粘性液体爆炸抛撒模型

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摘要粘性液体爆炸抛撒模型的建立对数值模拟粘性液体爆炸抛撒形成的抛撒云团过程具有重要意义。粘性液体爆炸抛撒包含液体初始驱动、空化效应产生、液体环形成、射流形成和断裂、液滴破碎等现象，这是一个复杂的物理过程。根据不同阶段、不同现象流动特征，建立牛顿粘性流体爆炸抛撒数学模型，计算得到液体抛撒速度、抛撒半径以及液滴尺寸分布。计算结果表明抛撒半径与粘度成正比，而抛撒速度衰减曲线曲率与之成反比。为验证数学模型的准确性设计试验，试验结果与结论一致，模型准确性得到验证。

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关键词 ：粘性液体, 爆炸抛撒, 数学模型, 试验研究

Abstract：

The model for process of explosive dispersal of viscosity liquid is of great significance to the numberical simulation of such process. The explosion dispersion of viscosity liquid is a complex physical process that contains: initial driving of fluid, cavitation, formation of fluid ring, formation and fracture of jets, broken of drops. Based on the different stages and phenomenon of flow characteristics, the mathematics model of explosion dispersion of viscous Newtonian fluid is set up. Dispersal velocity of liquid, dispersal radius and distribution of droplets sizes are obtained through calculations. The results show that the dispersal radius are proportional to the viscosity and the curvature of the attenuation curve of speed is inversely proportional to the viscosity. Experiment is designed to test and verify the accuracy of mathematical model. The experimental results coincide with the conclusion, the accuracy of model is validated.

Key words： viscosity liquid explosive dispersion process mathematical model experimental research

收稿日期: 2016-04-11 出版日期: 2017-08-28

引用本文:

康凯1,2 马峰2 王红英1 王树山2. 粘性液体爆炸抛撒模型[J]. 振动与冲击, 2017, 36(17): 141-145.
KANG Kai1,2, MA Feng2, WANG Hongying1, WANG Shushan2. The Model of Explosive Dispersion of Viscosity Liquid. JOURNAL OF VIBRATION AND SHOCK, 2017, 36(17): 141-145.

链接本文:

http://jvs.sjtu.edu.cn/CN/ 或 http://jvs.sjtu.edu.cn/CN/Y2017/V36/I17/141

[1] Kudryashova O B, Vorozhtsov B I, Korovina N V, et al. Physicomathematical Modeling of the Explosive Dispersion of Liquid by a Centrifugal Atomizer[J]. Propellants, Explosives, Pyrotechnics, 2013, 38:505-510.
[2] 薛社生, 刘家骢, 彭金华. 液体燃料爆炸抛撒近场阶段研究[ J] .南京理工大学学报, 1997, 21(4): 333-336.
Du Shesheng, Liu Jiacong, Peng Jinhua. Study on the Explosively Dispersed Liquid Fuel in the Near-Field[J]. Journal of Nanjing University of Science and Technology, 1997, 21(4): 333-336.
[3] 薛社生, 刘家骢, 秦承森. 燃料爆炸抛撒成雾的实验与数值研究[J]. 爆炸与冲击, 2001, 21(4):272-276.
Du Shesheng, Liu Jiacong, Qin Chengsen. Experimental and Numerical Investigationon Explosive Dispersal and Cloud Forming[J]. Explosion and Shock Waves, 2001, 21(4):272-276.
[4] 丁珏, 刘家骢. 液体燃料爆炸抛撒和FAE 形成过程的数值模拟[ J] .南京理工大学学报, 2000, 24(2): 168-171.
Ding Yu, Liu Jiacong. Numerical Simulation on the Process of Explosive Dispersal for Forming FAE Cloud[J]. Journal of Nanjing University of Science and Technology, 2000, 24(2): 168-171.
[5] 丁珏, 刘家骢, 彭金华. 液体燃料爆炸抛撒近场阶段的数值研究[J]. 爆炸与冲击, 2000, 20(3):215-220.
Du Shesheng, Liu Jiacong, Peng Jinhua. Numerical Study on the Explosively Dispersed Liquid Fuel in the Near-Field[J]. Explosion and Shock Waves, 2000, 20(3):215-220.
[6] 秦承森，王裴，王丽丽，石艺娜，洪滔. 液体环轴对称抛洒首次破碎的理论分析[J]. 爆炸与冲击, 2007, 27(3): 198-203.
Qin Chengsen Wang Pei Wang Lili Shi Yina Hong Tao, An Investigation of the Primary Breakup in the Axisymmetric Dissemination of A Liquid Ring[J]. Explosion and Shock Waves, 2007, 27(3): 198-203.
[7] 方伟, 赵省向, 李文祥, 贾宪振,姚李娜. 爆炸抛撒过程中 FAE 云雾的运动特性[J] 含能材料, 2015, 10:01
Fang Wei, Zhao Shengxiang, Li Wenxiang, Jia Xianzhen, Yao Lina. Movement Characteristics of Fuel-air Explosive (FAE) Clouds in the Explosion Dispersal Process[J] Chinese Journal of Energetic Materials, 2015, 10:01
[8] 罗琳, 解立峰, 韩志伟, 黄勇. 柴油的抛撒成雾及燃爆特性研究[J] 高压物理学报, 2015, 29:3
Luo Lin, Xie Lifeng, Han Zhiwei, Huang Yong, Cloud Character in Explosion Dispersion and Combustion Feature of Diesel[J] Chinese Journal of High Pressure Physics, 2015, 29:3
[9] 吴德义. 冲击波作用下液体抛撒和界面运动研究[D]博士 2002
Wu Deyi. Study on Liquid Dispersal and Interfacial Motion Under the Action of Shock Wave[D] Hefei: China University of Sciance and TechnoIogy. 2002
[10] DE Grady. The spall strength of condensed matter[J] Journal of the Mechanics & Physics of Solids, 1988, 36(3):353–384
[11] LIN S P. Breakup Of Liquid Sheets And Jets[M].The Press Syndicate Of The University Of Cambridge.2003
[12] Lin S P, Reitz R D. Drop And Spray Formation From A Liquid Jet[M]. Annu. Rev. Fluid Mech. 1998. 30:85–105
[13] ER Corino, RS Brodkey. A visual investigation of the wall region in turbulent flow[J] Journal of Fluid Mechanics, 1969, 37:1-30
[14] 马小娟等. 冲击压缩下物质黏性系数与冲击波阵面扰动衰减特性研究[J].2010:59-7
Ma Xiaojuan. Quantitative Relation Between the Viscosity Coefficient of Substances Under Shock Compression and the Disturbance Damping of Shock Front[J]. 2010:59-7