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水下亚声速细长锥型射弹超空泡流的数值计算方法 被引量:2

Numerical method of supercaviting flow past a slender cone type projectile traveling in water at subsonic speed
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摘要 采用理想可压缩流体无旋定常流动及超空泡尾部Riabushinsky闭合方式假定,基于水动力学势流理论及细长体理论,建立了描述水下亚声速条件下细长锥型射弹超空泡流动的积分微分方程。发展了求解该方程的数值离散方法,提出多种超空泡外形初始解,分析了它们对超空泡形态计算结果的影响,优化了计算过程,简化了初始迭代条件。分析了流体压缩性对超空泡流动参数的影响,当马赫数大于0.3时,超空泡外形、射弹表面压力系数及射弹运动压差阻力系数均明显增大。计算得到的超空泡流动参数与相关文献的理论和实验结果吻合良好。 On the assumption that the ideal compressible fluid motion is irrotational and steady, supercavitating closure with the Riabushinsky scheme. An integro-differential equation for the supercavitating flow past a slender cone type projectile traveling in water at subsonic speed is derived based on the po- tential flow theory of hydrodynamics and the slender body theory. A numerical discrete method for solu- tion of the integro-differential equation is developed, various initial solutions of supercavity profile are proposed and the influence on results are analyzed. The process of computation is optimized and the ini- tial cavity solution for the first iteration is simplified. Compressibility influence of flow field on charac- teristic parameter of supercaviting flow is analyzed,while the Mach number exceeds 0.3,more remarka- ble increasement of supercavity shape and pressure coefficient on projectile surface and drag coefficient of projectile will occur. The calculated results about characteristic parameter of supercaviting flow are compared with relative theoretical and experimental ones,and a good agreement exists.
作者 金永刚 张志宏 王冲 孟庆昌 顾建农
机构地区 海军工程大学理学院
出处 《计算力学学报》 EI CAS CSCD 北大核心 2012年第3期393-398,共6页 Chinese Journal of Computational Mechanics
基金 国家自然科学基金(10772196) 海军工程大学自然科学基金(HGDJJ08003)资助项目
关键词 流体力学 细长体理论 超空泡 亚声速 压缩性 射弹 fluid mechanics slender body theory supercavity compressibility projectile
分类号 O353.4 [理学—流体力学]
  • 相关文献

参考文献17

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二级参考文献57

共引文献82

同被引文献9

  • 1Kirschner I N. Results of selected experiments invol- ving supercavitating flows[C]//The Research and Technology Organisation of NATO Supercavitating Flows(RTO EN-010/AVT-058). Ottawa: St Joseph Corporation Company, 2002: 1501-1514.
  • 2Serebryakov V V, Kirschner I N, Schnerr G H. High speed motion in water with supercavitation for sub-, trans-, supersonic Mach numbers[C]// Seventh International Symposium on Cavitation (CAV2009). New York: Curran Associates Inc, 2011: 219-236.
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  • 4Vasin A D. Supercavities in compressible fluid[C]// The Research and Technology Organisation of NATO Supercavitating Flows ( RTO EN-010/AVT-058 ). Ottawa: St Joseph Corporation Company, 2002:1601-1629.
  • 5Serebryakov V V. Some problems of the supercavita- tion theory for sub or supersonic motion in water [C]//High Speed Body Motion in Water (AGARDR- 827). Hull: Communication Group Inc, 1998: 2301- 2320.
  • 6张志宏,孟庆昌,顾建农,王冲.水下亚声速细长锥型射弹超空泡形态的计算方法[J].爆炸与冲击,2010,30(3):254-261. 被引量:11
  • 7张志宏,孟庆昌,顾建农,金永刚.水下超声速细长锥型射弹超空泡形态的计算方法[J].爆炸与冲击,2011,31(1):49-54. 被引量:4
  • 8孟庆昌,张志宏,刘巨斌,顾建农.超声速圆盘空化器超空泡流动数值计算方法[J].上海交通大学学报,2011,45(10):1435-1439. 被引量:2
  • 9张志宏,孟庆昌,金永刚,顾建农.超声速细长锥型射弹超空泡流动数值计算方法[J].华中科技大学学报(自然科学版),2014,42(1):39-43. 被引量:8

引证文献2

二级引证文献9

计算力学学报
2012年 第3期

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