赵晶瑞, 唐友刚, 王文杰. 传统Spar平台参数激励Mathieu不稳定性的研究[J]. 工程力学, 2010, 27(03): 222-227.
引用本文: 赵晶瑞, 唐友刚, 王文杰. 传统Spar平台参数激励Mathieu不稳定性的研究[J]. 工程力学, 2010, 27(03): 222-227.
ZHAO Jing-rui, TANG You-gang, WANG Wen-jie. STUDY ON THE PARAMETRICALLY EXCITED MATHIEU INSTABILITY OF A CLASSIC SPAR PLATFORM[J]. Engineering Mechanics, 2010, 27(03): 222-227.
Citation: ZHAO Jing-rui, TANG You-gang, WANG Wen-jie. STUDY ON THE PARAMETRICALLY EXCITED MATHIEU INSTABILITY OF A CLASSIC SPAR PLATFORM[J]. Engineering Mechanics, 2010, 27(03): 222-227.

传统Spar平台参数激励Mathieu不稳定性的研究

STUDY ON THE PARAMETRICALLY EXCITED MATHIEU INSTABILITY OF A CLASSIC SPAR PLATFORM

  • 摘要: 考虑时变的稳性高 的影响,导出了传统Spar平台参数激励纵摇运动微分方程,简化得到具有三次非线性项的有阻尼Mathieu方程。应用多尺度法求得了当垂荡频率与纵摇固有频率比接近2∶1时纵摇微分方程的二阶定常响应。根据Floquet理论分析了方程零解与定常周期解的稳定性并进行了数值验证。研究结果表明:稳性高度 值对于平台纵摇运动的稳定性具有重要影响,调整稳性高度或增加系统阻尼可以减小定常解的不稳定区域,从而抑制平台参数激励纵摇运动的发生。

     

    Abstract: The parametrically excited differential equation for the pitch motion of a classic Spar platform is established considering the effect of time-varying metacentric height value. Then it is simplified to a cubic nonlinear Mathieu equation. The second order steady-state response of the differential equation is solved by the method of multiple scales when the heave frequency is approximately twice as larege as the pitch natural frequency. The stabilities of trivial solution and steady-state periodic solution are analyzed according to the Floquet theory and verified by the numerical method. The result shows that the value plays a very important role in the stability of pitch movement. Adjusting value or increasing system damping can reduce the unstable region of steady-state solution so as to suppress parametrically excited pitch motion.

     

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