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受激液体射流的非轴对称模式 被引量:1

Asymmetric Modes of an Excited Liquid Jet
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摘要 利用液体射流破碎的线性不稳定性理论 ,研究了受激液体射流特有的“局部频段非轴对称模式占优”现象 ,由一系列理论计算结果 ,得到了 Re- We平面上的相应临界曲线 ,并根据这些曲线得出了受激液体射流出现非轴对称模式结构特征的物理条件。计算结果还表明 ,受激液体射流和自由液体射流的临界曲线有明显不同。初步的实验观察结果证实了理论的预测。 The theory of a linear instability analysis is used to study the dominant asymmetric mode of an excited liquid jet in this paper.The theoretical results yield a series of critical curves on the Re We plane,where Re and We denote respectively the Reynolds number and Weber number.From these curves the physical conditions in which the asymmetric modes may dominate the excited liquid jets are obtained.The results also indicate that the critical curves of a free jet and an excited jet are quite different.The theoretical analysis agrees fairly well with that of the experimental observations.
作者 杜青 刘宁 杨延相 郗大光 林玉静 史绍熙
机构地区 天津大学内燃机燃烧学国家重点实验室
出处 《燃烧科学与技术》 EI CAS CSCD 2002年第2期181-184,共4页 Journal of Combustion Science and Technology
基金 国家自然科学基金资助项目 (5990 60 0 8)
关键词 非轴对称模式 主导频率 受激液体射流 自由液体射流 液体射流破碎模型 asymmetric modes dominant frequency excited liquid jet free liquid jet
分类号 O358 [理学—流体力学]
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参考文献7

  • 1Lord Rayleigh.On the instability of jets[J].Proc.London,Math.Soc.,1879,10(4):361-371
  • 2Taylor G I.Generation of ripples by wind blowing over viscous fluid[A].The Scienctific Papers of G.I.Talyor[C].Cambridge University Press,Cambridge,England,1963,3:244-254
  • 3Hoyt J W,Taylor J J.Waves on water jets[J].J.Fluid Mech.,1977,83:119-127
  • 4Stockman M G.The nonaxisymmetric bucking flow regime of fast capillary jets[J].Phys.Fluids,1982,25(A):1506-1511
  • 5Yang H A.Asymmetric instability of a liquid jet[J].Phys.Fluids,1992,A4(4):681-689
  • 6LI X.Mechanism of atomization of a liquid jet[J].Atomization and Spray,1994,4:1-17
  • 7Shi S X.Unstable asymmetric modes of a liquid jet[J].Journal of Fluids Engineering,Transaction ASME,1999,121:374-383

同被引文献21

  • 1秦军,陈谋志,李伟锋,刘海峰,于遵宏.双通道气流式喷嘴加压雾化的实验研究[J].燃烧科学与技术,2005,11(4):384-387. 被引量:11
  • 2曹显奎,孙志刚,许建良,李伟锋,刘海峰,于遵宏.液体射流在同向气流中的破裂[J].化学工程,2007,35(5):29-31. 被引量:5
  • 3Eggers J, Villermaux E. Physics of liquid jets [J]. Reports on Progress in Physics, 2008, 71(3): 036601.
  • 4Marmottant P, Villermaux E. On spray formation[J].Journal of Fluid Mechanics, 2004, 498 : 73-111.
  • 5Lee K, Aalburg C, Diez F J, turbulent round liquid jets in AIAA Journal, 2007, 45 (8) :et al. Primary breakup of uniform crossflows [J]. 1907-1916.
  • 6Webster D R, Longmire E K. Jet pinch-off and drop formation in immiscible liquid-liquid systems [J]. Experiments inFluids, 2001, 30(1): 47-56.
  • 7Jiang Dejun, Liu Haifeng, Li Weifeng, et al. Modeling atomization of a round water jet by a high- speed annular air jet based on the self-similarity of droplet breakup [J]. Chemical Engineering Research and Design,2011, 92(2): 185-192.
  • 8Liu H F, Gong X, Li W F, et al. Prediction of droplet size distribution in sprays of prefilming air-blast atomizers [J]. Chemical Engineering Science, 2006, 61 (6): 1741-1747.
  • 9Si T, Li F, Yin X Y, et al. Modes in flow focusing and instability of coaxial liquid-gas jets [J]. Journal of Fluid Mechanics, 2009, 629(1): 1-23.
  • 10Si T, Li F, Yin X Y, et al. Spatial instability of coflowing liquid-gas jets in capillary flow focusing [J].Physics of Fluids, 2010, 22(11): 112105.

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燃烧科学与技术
2002年 第2期

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