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FU Taotao,MA Youguang,ZHU Chunying
Online:
Published:
付涛涛,马友光,朱春英
Abstract:
The mechanisms for bubble and droplet formation in T-shaped microchannels were reviewed. Control parameters for bubble and droplet formation under three various mechanisms,i.e. squeezing mechanism,shearing rupture mechanism and squeezing-shearing rupture mechanism,were discussed. The results showed that the formation of confined bubble(droplet)is attributed to the squeezing mechanism and the bubble(droplet)size is controlled by gas/liquid flow rate ratio. The production of unconfined bubble(droplet)is attributed to the shearing rupture mechanism and is controlled by capillary number. The generation of bubble(droplet)in squeezing-dripping transition regime is attributed to the squeezing-shearing rupture mechanism and is controlled by both capillary number and gas/liquid flow rate ratio. The physical models for three different mechanisms,as well as the influence of viscosity ratio on bubble and droplet formation were introduced.
摘要:
综述了T形微通道内气泡(液滴)的生成机理。讨论了挤压机制、剪切机制以及挤压-剪切共同作用机制下气泡(液滴)生成控制因素,表明挤压机制发生于受限气泡(液滴)的生成,其生成尺寸主要由气液流量控制;剪切机制发生于未受限气泡(液滴)生成,主要由毛细数控制;挤压和剪切共同作用机制发生于挤压-滴状转变区内气泡(液滴)的生成,并由毛细数和流量比共同控制。同时介绍了3种不同机制的物理模型以及黏度比对气泡(液滴)生成的影响。
FU Taotao,MA Youguang,ZHU Chunying. Progress in bubble (droplet) formation mechanism in T-shaped microchannels[J]. .
付涛涛,马友光,朱春英. T形微通道内气泡(液滴)生成机理的研究进展[J]. CIESC Journal.
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https://hgxb.cip.com.cn/EN/Y2011/V30/I11/2357