A study of mixing index and geometric structure for a split and recombine micromixer with dislocation channel

Guo Dong Xia; Hong Jie Wu; Jian Li; Zhen Zhen Cui

A study of mixing index and geometric structure for a split and recombine micromixer with dislocation channel

Guo Dong Xia^*, Hong Jie Wu, Jian Li, Zhen Zhen Cui

^*Corresponding author for this work

Beijing University of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

Based on the principle of asymmetric split and recombine, this paper has adopted a numerical simulation for the optimized micromixer with dislocation sub-channel to get mixing performance and taken the mixing index as a measurement index. The results show that when Re is ranging from 1 to 80, parameters of geometric structure affect the mixing index of the micromixer obviously and the mixing index is improved if the dislocation sub-channel is set in the major channel. Considering the mixing performance and the pressure drop in the sub-channel, the mixing index of asymmetric split and recombine micromixer with dislocation sub-channel can be increased to 86% when the geometric structure parameter of the dislocation sub-channel is w ₃/w ₄=1.

Original language	English
Pages (from-to)	1353-1356
Number of pages	4
Journal	Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics
Volume	33
Issue number	8
Publication status	Published - Aug 2012
Externally published	Yes

Keywords

Asymmetric split and recombine
Dislocation sub-channel
Mixing index
Numerical simulation

Cite this

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abstract = "Based on the principle of asymmetric split and recombine, this paper has adopted a numerical simulation for the optimized micromixer with dislocation sub-channel to get mixing performance and taken the mixing index as a measurement index. The results show that when Re is ranging from 1 to 80, parameters of geometric structure affect the mixing index of the micromixer obviously and the mixing index is improved if the dislocation sub-channel is set in the major channel. Considering the mixing performance and the pressure drop in the sub-channel, the mixing index of asymmetric split and recombine micromixer with dislocation sub-channel can be increased to 86% when the geometric structure parameter of the dislocation sub-channel is w 3/w 4=1.",

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AU - Xia, Guo Dong

AU - Wu, Hong Jie

AU - Li, Jian

AU - Cui, Zhen Zhen

PY - 2012/8

Y1 - 2012/8

N2 - Based on the principle of asymmetric split and recombine, this paper has adopted a numerical simulation for the optimized micromixer with dislocation sub-channel to get mixing performance and taken the mixing index as a measurement index. The results show that when Re is ranging from 1 to 80, parameters of geometric structure affect the mixing index of the micromixer obviously and the mixing index is improved if the dislocation sub-channel is set in the major channel. Considering the mixing performance and the pressure drop in the sub-channel, the mixing index of asymmetric split and recombine micromixer with dislocation sub-channel can be increased to 86% when the geometric structure parameter of the dislocation sub-channel is w 3/w 4=1.

AB - Based on the principle of asymmetric split and recombine, this paper has adopted a numerical simulation for the optimized micromixer with dislocation sub-channel to get mixing performance and taken the mixing index as a measurement index. The results show that when Re is ranging from 1 to 80, parameters of geometric structure affect the mixing index of the micromixer obviously and the mixing index is improved if the dislocation sub-channel is set in the major channel. Considering the mixing performance and the pressure drop in the sub-channel, the mixing index of asymmetric split and recombine micromixer with dislocation sub-channel can be increased to 86% when the geometric structure parameter of the dislocation sub-channel is w 3/w 4=1.

KW - Asymmetric split and recombine

KW - Dislocation sub-channel

KW - Mixing index

KW - Numerical simulation

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JF - Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics

IS - 8

ER -

A study of mixing index and geometric structure for a split and recombine micromixer with dislocation channel

Abstract

Keywords

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