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涡激振动是一种在海洋工程领域普遍存在的流固耦合物理现象,易导致海洋立管等结构物发生疲劳损伤或失稳。本文为抑制涡激振动而提出一种附加轴向板条的方案,采用非定常流体数值计算方法求解分析不同分布形式下的轴向板条对海洋立管涡激振动特性的影响。首先定义轴向板条的分布形式;采用Newmark-β法求解立管双自由度振动方程并编写UDF,计算采用k-ω/SST湍流模型,并结合动网格技术模拟立管的振动过程。研究结果表明,轴向板条对海洋立管具有较好的抑振效果;当轴向板条数目n=20时,流向振动幅度减小78.57%,横向振动幅度减小58.10%。本文研究结果可为海洋结构物涡激振动的抑振提供参考。 相似文献
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细长海洋立管涡激振动预报模型 总被引:7,自引:1,他引:6
涡激振动预报对于深水环境中的细长海洋结构物的设计至关重要.近年来出现的若干经验模型基于圆柱体受追振荡实验数据.文中介绍了细长海洋结构物涡激振动预报工具的发展,进而提出了一种基于圆柱体受迫振荡实验数据的预报模型.与现有的类似模型相比较,该模型更加直接地利用了原始模型实验数据,并且将立管的有限元模态分析并入到响应预报当中,以计及立管物理参数的不均匀特性.利用近期立管模型在阶梯状分布流以及剪切流中的涡激振动响应实验测量数据,验证了该模型的有效性.该模型的计算结果表明,立管的模态振型、模态频率与涡激振动响应高度耦合,并且对于低质量比的情况尤为明显.文中还指出了类似的基于受迫振荡圆柱体实验数据的预报模型存在的缺陷. 相似文献
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涡激振动响应预报对于深水海洋结构物的设计是非常重要的。近年来,基于圆柱体的受迫振荡实验数据提出了若干经验模型。针对潘志远提出的一种基于实验数据并且与立管的有限元模态分析有机结合的VIV预报模型,采用近期的一个阶梯状分布来流下的涡激振动响应实验测量数据,验证了该模型的有效性和局限性。 相似文献
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针对分隔板、控制杆和减振器3种抑振装置对串联立管涡激振动的抑制效果问题,在波流水槽中进行不同间距下串联立管的裸管试验以及抑振管涡激振动试验。试验结果表明,在同一流速条件下,附加抑振装置后立管的振动振幅与裸管相比明显降低,所采用的3种抑振装置可不同程度抑制海洋立管的涡激振动。对于横向振动最优抑制效果来说,控制杆的最优抑制效果最好;对于顺流向振动最优抑制效果来说,分隔板在上游立管中的最优抑制效果最好,控制杆在下游立管中的最优抑制效果最佳。综合比较各间距与振动方向的最优抑制效果,控制杆能够对串联立管横向与顺流向的振动起到不错的抑制效果。 相似文献
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针对分隔板、控制杆和减振器3种涡激振动抑制装置,在波流水槽中进行不同间距下并联布置立管的裸管试验以及抑振管涡激振动试验研究,对比分析3种抑制装置的抑制效果。试验结果表明:在同一流速条件下,附加抑振装置后立管的振动振幅与裸管相比明显降低,所采用的3种抑振装置在不同程度上均抑制海洋立管的涡激振动;从横向振动最优抑制效果来讲,控制杆的效果最好;从顺流向振动最优抑制效果来讲,控制杆和分隔板的效果好,减振器的效果较弱。综合比较不同工况下各个间距和振动方向的最优抑制效果发现,控制杆的最优抑制效果最好,能够对并联立管横向和顺流向的振动起到很好的抑制效果。 相似文献
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涡激振动是造成海洋立管疲劳损伤的重要原因,如何抑制海洋立管的涡激振动一直是海洋工程中的热点和难点问题.海洋立管主动控制技术能根据多变的环境条件实时调整控制策略和参数,具有更好的适应性.文章研究了通过施加端部激励对海洋立管涡激振动进行抑制的主动控制技术.基于尾流振子模型来模拟尾流漩涡与结构之间的相互作用,结合有限差分法和龙格-库塔法求解立管振动方程.轴向力激励对涡激振动存在显著干扰,频率比较小时,轴向力激励能降低涡激振动位移;频率比远离共振频率时,立管振动呈宽频特性. 相似文献
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考虑流及波流联合作用,研究了套管的涡激非线性振动.将套管简化为梁模型,考虑3类不同的边界条件,计及莫里森非线性流体动力和涡激荷载,建立套管的涡激振动方程.应用克雷洛夫函数求解套管的固有频率和模态,采用了计算涡激非线性动力响应的迦辽金方法.以东海勘探3号钻井隔水套管为例,研究了不同边界条件下流引起的主共振和波流联合引起的组合共振.计算结果表明:流对套管的动力响应占主导地位,而波的影响不大.分析了3类不同边界条件下隔水套管的涡激非线性动力响应,揭示了波流联合激励下套管复杂的动力响应特性. 相似文献
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Under the actions of ocean currents and/or waves, deep-sea flexible risers are often subject to vortex-induced vibration (VIV). The VIV can lead to severe fatigue and structural safety issues caused by oscillatory periodic stress and large-amplitude displacement. As flexible risers have natural modes with lower frequency and higher density, a multimode VIV is likely to occur in risers under the action of ocean currents, which is considered as shear flow. To decrease the response level of the VIV of the riser actively, a multimode control approach that uses a bending moment at the top end of the riser via an LQR optimal controller is developed in this study. The dynamic equations of a flexible riser including the control bending moment in shear flow are established both in the time and state-space domains. The LQR controllers are then designed to optimize the objective function, which indicates the minimum cost of the riser's VIV response and control input energy based on the Riccati equation of the closed-loop system under the assumption that the lift coefficient distribution is constant. Finally, the VIV responses of both the original and closed-loop systems under different flow velocities are examined through numerical simulations. The results demonstrate that the designed active control approaches can effectively reduce the riser displacement/angle by approximately 71%–89% compared with that of the original system. Further, for multimode control, the presented mode-weighted control is more effective than the mode-averaged control; the decrease in displacement is approximately 1.13 times than that of the mode-averaged control. Owing to the increase in flow velocity as more and higher-order modes are excited, the VIV response of the original system decreases slightly while the frequency response gradually increases. For the closed-loop system, the response becomes smaller and more complicated, and the efficiency of the controller becomes lower at a certain flow velocity. 相似文献
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考虑流及波流联合作用,研究了套管的涡激非线性振动.将套管简化为梁模型,考虑3类不同的边界条件,计及莫里森非线性流体动力和涡激荷载,建立套管的涡激振动方程.应用克雷洛夫函数求解套管的固有频率和模态,采用了计算涡激非线性动力响应的迦辽金方法.以东海勘探3号钻井隔水套管为例,研究了不同边界条件下流引起的主共振和波流联合引起的组合共振.计算结果表明:流对套管的动力响应占主导地位,而波的影响不大.分析了3类不同边界条件下隔水套管的涡激非线性动力响应,揭示了波流联合激励下套管复杂的动力响应特性. 相似文献
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A method to identify vortex-induced forces and coefficients from measured strains of a Steel Catenary Riser (SCR) undergoing vessel motion-induced Vortex-induced Vibration (VIV) is proposed. Euler–Bernoulli beam vibration equations with time-varying tension is adopted to describe the out-of-plane VIV responses. Vortex-induced forces are reconstructed via inverse analysis method, and the Forgetting Factor Least Squares (FF-LS) method is employed to identify time-varying vortex-induced force coefficients, including excitation coefficients and added mass coefficients. The method is verified via a finite element analysis procedure in commercial software Orcaflex. The time-varying excitation coefficients and added mass coefficients of an SCR undergoing vessel motion-induced VIV are investigated. Results show that vessel motion-induced VIV is excited at the middle or lower part of the SCR and in the acceleration period of in-plane velocity, where most of the excitation coefficients are positive, while during the deceleration period, the excitation coefficients becomes too small to excite VIVs. Parameter γ [1] has strong correlation with excitation coefficients. In addition, time-varying tensions contribute significantly to the variations of added mass coefficients under the condition that the ratio of dynamic top tension to pretension exceeds the range of 0.7–1.3. Moreover, chaotic behaviors are observed in vortex-induced force coefficients and are more evident with the increase of vessel motion velocity. This behavior may attribute to the randomness existing in in-plane velocity and its coupling with out-of-plane vibrations. 相似文献