The analysis of second-order sloshing resonance in a 3-D tank 被引量：3

The analysis of second-order sloshing resonance in a 3-D tank

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摘要 Based on the potential theory and perturbation techniques, the problem of second-order sloshing in a three-dimensional tank in combination with surge and sway motions is analyzed. When excitation is applied in both horizontal directions, the second-order resonance can occur when the sum frequency or the difference frequency of any two excitation components is equal to one of the natural frequencies. The resonance can also occur when the sum or difference frequency of one of the excitation frequencies and one of the natural frequencies is equal to another natural frequency. Based on the potential theory and perturbation techniques, the problem of second-order sloshing in a three-dimensional tank in combination with surge and sway motions is analyzed. When excitation is applied in both horizontal directions, the second-order resonance can occur when the sum frequency or the difference frequency of any two excitation components is equal to one of the natural frequencies. The resonance can also occur when the sum or difference frequency of one of the excitation frequencies and one of the natural frequencies is equal to another natural frequency.

作者张洪生吴鹏飞刘文白

机构地区 College of Ocean Science and Engineering

出处《Journal of Hydrodynamics》 SCIE EI CSCD 2014年第2期309-315,共7页 水动力学研究与进展B辑（英文版）

基金 supported by the National Science Foundation of China(Grant No.51079082)

关键词 SLOSHING second-order resonance three dimensions coupling terms sloshing, second-order resonance, three dimensions, coupling terms

分类号 O322 [理学—一般力学与力学基础]

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参考文献15

1FALTINSEN O. M. A numerical non-linear method for sloshing in tanks with two dimensional flow[J]. Journal of Ship Research, 1978, 18(4): 224-241.
2WU G. X., MA Q. W. and EATOCK TAYLOR R. Numerical simulation of sloshing waves in a 3D tank based on a finite element method[J]. Applied Ocean Research, 1998,20(6): 337-355.
3WANG C. Z., KHOO B. C. Finite element analysis of two-dimensional nonlinear sloshing problems in random excitation[J]. Ocean Engineering, 2005, 32(2): 107-133.
4黄豪彩,王赤忠,冷建兴.Fully Nonlinear Simulations of Wave Resonance by An Array of Cylinders in Vertical Motions[J].China Ocean Engineering,2013,27(1):87-98. 被引量：3
5FALTINSEN O. M., TIMOKHA A. N. An adaptive multimodal approach to nonlinear sloshing in a rectangular tank[J]. Journal of Fluid Mechanics, 2001, 432: 167-200.
6HU P., WU G. X. and MA Q. W. Numerical simulation of nonlinear wave radiation by a moving vertical cylinder[J]. Ocean Engineering, 2002, 29(14): 1733-1750.
7MA Q. W., WU G. X. and EATOCK TAYLOR R. Finite element simulation of fully nonlinear interaction between vertical cylinders and steep waves. Part 1: Methodology and numerical procedure[J]. International Journal for Numerical Methods in Fluids, 2001, 36(3): 265-285.
8MA Q. W., WU G. X. and EATOCK TAYLOR R. Finite element simulation of fully nonlinear interaction between vertical cylinders and steep waves. Part 2: Numerical results and validation[J]. International Journal for Numerical Methods in Fluids, 2001, 36(3): 287-308.
9WU G. X. Second-order resonance of sloshing in a tank[J]. Ocean Engineering, 2007, 34(17-18): 2345- 2349.
10WANG C. Z., WU G. X. and KHOO B. C. Fully nonlinear simulation of resonant motion of liquid confined between floating structures[J]. Computers and Fluids, 2011,44(1): 89-101.

二级参考文献1

1贺五洲.多个同频摇荡剖面引起的水面波辐射[J].应用数学和力学,1999,20(10):1072-1080. 被引量：1

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1杨小岩,张洪生,吴鹏飞.液舱三维晃荡运动二阶共振理论解及特性分析[J].海洋工程,2015,33(3):71-79. 被引量：2
2杨博,王丙,刘畅.箱式结构的水动力特性分析[J].军事交通学院学报,2016,18(1):78-82.

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1CHENGXu-duo LIANGYong WENJi-hua.HYDROELASTIC VIBRATIONS AND LIQUID SLOSHING SUPPRESSION IN A RECTANGULAR TANK WITH ELASTIC SPACER[J].Journal of Hydrodynamics,2004,16(3):336-340. 被引量：5
2CHENGXu-duo,HUMei-zhu,WENJi-hua.THE EQUIVALENT MECHANICAL MODELS OF LIQUID SLOSHING IN A SPHERICAL TANK WITH SPACER UNDER LOW GRAVITY[J].Journal of Hydrodynamics,2005,17(1):110-116. 被引量：2
3沈国光,王日新,李德筠,裘泓.分层流体TLD特性分析[J].水动力学研究与进展（A辑）,1996,11(2):196-204. 被引量：6
4Miao, G.P., Ishida, H., Saitoh, T., Kurosaki, K..ANALYTICAL SOLUTIONS FOR THE SLOSHING LOADING ON CIRCULAR CYLINDRICAL LIQUID TANKS WITH INTERIOR SEMI-POROUS BARRIERS[J].Journal of Hydrodynamics,2001,13(2):32-39. 被引量：9
5HE Zhao ZHU Ren-chuan MIAO Guo-ping.THE SIMULATION AND ANALYSIS OF TANK SLOSHING WITH POROSITY GIRDER BY MULTI-DOMAIN BOUNDARY ELEMENT METHOD[J].Journal of Hydrodynamics,2010,22(4):546-553. 被引量：4
6WU GuoXiong1,2 1 State Key Laboratory of Ocean Engineering,College of Naval Architecture,Ocean and Civil Engineering,Shanghai Jiao Tong University,Shanghai 200240,China,2 Department of Mechanical Engineering,University College London,Torrington Place,London WC1E 7JE,UK.The sloshing of stratified liquid in a two-dimensional rectangular tank[J].Science China(Physics,Mechanics & Astronomy),2011,54(1):2-9. 被引量：7
7ZHAO Wen-hua,YANG Jian-min,HU Zhi-qiang,XIAO Long-fei.EXPERIMENTAL INVESTIGATION OF EFFECTS OF INNER-TANK SLO-SHING ON HYDRODYNAMICS OF AN FLNG SYSTEM[J].Journal of Hydrodynamics,2012,24(1):107-115. 被引量：7
8LI Yu-long ZHU Ren-chuan MIAO Guo-ping FAN Ju.SIMULATION OF TANK SLOSHING BASED ON OPENFOAM AND COUPLING WITH SHIP MOTIONS IN TIME DOMAIN[J].Journal of Hydrodynamics,2012,24(3):450-457. 被引量：12
9Seyed Amin Mousavi,Seyed Mehdi Zahrai,Khosrow Bargi.Optimum geometry of tuned liquid column-gas damper for control of offshore jacket platform vibrations under seismic excitation[J].Earthquake Engineering and Engineering Vibration,2012,11(4):579-592. 被引量：4
10薛米安,林鹏智,郑金海,马玉祥,苑晓丽,Viet-Thanh NGUYENa.Effects of Perforated Baffle on Reducing Sloshing in Rectangular Tank:Experimental and Numerical Study[J].China Ocean Engineering,2013,27(5):615-628. 被引量：11

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3Mingming Zhao,Jialong Jiao.Smoothed-Particle Hydrodynamics Simulation of Ship Motion and Tank Sloshing under the Effect of Regular Waves[J].Fluid Dynamics & Materials Processing,2024,20(5):1045-1061.

1何广民.水平地震波和结构(系统)的摇摆运动[J].世界地震工程,1989,5(3):43-47.
2Renqing Zhu 1) Yousheng Wu 2) (East China Shipbuilding Institute 1) ,Zhenjiang 212003,P.R.China,) (China Ship Scientific Research Center 2) , Wuxi 214082,P.R.China).2D Numerical Simulation of Sloshing Pressure in Liquid Cargo Tanks[J].武汉理工大学学报（交通科学与工程版）,1999,24(S1):124-128.
3侯建付,冯振东.矩阵摄动技术在发动机悬置系统动特性重分析中的应用[J].汽车技术,1989(12):11-15.
4何志军,丁洁民,李久鹏.上海中心大厦悬挂式幕墙支撑结构竖向地震作用反应分析[J].建筑结构学报,2014,35(1):34-40. 被引量：4
5刘宝山.不妨多一些信任[J].教学与管理（小学版）,2010(3):20-21. 被引量：1
6王庆,姚竞争.板壳结构非线性随机有限元法研究[J].工程力学,2013,30(12):286-292. 被引量：5
7SUM CONTENTS （2006）[J].船舶力学,2006,10(6):167-176.
8Journal of Marine Science and Application 2007 Sum. Contents[J].Journal of Marine Science and Application,2007,6(4):68-69.
9SUM CONTENTS （2010）[J].船舶力学,2010,14(12):1432-1445.
10卓越品质魅力绽放奔腾首款SUV奔腾X80[J].汽车维修,2013(8).

Journal of Hydrodynamics

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