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The Nonlinear Bifurcation and Chaos of Coupled Heave and Pitch Motions of a Truss Spar Platform 被引量:3

The Nonlinear Bifurcation and Chaos of Coupled Heave and Pitch Motions of a Truss Spar Platform
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摘要 This paper presents the results from a numerical study on the nonlinear dynamic behaviors including bifurcation and chaos of a truss spar platform. In view of the mutual influences between the heave and the pitch modes, the coupled heave and pitch motion equations of the spar platform hull were established in the regular waves. In order to analyze the nonlinear motions of the platform, three-dimensional maximum Lyapunov exponent graphs and the bifurcation graphs were constructed, the Poincaré maps and the power spectrums of the platform response were calculated. It was found that the platform motions are sensitive to wave frequency. With changing wave frequency, the platform undergoes complicated nonlinear motions, including 1/2 sub-harmonic motion, quasi-periodic motion and chaotic motion. When the wave frequency approaches the natural frequency of the heave mode of the platform, the platform moves with quasi-periodic motion and chaotic motional ternately. For a certain range of wave frequencies, the platform moves with totally chaotic motion. The range of wave frequencies which leads to chaotic motion of the platform increases with increasing wave height. The three-dimensional maximum Lyapunov exponent graphs and the bifurcation graphs reveal the nonlinear motions of the spar platform under different wave conditions. This paper presents the results from a numerical study on the nonlinear dynamic behaviors including bifurcation and chaos of a truss spar platform. In view of the mutual influences between the heave and the pitch modes, the coupled heave and pitch motion equations of the spar platform hull were established in the regular waves. In order to analyze the nonlinear motions of the platform, three-dimensional maximum Lyapunov exponent graphs and the bifurcation graphs were constructed, the Poincare maps and the power spectrums of the platform response were calculated. It was found that the platform motions are sensitive to wave fre- quency. With changing wave frequency, the platform undergoes complicated nonlinear motions, including 1/2 sub-harmonic motion, quasi-periodic motion and chaotic motion. When the wave frequency approaches the natural frequency of the heave mode of the platform, the platform moves with quasi-periodic motion and chaotic motional temately. For a certain range of wave frequencies, the platform moves with totally chaotic motion. The range of wave frequencies which leads to chaotic motion of the platform increases with increasing wave height. The three-dimensional maximum Lyapunov exponent graphs and the bifurcation graphs reveal the nonlinear motions of the spar platform under different wave conditions.
作者 HUANG Lei LIU Liqin LIU Chunyuan TANG Yougang
机构地区 State Key Laboratory of Hydraulic Engineering Simulation and Safety
出处 《Journal of Ocean University of China》 SCIE CAS 2015年第5期795-802,共8页 中国海洋大学学报(英文版)
基金 supported by the National Natural Science Foundation of China under Grant No.51179125 the Innovation Foundation of Tianjin University under Approving No.1301
关键词 非线性运动 俯仰运动 混沌运动 分岔图 平台 冻胀 耦合 桁架 truss spar platform coupled heave and pitch quasi-periodic motion chaotic motion 1/2 sub-harmonic motion maximum Lyapunov exponent bifurcation graph
分类号 P75 [天文地球—海洋科学] P731.2 [天文地球—海洋科学]
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参考文献19

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  • 2Gavassoni, E., Gon?alves, P. B., and Roehl, D. M., 2014. Nonlinear vibration modes and instability of a conceptual model of a spar platform. Nonlinear Dynamics, 74(1): 809–826.
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  • 9Shen, W. J., and Tang, Y. G., 2011. Stochastic analysis of nonlinear coupled heave-pitch motion for the truss spar platform. Journal of Marine Scienceand Application, 10: 471–477.
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Journal of Ocean University of China
2015年 第5期

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