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海洋环境扰动对水下航行体超空泡形态的影响 被引量:2

Supercavity Profile of Underwater Vehicle Influenced by Environmental Disturbance of Ocean
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摘要 基于空泡截面独立扩展原理,编写自然超空泡形态时变特性计算软件.5级海况波浪扰动下,超空泡长度变化不超过5%,最大截面半径变化不超过2%;随着航行深度的增加,超空泡尺寸逐渐减小;当遇到较大压力脉冲时,超空泡从中前部溃灭,空化器附近仍保留部分空泡;波浪对水下航行体超空泡流动的影响较小;在变深度运动时,须注意超空泡尺寸变化幅度,避免航行体沾湿;爆炸冲击波对超空泡流动有较大破坏作用. Based on the principle of independence of cavity section expansion,software was given to calculate the shape time-variation characteristic of supercavity.The cavity length changes within 5%,and the maximun radius variety doesn't exceed 2% in rough wave.The cavity dimension decreases with the increase of navigation depth.A part of cavity collapses rapidly when the pressure impulse is large enough,and other cavity retains close to the cavitator,and the cavity shape can hardly be kept.The effect of ocean wave on the supercavity of underwater vehicle is little.The cavity dimension should be noticed to ensure that the vehicle is not wetted while depth changing.The supercavitating flow can be destroyed by explosion shock.
作者 孟庆昌 张志宏 刘巨斌
机构地区 海军工程大学理学院
出处 《弹道学报》 EI CSCD 北大核心 2010年第4期31-35,共5页 Journal of Ballistics
基金 国家自然科学基金项目(10772196) 国防基础科研基金项目 海军工程大学科学研究基金项目
关键词 水下航行体 超空泡 独立性原理 underwater vehicle supercavity independence principle
分类号 O359 [理学—流体力学]
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参考文献11

  • 1NEAVES M D, EDWARDS J R. Hypervelocity underwater projectile calculations using a precondition algorithm[C]. 41st Aerospace Sciences Meeting and Exhibit. Reno, Nevada: AIAA, 2003: 1-11.
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  • 3NEAVES M D, EDWARDS J R. Time-accurate calculations of axisymmetric water entry for a supercavitating projectile[C]. 34thAIAA Fluid Dynamics Conference and Exhibit. Portland, Oregon: AIAA, 2004: 1-11.
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同被引文献20

  • 1张学伟,张亮,张嘉钟,魏英杰,王聪.通气超空泡稳定性分析的一种数值算法[J].力学学报,2008,40(6):820-825. 被引量:10
  • 2曹伟,王聪,魏英杰,邹振祝.自然超空泡形态特性的射弹试验研究[J].工程力学,2006,23(12):175-179. 被引量:61
  • 3王海斌,张嘉钟,王聪,魏英杰,贾力平.加速度对自然超空泡特性影响的数值仿真研究[J].工程力学,2007,24(1):18-22. 被引量:12
  • 4SAVCHENKO Y N. Experimental investigation of supercavitating motion of bodies[J]. Supercavitating Flows, 2001 (4) :1 - 30.
  • 5LOGVINOVICH G V. Hydrodynamics of flow with free boundaries[M] .Kiev : Naukova Dumka, 1969.
  • 6SEMENENKO V N. Dynamic processes of supercavitation and computer simulation [J]. Supercavitating Flows, 2001 ( 12 ) : 1-30.
  • 7SAVCHENKO Y N. Supercavit ation-problems and perspectives[C]//CAV2001 : 4th International Symposium on Cavitation. California:California Institute of Technology. 2001 : 1- 8.
  • 8RAND R,PRATAP R,RAMANI D,et al. Impact dynamics of a supercavitating underwater proiectile [C]//ASME Design Engineering Technical Conference. Sacramento, California: ASME,1997:1-11.
  • 9VASIN A D. The principle of independence of the cavity sections expansion(Logvinovich's principle)as the basis for in- vestigation on cavitation flows [J]. Supercavitating Flows, 2001(8):1 -27.
  • 10Kulkarni S S, Pratap R. Studies on the dynamics of a supereavitating projectile [J]. Applied Mathematical Modeling, 2000, 24: 113-129.

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弹道学报
2010年 第4期

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