GEOMETRY EFFECT ON THE ELECTROKINETIC INSTABILITY OF THE ELECTROOSMOTIC FLOW IN MICROFLUIDIC CHANNELS

机译：几何效应对微流体通道中电渗流电动力学不稳定的影响

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To study the effect of geometry on electroosmotic flow in micro channels, we fabricated PDMS-glass microchannels of different designs, which have patterned channels with abrupt contraction of different sizes. Using fluorescent imaging technology, we demonstrated the effect of geometry on the instability of DC driven electroosmotic flow in microfluidic channels. For certain geometry and conductivity of the electrolyte solution (Sodium Bicarbonate), there is a threshold voltage for electroosmotic instability, exhibiting itself as "ripple". Generally, the factors which affect the threshold voltage include channel width, channel geometry, and electrolyte conductivity. Narrower channel resulted in higher onset voltage. As conductivity of the electrolyte increases, the threshold voltage tends to increase. Early transition to unstable electroosmotic flow in microfluidic channels was observed under relatively low Re.

机译：为了研究几何形状对微通道中电渗流的影响，我们制造了不同设计的PDMS玻璃微通道，这些微通道具有图案化的通道，具有不同大小的突然收缩。使用荧光成像技术，我们证明了几何形状对微流体通道中直流驱动的电渗流的不稳定性的影响。对于电解质溶液（碳酸氢钠）的某些几何形状和电导率，存在电渗不稳定性的阈值电压，表现为“波纹”。通常，影响阈值电压的因素包括沟道宽度，沟道几何形状和电解质电导率。较窄的通道导致较高的起始电压。随着电解质的电导率增加，阈值电压趋于增加。在相对较低的Re下观察到在微流体通道中早期过渡到不稳定的电渗流。

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来源
《Micro/Nanoscale Heat Transfer International Conference 2008》|2008年|P.119-123|共5页
会议地点 Tainan(CN);Tainan(CN)
作者
Yee Cheong Lam; Gongyue Tang; Deguang Yan;
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作者单位

American Society of Mechanical Engineers(ASME);

ASME;

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会议组织
原文格式 PDF
正文语种 eng
中图分类传热学;
关键词
flow instability; electroosmotic flow; geometry effect; low reynolds number;

机译：流动不稳定性；电渗流；几何效应；低雷诺数;

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1. Surface instability of a thin electrolyte film undergoing coupled electroosmotic and electrophoretic flows in a microfluidic channel† [J] . Bahni Ray, Puchalapalli Dinesh Sankar Reddy, Dipankar Bandyopadhyay, ELECTROPHORESIS . 2011,第22期

机译：在微流体通道中经历电渗流和电泳流耦合的电解质薄膜的表面不稳定性†
2. Surface instability of a thin electrolyte film undergoing coupled electroosmotic and electrophoretic flows in a microfluidic channel [J] . RayB., ReddyP.D.S., BandyopadhyayD., Electrophoresis: The Official Journal of the International Electrophoresis Society . 2011,第22期

机译：在微流体通道中经历电渗流和电泳流耦合的电解质薄膜的表面不稳定性
3. Particle handling in straight microfluidic channels via opposing electroosmotic and pressure-driven flows [J] . Kuan-Da Huang, Sheng-Chun Yang, Zhi-Xiong Huang, Microfluidics and nanofluidics . 2008,第2期

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4. GEOMETRY EFFECT ON THE ELECTROKINETIC INSTABILITY OF THE ELECTROOSMOTIC FLOW IN MICROFLUIDIC CHANNELS [C] . Yee Cheong Lam, Gongyue Tang, Deguang Yan Micro/Nanoscale Heat Transfer International Conference . 2008

机译：对微流体通道电渗流的电动不稳定性的几何效应
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GEOMETRY EFFECT ON THE ELECTROKINETIC INSTABILITY OF THE ELECTROOSMOTIC FLOW IN MICROFLUIDIC CHANNELS

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