A numerical and experimental study of acoustic micromixing in 3D microchannels for lab-on-a-chip devices

机译：芯片实验室设备在3D微通道中进行声学微混合的数值和实验研究

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This paper reports a numerical and experimental study of acoustic streaming and micromixing in polydimethylsiloxane microchannels. The mixing between two fluids flowing in microchannels was evaluated through the following conditions: (1) using a 28 μm thick β-poly(vinylidene fluoride) (β-PVDF) as a piezoelectric transducer actuated with a 24 Vpp and 40 MHz sinusoidal voltage; (2) using different flow rates. The results suggest that the mixing length increases as the flow rate increases and that the acoustic streaming phenomenon leads to a reduction on the mixing length. The good qualitative agreement between numerical and experimental results is a valuable indicator to predict the mixing performance of microfluidic devices, for improving biological fluid analysis in diagnosis lab-on-a-chip devices.

机译：本文报道了聚二甲基硅氧烷微通道中声流和微混合的数值和实验研究。通过以下条件评估在微通道中流动的两种流体之间的混合：（1）使用厚度为28μm的β-聚偏二氟乙烯（β-PVDF）作为压电换能器，以24 Vpp和40 MHz的正弦电压驱动; （2）采用不同的流量。结果表明，混合长度随着流量的增加而增加，并且声流现象导致混合长度的减少。数值结果与实验结果之间的良好定性一致性是预测微流控设备混合性能的重要指标，有助于改进诊断芯片实验室设备中的生物流体分析。

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《Annual International Conference of the IEEE Engineering in Medicine and Biology Society》|2016年|5660-5663|共4页
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Susana O. Catarino; Vânia C. Pinto; Paulo J. Sousa; Rui Lima; João M. Miranda; Graça Minas;
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Microchannels; Acoustics; Fluids; Transducers; Mathematical model; Microfluidics; Streaming media;

机译：微通道;声学;流体;换能器;数学模型;微流体;流媒体;

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A numerical and experimental study of acoustic micromixing in 3D microchannels for lab-on-a-chip devices

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