Numerical simulation of immiscible liquid-liquid flow in microchannels using lattice Boltzmann method 被引量：4

Numerical simulation of immiscible liquid-liquid flow in microchannels using lattice Boltzmann method

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摘要 Immiscible kerosene-water two-phase flows in microchannels connected by a T-junction were numerically studied by a Lattice Boltzmann (LB) method based on field mediators.The two-phase flow lattice Boltzmann model was first validated and improved by several test cases of a still droplet.The five distinct flow regimes of the kerosene-water system,previously identified in the experiments from Zhao et al.,were reproduced.The quantitative and qualitative agreement between the simulations and the experimental data show the effectiveness of the numerical method.The roles of the interfacial tension and contact angle on the flow patterns and shapes of droplets were discussed and highlighted according to the numerical results based on the improved two-phase LB model.This work demonstrated that the developed LBM simulator is a viable tool to study immiscible two-phase flows in microchannels,and such a tool could provide tangible guidance for the design of various microfluidic devices that involve immiscible multi-phase flows. Immiscible kerosene-water two-phase flows in microchannels connected by a T-junction were numerically studied by a Lattice Boltzmann （LB） method based on field mediators. The two-phase flow lattice Boltzmann model was first validated and im- proved by several test cases of a still droplet. The five distinct flow regimes of the kerosene-water system, previously identified in the experiments from Zhao et al., were reproduced. The quantitative and qualitative agreement between the simulations and the experimental data show the effectiveness of the numerical method. The roles of the inter-facial tension and contact angle on the flow patterns and shapes of droplets were discussed and highlighted according to the numerical results based on the im- proved two-phase LB model. This work demonstrated that the developed LBM simulator is a viable tool to study immiscible two-phase flows in microchannels, and such a tool could provide tangible guidance for the design of various microfluidic de- vices that involve immiscible multi-phase flows.

作者 YONG YuMei YANG Chao JIANG Yi JOSHI Ameya SHI YouChun YIN XiaoLong

机构地区 Key Laboratory of Green Process and Engineering Institute of Process Engineering Research Center Petroleum Engineering Department

出处《Science China Chemistry》 SCIE EI CAS 2011年第1期244-256,共13页 中国科学（化学英文版）

基金 supported by Corning Incorporated, the National Natural Science Foundation of China (20990224, 20976177) National Science Fund for Distinguished Young Scholars (21025627) the National Basic Research Program of China (2009CB623406)

关键词 lattice Boltzmann method immiscible two-phase flow numerical simulation MICROCHANNEL kerosene-water system 格子玻尔兹曼方法数值模拟液体流量微通道格子Boltzmann 两相流动 LBM方法数值研究

分类号 O35 [理学—流体力学] U491.112 [理学—力学]

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