that are embedded in the curved side surfaces of the microchannel. The electrode array consists of two sets of microelectrodes in the shape of a quadrant of a circle arranged nearby the inlet and outlet. Inner microchannels through the micropump are placed in purpose of electroosmotic force improvement and flow rate increasing. Numerical analysis of inner microchannels effect on pumping efficiency is carried out by means of two sets of simulations. First, the width of the inner microchannels is kept constant at 20 μm while the length is varied within 0-210 μm. The highest achieved flow rate is 40.4 μl/min at 40 μm of inner microchannels length. Next, the length is kept constant at 110 μm whilst the width of the inner microchannels is swept within 12.5-240 μm. The best achieved pumping efficiency is 37 μl/min at 37.7 μm inner microchannels width.

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2014 Second RSI/ISM International Conference on Robotics and Mechatronics (ICRoM)

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