BISLUG FLOW IN CIRCULAR AND SQUARE CROSS-SECTIONAL MICROCHANNELS

机译：圆形和方形截面微通道中的双散流

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Liquid-liquid slug or bislug flow can occur in any cross sectional capillary tube that is wetting and has a low Bond number. When two immiscible fluids are in contact in a capillary tube forming three fluid-fluid interfaces, spontaneous flow may occur due to a pressure imbalance across the menisci. Flow traverses the tube towards the liquid with the higher surface tension. Bislug flow in both prewet and non-prewet channels has been investigated. The bislug velocity in the prewet channels is faster than those in the dry. The velocity increase can be attributed to the decrease in the energy loss associated with the moving contact line. There is a dramatic increase in flow velocity in prewet square channels where the fluid is wicked into the corners. This wicking action decreases the perimeter length of the advancing contact line thereby minimizing energy dissipation.

机译：液-液塞流或二塞流会在任何润湿且键合数低的横截面毛细管中发生。当两种不混溶的流体在形成三个流体-流体界面的毛细管中接触时，由于整个弯液面的压力不平衡，可能会发生自发流动。流体以较高的表面张力使管子流向液体。已经研究了预湿和非预湿通道中的双料流。预湿通道中的双浆速度比干燥通道中的双浆速度快。速度增加可归因于与移动接触线相关的能量损失的减少。在流体被芯吸到角落的预湿方形通道中，流速显着增加。这种芯吸作用减小了前进的接触线的周长，从而使能量消耗最小。

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来源
《International Conference on Nanochannels, Microchannels and Minichannels; 20070618-20; Puebla(MX)》|2007年|P.885-890|共6页
会议地点 Puebla(MX)
作者
Joseph E. Hernandez; B. Justin Scholfield; Jeffrey S. Allen;
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作者单位

Mechanical Engineering - Engineering Mechanics Michigan Technological University 1400 Townsend Drive, Houghton, Michigan, USA 49931;

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原文格式 PDF
正文语种 eng
中图分类特种结构材料;
关键词
Bo: bond number; Ca: capillary number; D_h: hydraulic diameter; g: gravitational acceleration; h_p: film thickness; L_A: length of ethylene glycol slug; L_B: length of silicone oil slug; L_c: capillary length; L~*: ratio of slug lengths; M~*: ratio of vi;

机译：Bo：键数； Ca：毛细管数； D_h：水力直径； g：重力加速度； h_p：膜厚； L_A：乙二醇A的长度； L_B：硅油的长度； L_c：毛细管的长度； L〜*： sl长比; M〜*：vi比;

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BISLUG FLOW IN CIRCULAR AND SQUARE CROSS-SECTIONAL MICROCHANNELS

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