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Effects of tension on vortex-induced vibration (VIV) responses of a long tensioned cylinder in uniform flows

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文摘 The effects of tension on vortex-induced vibration (VIV) responses for a tension-dominated long cylinder with an aspect ratio of 550 in uniform flows are experimentally investigated in this paper. The results show that elevated tension suppresses fluctuations of maximum displacement with respect to flow velocity and makes chaotic VIV more likely to appear. With respect to periodic VIV, if elevated tension is applied, the dominant vibration frequency in the in-line (IL) direction will switch from a fundamental vibration frequency to twice the value of the fundamental vibration frequency, which results in a ratio of the dominant vibration frequency in the IL direction to that in the cross-flow direction of 2.0. The suppression of the elevated tension in the fluctuation of the maximum displacement causes the axial tension to become an active control parameter for the VIV maximum displacement of a tension-dominated long riser or tether of an engineering structure in deep oceans. However, the axial tension must be optimized before being used since the high dominant vibration frequency due to the elevated tension may unfavorably affect the fatigue life of the riser or tether.
来源 Acta Mechanica Sinica ,2017,33(1):1-9 【核心库】
DOI 10.1007/s10409-016-0604-0
关键词 Tension effect ; Maximum displacement ; Dominant vibration frequency ; Chaos
地址

Institute of Mechanics, Chinese Academy of Sciences, No. 15 Beisihuan Xi Road, Beijing, 100190

语种 英文
文献类型 研究性论文
ISSN 0567-7718
学科 力学
基金 supported by the Construction Technology Program of the Ministry of Transport
文献收藏号 CSCD:5928107

参考文献 共 21 共2页

1.  Bearman P W. Circular cable wakes and vortex-induced vibrations. J. Fluid Struct,2011,27:648-658 CSCD被引 39    
2.  Gabbai R D. An overview of modeling and experiments of vortex induced vibration of circular cylinders. J. Sound Vib,2005,282:575-616 CSCD被引 87    
3.  Sarpkaya T. A critical review of the intrinsic nature of vortexinduced vibrations. J. Fluid Struct,2004,19:389-447 CSCD被引 177    
4.  Williamson C H K. Vortex-induced vibrations. Annu. Rev. Fluid Mech,2004,36:413-455 CSCD被引 179    
5.  Ahrens D. Submerged floating tunnels-a concept whose time has arrived. Tunn. Undergr. Sp. Tech,1997,12:317-336 CSCD被引 24    
6.  Wu X D. A review of recent studies on vortexinduced vibrations of long flexible cylinders. J. Fluid Struct,2012,28:292-308 CSCD被引 49    
7.  Wu X D. An Experimental investigation of dual-resonant and non-resonant responses for vortex-induced vibration of a long slender cylinder. Sci. China Phys. Mech,2014,57:321-329 CSCD被引 1    
8.  Trim A D. Experimental investigation of vortex induced vibration of long marine risers. J. Fluid Struct,2005,21:335-361 CSCD被引 100    
9.  Resvanis T L. Reynolds number effects on the vortex-induced vibration of flexible marine risers. Proceedings of the ASME 2012 31st International,(ed.) Conference on Ocean,2012 CSCD被引 1    
10.  Huera-Huarte F J. Towing tank experiments on the vortex-induced vibrations of low mass ratio long flexible cylinder. J. Fluid Struct,2014,48:81-92 CSCD被引 19    
11.  Wu H. Experimental investigation on the suppression of vortex-induced vibration of long flexible riser by multiple control rods. J. Fluid Struct,2012,30:115-132 CSCD被引 14    
12.  Huera-Huarte F J. On splitter plate coverage for suppression of vortex-induced vibrations of flexible cylinders. Appl. Ocean Res,2014,48:244-249 CSCD被引 12    
13.  Sanaati B. Vortex-induced vibration (VIV) dynamics of a tensioned flexible cylinder subjected to uniform cross-flow. J. Mar. Sci. Technol,2013,18:247-261 CSCD被引 7    
14.  Lee L. Vibration frequency and lock-in bandwidth of tensioned flexible cylinders experiencing vortex shedding. J. Fluid Struct,2010,26:602-610 CSCD被引 9    
15.  Gu J J. An experimental investigation by towing tank on VIV of a long flexible cylinder for deepwater riser application. J. Mar. Sci. Technol,2013,18:358-369 CSCD被引 6    
16.  Huera-Huarte F J. Wake structures and vortexinduced vibrations of a long flexible cylinder-Part I:dynamic response. J. Fluid Struct,2009,25:969-990 CSCD被引 17    
17.  Lie H. Modal analysis of measurements from a large-scale VIV model test of a riser in linearly sheared flow. J. Fluid Struct,2006,22:557-575 CSCD被引 81    
18.  Eckmann J P. Ergodic theory of chaos and strange attractors. Rev. Mod. Phys,1985,57:617-656 CSCD被引 92    
19.  Rosenstein M T. A practical method for calculating largest Lyapunov exponents from small data. Phys. D,1993,65:117-134 CSCD被引 296    
20.  Wu Y. Analysis of the emergence in swarm model based on largest Lyapunov exponent. Math. Probl. Eng,2011,2011:745257 CSCD被引 1    
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