NUMERICAL SIMULATION OF JOULE HEATING EFFECT ON ELECTROOSMOTIC FLOW AND ELECTROKINETIC MASS TRANSPORT IN MICROCHANNELS

机译：焦耳加热对微通道内电渗流和动电质量传输的数值模拟

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This study presents a numerical simulation of Joule heating effect on electroosmotic flow and mass species transport in microchannels, which has direct applications in the capillary electrophoresis based Biochip technology. The proposed model includes the Poisson-Boltzmann equation, the modified Navier-Stokes equations, the conjugate energy equation, and the mass species transport equation. The numerical predictions show that the time development for both the electroosmotic flow field and the Joule heating induced temperature field are less than 1 second. The Joule heating induced temperature field is strongly dependent on channel size, electrolyte concentration, and applied electric field strength. The simulations reveal that the presence of Joule heating can result in significantly different characteristics of the electroosmotic flow and electrokinetic mass transport in microchannels.

机译：这项研究提出了焦耳加热对微通道中电渗流和物质传输的影响的数值模拟，它直接应用于基于毛细管电泳的生物芯片技术。提出的模型包括Poisson-Boltzmann方程，改进的Navier-Stokes方程，共轭能量方程和物质迁移方程。数值预测表明，电渗流场和焦耳热诱导温度场的时间发展都小于1秒。焦耳加热引起的温度场在很大程度上取决于通道尺寸，电解质浓度和施加的电场强度。模拟表明，焦耳加热的存在可导致微通道中电渗流和电动物质传输的特性明显不同。

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来源
《7th Biennial Conference on Engineering Systems Design and Analysis 2004(ESDA 2004) vol.3: Design Engineering; Maintenance Engineering; Manufacturing Engineering; ...》|2004年|P.527-534|共8页
会议地点 Manchester(GB)
作者
Gongyue Tang; Chun Yang; Cheekiong Chai; Haiqing Gong;
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作者单位

School of Mechanical and Production Engineering Nanyang Technological University Republic of Singapore 639798;

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原文格式 PDF
正文语种 eng
中图分类机械设计、计算与制图;
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专利

1. Numerical analysis of the thermal effect on electroosmotic flow and electrokinetic mass transport in microchannels [J] . G.Y.Tang, C.Yang, C.K.Chai, Analytica chimica acta . 2004,第1期

机译：微通道中电渗流和电动传质热效应的数值分析
2. On Electrokinetic Mass Transport in a MicroChannel With Joule Heating Effects [J] . G. Y. Tang, C. Yang, H. Q. Gong, Journal of Heat Transfer . 2005,第6期

机译：具有焦耳热效应的微通道中的电动传质
3. Joule heating effect on electroosmotic flow and mass species transport in a microcapillary [J] . G.Y. Tang, C. Yang, J.C. Chai, International Journal of Heat and Mass Transfer . 2004,第2期

机译：焦耳热对微毛细管中电渗流和物质传输的影响
4. NUMERICAL SIMULATION OF JOULE HEATING EFFECT ON ELECTROOSMOTIC FLOW AND ELECTROKINETIC MASS TRANSPORT IN MICROCHANNELS [C] . Gongyue Tang, Chun Yang, Cheekiong Chai, Biennial Conference on Engineering Systems Design and Analysis . 2004

机译：焦耳加热效应对微通航中电渗流和电动传质的数值模拟
5. Joule heating effects on electrokinetic transport in constriction microchannels. [D] . Sridharan, Sriram. 2011

机译：焦耳热对收缩微通道中的电动传输的影响。
6. Electrokinetically driven continuous-flow enrichment of colloidal particles by Joule heating induced temperature gradient focusing in a convergent-divergent microfluidic structure [O] . Cunlu Zhao, Zhengwei Ge, Yongxin Song, -1

机译：焦耳加热诱导的温度梯度聚焦在会聚-发散微流体结构中的电动驱动的胶体颗粒连续流动富集
7. Numerical simulations for mixed convective hydromagnetic peristaltic flow in a curved channel with joule heating features [O] . Raheel Ahmed, Nasir Ali, Sami Ullah Khan, 2020

机译：焦耳加热特征弯曲通道混合对流氢细蠕动流动的数值模拟

NUMERICAL SIMULATION OF JOULE HEATING EFFECT ON ELECTROOSMOTIC FLOW AND ELECTROKINETIC MASS TRANSPORT IN MICROCHANNELS

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