Simulation and experiment of capillary driven passive planar baffle micro-mixer

机译：毛细管驱动无源平面挡板微混合器的仿真与实验

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In this study, we present a capillary driven and easily fabricated passive planar baffle micro-mixer with a trigger valve. The micro-mixers were fabricated in PMMA sheets (2 mm in thickness) by CO laser ablation and thermal bonding, and the microfluidic experiments were observed and recorded using flow visualization with a CCD. The results show that design of channel height ranges (to 220~400 μm) can be promoted by modifying the staggered baffle structure, and the meander baffle structure mixer performs the best mixing efficiency (94%) because of longest flow time and shortest average diffusion distance (300 μm) in mixing zone.

机译：在这项研究中，我们介绍了一种带有触发阀的毛细管驱动且易于制造的无源平面挡板微混合器。通过CO激光烧蚀和热粘合在PMMA片材（厚度为2mm）中制造微混合器，并且使用与CCD的流量可视化观察并记录微流体实验。结果表明，通过改变交错的挡板结构，可以促进通道高度范围（至220〜400μm），并且由于最长的流量和最短的平均扩散，曲折挡板结构混合器采用最佳混合效率（94％）混合区距离（300μm）。

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《IEEE International Conference on Nano/Micro Engineered and Molecular Systems》|2015年||共4页
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Liang B.T.; Lai C.C.; Chung C.K.;
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Simulation and experiment of capillary driven passive planar baffle micro-mixer

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