应用动网格技术和VOF方法模拟了平底结构的自由落体入水过程和气-液两相流,得到了平底物体自由落体入水过程的运动特性、砰击载荷特性以及入水空泡演化过程。结果表明:整个入水过程中,平底物体在入水瞬间受到来自液面的砰击载荷最大,砰击面的载荷压力分布中间高两端低;砰击载荷随入水初速的增加而增大;平底物体入水空泡破裂后对上表面造成冲击压力。数值计算方法和结果对入水结构安全性和适应性评估具有实际意义。
Abstract
The volume of fluid(VOF) method coupled with the dynamic mesh method was used to simulate the slamming load on a flatted-bottom body and the liquid-gas multiphase flow during the water-entry process. The unsteady water-entry cavity produced by the flatted-bottom body was analyzed. The flatted-bottom body motion,slamming load,pressure distribution,free surface deformation,and air cushion effect were captured. The evolutionary process of cavity such as its movement and closure was presented. The maximal slamming load occurs at the very beginning and the pressure on the middle part of the bottom surface is higher than that on the edge part. The slamming load increases with the initial velocity of water-entry. Moreover,the water rushes on the surface after the cavity collapse. The numerical calculation method and results are of practical significance for the safety and adaptability assessment of flatted-bottom body during water-entry.
关键词
VOF /
入水 /
砰击载荷 /
空泡 /
数值模拟
{{custom_keyword}} /
Key words
VOF /
water-entry /
slamming load /
cavity /
numerical simulation
{{custom_keyword}} /
{{custom_sec.title}}
{{custom_sec.title}}
{{custom_sec.content}}
参考文献
[1] Waugh J G,Stubstad G W. 水弹道学模拟[M].陈九锡,张开荣译. 北京: 国防工业出版社,1979.
J.G.Waugh, G.W. Stubstad.Hydroballistics Modeling[M].CHEN Jiuxi, ZHANG Kairong .Bei Jing: National Defense Industry Press,1979.
[2] 王永虎,石秀华. 入水冲击问题研究的现状与进展[J], 爆炸与冲击, 2008,28 (3): 276-282.
WANG Yonghu, SHI Xiuhua. Review on research and development of water-entry inpact problem[J]. Explosion and shock Wave,2008,28(3):276-282.
[3] 陈伟琪,王宝寿,颜开,等. 物体垂直入水的非定常空泡数学模型[J]. 应用数学和力学,2013,34(11):1130-1140.
CHEN Wei-qi,WANG Bao-shou, YAN Kai.et al. Model of the Unsteady Vertical Water-entry and Water-Exit Cavities[J]. Applied Mathematics and Mechanics.2013,34(11):1130-1140.
[4] 何春涛,王聪,何乾坤,等. 圆柱体低速入水空泡试验研究[J]. 物理学报,2012,61(13):1-8.
HE Chun-tao, Wang Cong, He Qian-kun,et al. Lowspeed water-entry of cylinderical projectile[J]. Acta Physica Sinica.2012, 61(13):1-8.
[5] Zhaoyu Wei, Xiuhua Shi. Evolution of three-dimensional cavitation following water entry of an inclined cylinder[J]. THEORETICAL & APPLIED MECHANICS LETTERS,2012,2:1-3.
[6] Jeffrey M. Aristoff,Tadd T. Truscott,Alexandra H. Techet,et al. The water-entry cavity formed by low Bond number impacts[J]. Physics of Fluid, 2008,20,091111.
[7] 何春涛,王聪,闵景新.等. 回转体匀速垂直入水早期空泡数值模拟研究[J]. 工程力学,2012,29(4):237-243
HE Chun-tao,WANG Cong,MIN Jing-xin,et al. NUMERICAL SIMULATION OF EARLY AIR-CAVITY OF CYLINDER CONE WITH VERTICAL WATER-ENTRY[J].Engineering Mechanics,2012, 29(4):237-243.
[8] 陈宇翔,郜冶,刘乾坤. 应用VOF方法的水平圆柱入水数值模拟[J]. 哈尔滨工程大学学报[J], 2011,32(11):1339-1442.
CHEN Yuxiang,GAO Ye, LIU Qiankun. Numerical simulation of water-entry in a horizontal circular cylinder using the volume of fluid(VOF) method[J]. Journal of Harbin Engineering University, 2011,32(11):1339-1442.
[9] 陈学农,何友声.平头物体三维带空泡入水的数值模拟[J].力学学报.1990,22(3):129-138.
CHEN Xuenong, HE Yousheng. Numerical simulation of 3-D water entry of a blunt cylinder with a ventilated cavity[J].Acta Mechanica Sinica , 1990,22(2):129-138
[10] F.J. Huera-Huarte, D.Jeon,M.Gharib. Experimental investigation of water slamming loads on panels.Ocean Engineering.38(2011):1347-1355
[11] CHEN Zhen, XIAO Xi, Wang De yu. Simulation of Flat-bottom Structure Slamming. China Ocean Engineering.2005,19(3):385-394
[12] 杨衡,孙龙泉,龚小超,等.弹性结构入水砰击载荷特性三维数值模拟研究[J].振动与冲击.2014,33(19):28-34
YANG Heng, Sun Longquan, GONG Xiaochao.et al. 3D numeriacal simulation of slamming load character for water entry of an elastic structure[J].Journal of vibration and shock.2005,33(19):28-34
[13] 黄震球,张文海.减小平底体砰击的试验研究[J]. 华中工学院学报.1986,14(5): 725-730
HUANG Zhen-qiu,ZHANG Wen-hai.TEST [J].Journal of Hua Engineering University,1986,14(5):725-730
{{custom_fnGroup.title_cn}}
脚注
{{custom_fn.content}}
PDF(1161 KB)
