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Accurate level set method for simulations of liquid atomization 被引量:4

气液界面捕获的精确水平集方法:液体雾化(英文)
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摘要 Computational fluid dynamics is an efficient numerical approach for spray atomization study, but it is challenging to accurately capture the gas-liquid interface. In this work, an accurate conservative level set method is intro- duced to accurately track the gas-liquid interfaces in liquid atomization. To validate the capability of this method, binary drop collision and drop impacting on liquid film are investigated. The results are in good agreement with experiment observations. In addition, primary atomization (swirling sheet atomization) is studied using this method. To the swirling sheet atomization, it is found that Rayleigh-Taylor instability in the azimuthal direction causes the primary breakup of liquid sheet and complex vortex structures are clustered around the rim of the liq- uid sheet. The effects of central gas velocity and liquid-gas density ratio on atomization are also investigated. This work lays a solid foundation for further studvin~ the mechanism of s^rav atomization. Computational fluid dynamics is an efficient numerical approach for spray atomization study,but it is challenging to accurately capture the gas–liquid interface.In this work,an accurate conservative level set method is introduced to accurately track the gas–liquid interfaces in liquid atomization.To validate the capability of this method,binary drop collision and drop impacting on liquid film are investigated.The results are in good agreement with experiment observations.In addition,primary atomization(swirling sheet atomization)is studied using this method.To the swirling sheet atomization,it is found that Rayleigh–Taylor instability in the azimuthal direction causes the primary breakup of liquid sheet and complex vortex structures are clustered around the rim of the liquid sheet.The effects of central gas velocity and liquid–gas density ratio on atomization are also investigated.This work lays a solid foundation for further studying the mechanism of spray atomization.
出处 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2015年第4期597-604,共8页 中国化学工程学报(英文版)
基金 the National Natural Science Foundation of China(51176170,51276163) the Zhejiang Provincial Natural Science Foundation for Distinguished Young Scholars(LR12E06001) supported by the Fundamental Research Funds for the Central Universities
关键词 Computational fluid dynamicsLevel set methodSpray atomizationInterface captureBreakup 液体雾化 水平集方法 计算流体动力学 模拟 数值方法 实验观察 旋涡结构 气体流速
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