方形玻璃微通道中水-硅油两相流流体动力学

ASME 2018 16th International Conference on Nanochannels, Microchannels, and Minichannels Pub Date : 2018-06-10 DOI:10.1115/ICNMM2018-7661

Zan Wu, A. Svensson, J. Qian, B. Sundén

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引用次数: 0

摘要

本研究可视化了水-硅油两相流在进口交叉交界处和主方形微通道宽度为400 μm处的流动模式。在入口连接处可以识别出油管/穿线、滴流和喷射，而在连接处下游50 mm处的主微通道中可以识别出环空、段塞流和液滴流。流型用表面速度和无因次数表示。与水-硅油流动相比，在水中添加表面活性剂十二烷基硫酸钠(SDS)，当SDS浓度为1000 ppm时，会使入口连接处的滴流变窄、喷射变宽，同时使主微通道的段塞流变窄、液滴流变宽。由于SDS的加入，动态界面张力的降低被认为是这种流动模式改变的原因。此外，对于段塞流，段塞长度可以按流量比与有机相毛细数的幂律进行缩放。在添加和不添加SDS的情况下，段塞速度与体平均速度呈线性关系。

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Water-Silicone Oil Two-Phase Flow Hydrodynamics in a Square Glass Microchannel

This work visualized water-silicone oil two-phase flow patterns both at the inlet cross-junction and in the main square microchannel with a channel width of 400 μm. Tubing/threading, dripping and jetting were identified at the inlet junction while annular, slug and droplet flows were categorized in the main microchannel at 50 mm downstream of the junction. Flow patterns were represented in terms of superficial velocities and dimensionless numbers. Compared to water-silicone oil flow, addition of surfactant sodium dodecyl sulfate (SDS) in water, with a dilute SDS concentration of 1000 ppm, narrows the dripping regime and widens the jetting regime at the inlet junction, while narrows the slug flow regime and widens the droplet flow regime in the main microchannel. A decrease in dynamic interfacial tension due to SDS addition is supposed to be the reason for such a flow pattern modification. Besides, for slug flow, the slug length can be scaled as a power law of the flow rate ratio and the Capillary number of the organic phase. The slug velocity is linearly dependent on the bulk average velocity for both cases with and without SDS addition.

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ASME 2018 16th International Conference on Nanochannels, Microchannels, and Minichannels

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