Numerical Simulation of Droplet Generation in Coaxial Microchannels  

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作  者:Zongjun Yin Rong Su Hui Xu 

机构地区:[1]School of Mechanical Engineering,Anhui Institute of Information Technology,Wuhu,241100,China

出  处:《Fluid Dynamics & Materials Processing》2024年第3期487-504,共18页流体力学与材料加工(英文)

基  金:funded by University Natural Science Research Project of Anhui Province,Grant Numbers (KJ2020A0826,2022AH051885,2022AH051891,2022AH030160,62303231);Intelligent Detection Research Team Funds for the Anhui Institute of Information Technology,Grant Number (AXG2023_kjc_5004).

摘  要:In this study,numerical simulations of the pinching-off phenomena displayed by the dispersed phase in a continuous phase have been conducted using COMSOL Multiphysics(level-set method).Four flow patterns,namely“drop flow”,“jet flow”,“squeeze flow”,and“co-flow”,have been obtained for different flow velocity ratios,channel diameter ratios,density ratios,viscosity ratios,and surface tension.The flow pattern map of two-phase flow in coaxial microchannels has been obtained accordingly,and the associated droplet generation process has been critically discussed considering the related frequency,diameter,and pinch-off length.In particular,it is shown that the larger the flow velocity ratio,the smaller the diameter of generated droplets and the shorter the pinch-off length.The pinch-off length of a droplet is influenced by the channel diameter ratio and density ratio.The changes in viscosity ratio have a negligible influence on the droplet generation pinching frequency.With an increase in surface tension,the frequency of generation and pinch-off length of droplets decrease,but for small surface tension the generation diameter of droplet increases.

关 键 词:Droplet generation characteristics coaxial microchannels flow patterns pinch-off length 

分 类 号:O35[理学—流体力学]

 

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