钢悬链式立管涡激振动疲劳损伤参数分析

针对钢悬链式立管的结构特性,采用了简化后的振动模型。先对立管进行了模态分析;再根据立管的模态特性结合环境水流参数,采用模态叠加法对立管进行了涡激振动疲劳损伤分析。分析过程中,通过改变流速大小、立管壁厚、立管外径、内部介质以及抑制立管涡激振动的螺旋列板长度等参数,对立管的涡激振动疲劳损伤进行了相应的参数分析。结果表明:立管疲劳损伤随水流速度的增大、立管外径的增大以及内部介质密度的降低呈现上升趋势,但是壁厚变化对立管疲劳损伤大小影响却不显著。     

表面粗糙度对立管涡激振动响应影响的试验研究

应用模型试验的方法,研究了表面粗糙度对立管涡激振动响应特性的影响规律,对不同粗糙度条件下立管所受拖曳力、升力、端部张力、漩涡泄放频率、结构振动响应频率、位移响应等参数的变化规律进行了对比分析。结果表明:与立管横向振动相比,立管流向振动更早出现锁定现象,因此当折合速度较低时,立管流向振动的涡激振动响应要大于横向振动。立管张力均存在两个峰值频率,其中一个峰值频率为主导频率,与拖曳力主导频率吻合,由流向涡激振动所产生;另一个峰值频率为主导频率的一半,与升力主导频率吻合,由横向涡激振动所产生。因此可以看出:横向涡激振动与流向涡激振动通过张力作用而相互影响。与光滑立管相比,表面粗糙度降低了立管的涡激振动位移响应,减小了涡激振动的锁定区域,但提高了漩涡泄放频率。对于不同粗糙度下的粗糙立管,随着粗糙度的增加,立管的锁定区域开始点逐渐提前,锁定结束点逐渐推迟,锁定区域逐渐变宽。     

表面粗糙度对立管涡激振动响应影响的试验研究

应用模型试验的方法,研究了表面粗糙度对立管涡激振动响应特性的影响规律,对不同粗糙度条件下立管所受拖曳力、升力、端部张力、漩涡泄放频率、结构振动响应频率、位移响应等参数的变化规律进行了对比分析。结果表明：与立管横向振动相比,立管流向振动更早出现锁定现象,因此当折合速度较低时,立管流向振动的涡激振动响应要大于横向振动。立管张力均存在两个峰值频率,其中一个峰值频率为主导频率,与拖曳力主导频率吻合,由流向涡激振动所产生;另一个峰值频率为主导频率的一半,与升力主导频率吻合,由横向涡激振动所产生。因此可以看出：横向涡激振动与流向涡激振动通过张力作用而相互影响。与光滑立管相比,表面粗糙度降低了立管的涡激振动位移响应,减小了涡激振动的锁定区域,但提高了漩涡泄放频率。对于不同粗糙度下的粗糙立管,随着粗糙度的增加,立管的锁定区域开始点逐渐提前,锁定结束点逐渐推迟,锁定区域逐渐变宽。     

剪切流作用下立管涡激响应的研究

为研究剪切流作用下立管的涡激振动问题,文章建立了三维立管的涡激动力响应方程,顺流方向的力通过Morison方程求解;横向涡激力采用改进的尾流阵子模型求解,考虑了附加质量的变化;轴向力的计算考虑平台升沉运动的影响。采用有限单元法离散控制方程,离散后的方程采用Newmark-β法在时域求解。在此基础上,研究了剪切流作用下立管的多模态涡激振动响应,讨论了剪切参数对立管涡激动力响应的影响,并比较了均匀流和剪切流条件下立管不同的响应特征。结果表明,剪切参数对立管的涡激响应动力响应有很大的影响,剪切流条件下立管呈现的多模态响应极为复杂,与均匀来流条件下的振幅和频率响应特点明显不同。     

顶张力对深水刚性立管涡激振动及疲劳损伤的影响

分析讨论顶张力对深水刚性立管在剪切流中的涡激振动响应和疲劳损伤的影响。从理论上分析张力对刚性立管固有特性的影响,并利用OrcaFlex软件建立数值模型,模拟不同顶张力系数下立管于剪切流中的涡激振动响应,同时采用S-N曲线法计算立管疲劳损伤。结果表明,顶张力对立管的影响直接体现在刚度上,立管刚度随着张力的增大而增大,因此顶张力对降低立管疲劳损伤有一定积极作用。但是随着顶张力的增大,其对降低疲劳损伤的贡献越来越小,而对立管强度储备的危害却逐渐增大。     

轴向板条对海洋立管涡激振动抑振的数值研究

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。     

深海立管参激振动研究综述

由于浮式平台升沉运动的影响,导致立管在水平方向上发生参激振动。参激振动可以引起立管平衡位置的不稳定性,此外,参激振动与涡激振动联合作用会改变立管振动响应特性,加剧立管疲劳破坏。为对深海立管参激振动进行深入研究,通过总结国内外立管参激振动研究的主要成果,介绍了立管参激振动的主要特点和动力学模型,归纳了深海立管参激振动研究的主要方向,并就研究中较为薄弱的一些环节,提出了一些建议。     

柔性管异形表面结构对其涡激振动影响的数值研究

涡激振动（VIV）是导致海洋立管疲劳破坏的主要诱因,因此,抑制振动是立管设计需关注的重要内容。本文通过运用双向流-固耦合数值计算方法,开展翼型管、纹理管与光滑管的涡激振动响应特性的对比研究,探讨扰流翼板与表面纹理等异形表面结构对涡激振动被动抑制的有效性。计算结果表明：异形表面结构能够有效降低柔性管体的振动响应,缩短锁振区间,并且影响尾流区泄涡发放模式,减小管体流体力系数,起到明显抑制管体涡激振动的作用,且在较高的速度工况下,这种抑制效果更加显著。该研究可为采用被动式振动抑制的翼型管和纹理管等异形结构的海洋立管设计提供一定的理论参考。     

基于切片法的立管双自由度涡激振动响应研究

基于切片法自研程序,建立流体域和立管结构双向耦合的准三维数值模型,研究不同长细比和流速下立管双自由度涡激振动特性。结果表明：虽然立管上各切片质心运动“8”字型轨迹形状不同,但是都限制在一定范围内。长细比和流速的增大使得立管振动模态增大,振动响应由低阶驻波向高阶行波转变,但在横流向出现特殊现象,立管底端为明显的驻波而立管中间部分为明显的行波。此外,与顺流向相比,横流向振幅在立管轴向分布不均匀,底端的振幅较大。长细比变化对立管主控频率的影响很小,但是流速变化对该频率的影响明显。     

基于HHT方法的柔性立管涡激振动特性分析研究

本文针对试验中的柔性立管涡激振动响应特性问题,使用HHT方法进行分析。首先,将试验中获得的应变时历转化为位移时历,并进行EMD分解,分析确认分解结果的正确性。然后,根据分解结果,统计分析立管涡激振动模态数与流速的关系。之后,使用HHT方法分析立管涡激振动的频率响应特性,获得确认立管振动阶数的方法,在试验中发现“倍频”现象,并总结“倍频”现象分布的流速区间。最终,通过观察立管振动位移的时空分布,获得立管振动的阶数,发现了振型的不对称特性,并分析其导致模态混淆的原因,同时观察到立管振动模态的激励发展过程,并最终总结了不同流速下立管响应模态阶数及对应频率。     

Mechanical model and characteristics of deep-water drilling riser-wellhead system under internal solitary waves

Internal solitary waves with a huge amount of energy easily trigger the large dynamic responses of riser-wellhead system and threaten its structural safety. However, previous studies have only focused on the dynamic response of the riser under internal solitary waves. The riser may experience excessive traction from the platform, especially from the mooring platform, in response to the arrival of internal solitary waves. The bottom of the riser connects to the wellhead system, which in turn exerts a reaction force on the riser. To address this problem, a coupled dynamic model of deep-water drilling mooring platform-riser-wellhead system under internal solitary waves is developed in this paper. A dynamic response analysis method based on the fourth-order Runge-Kutta method and finite element method is also proposed for the mooring platform-riser-wellhead system. A dynamical solver for the coupled system is then developed using MATLAB. The dynamic response characteristics of the riser-wellhead system under internal solitary waves are calculated. Results show that the displacement and bending moment of the system initially increases and then decreases along with the propagation of internal solitary waves, and finally reach equilibrium position. The displacement and bending moment reach their peak before the trough of internal solitary waves passes through the riser-wellhead system. The dynamic responses of the riser-wellhead system under the influence of internal solitary wave loads are much larger than those without the effect of internal solitary wave loads. The riser system experiences shearing loads at the interface of internal solitary waves, which trigger a step-like bending moment variation. The bending moment of the conductor under the mudline is greatly increased by the internal solitary waves.     

张紧器的结构参数对顶张式立管动力响应的影响研究

本文针对带液压气动式张紧器的顶张式立管,综合考虑浮式平台-张紧器-立管之间的运动关系、液压气柱的张力-冲程非线性关系、立管的真实截面布置以及采油树的作用,建立更加符合工程实际的三维有限元分析模型,并通过与实验结果对比验证了该模型的正确性。基于该有限元模型,研究了张紧器的结构参数对顶张式立管动力响应的影响。结果表明:活塞和活塞杆的直径以及高压气体的初始压强对立管的动力响应影响最大;低压气体的初始压强以及液压气柱和立管之间的夹角对立管的动力响应也有重要影响;在相同的环境条件下,高压气体和低压气体的初始体积对立管的动力响应的影响较小。     

计及海底井口影响的隔水管涡激振动响应特性试验

在靠近海底井口位置,隔水管周围流场受井口系统的影响发生变化,流固耦合下涡激振动可能诱发隔水管在横流向(CF方向)更为剧烈的振动。为了研究受管土装置影响的隔水管涡激振动响应特性,使用自主设计的管土装置模拟海底井口,采用8 m柔性立管,进行了均匀流下单管和受管土装置影响的涡激振动对比试验。试验通过FBG光纤应变片测得应变信息,使用模态叠加法、FFT变换处理分析试验数据,对比分析2组隔水管的主导频率、应变时历与幅值谱、无因次振幅以及激励力系数等参数沿管径的分布情况。结果发现管土装置影响下,隔水管主导频率减小;CF方向涡激振动增大,振幅沿径向呈非对称特征;涡激振动振幅更大,隔水管受流场的激励与阻尼更为剧烈。     

深水钻井立管建模与角度安全控制

从水面钻井平台与水下立管联合作业的安全角度出发，提出一种将钻井立管的力学响应限制特性引入水面平台动力定位闭环控制中的位置保持方法，实现水面钻井平台（或船舶）基于立管角度响应的动态定位。利用有限元方法建立包括立管系统质量、系统刚度、结构阻尼和水动力载荷在内的立管运动控制模型。联合水面浮体和水下立管的低频运动特性建立水面浮体运动偏移与水下立管顶端角度及末端角度的相对运动关系模型。在此基础上，设计基于立管运行响应的动力定位控位方法，实现对立管顶端角度及末端角度的安全控制。仿真结果表明，所提出的方法可行，在外界突变的环境载荷瞬时作用于水面浮体时，能更快地跟踪新的期望最优位置，保证钻井立管运行在安全界限内。     

水下压缩空气储能系统柔性立管响应特性分析（英文）

With the rapid development of marine renewable energy technologies, the demand to mitigate the fluctuation of variable generators with energy storage technologies continues to increase. Offshore compressed air energy storage(OCAES) is a novel flexible-scale energy storage technology that is suitable for marine renewable energy storage in coastal cities, islands, offshore platforms, and offshore renewable energy farms. For deep-water applications, a marine riser is necessary for connecting floating platforms and subsea systems. Thus, the response characteristics of marine risers are of great importance for the stability and safety of the entire OCAES system. In this study, numerical models of two kinds of flexible risers, namely, catenary riser and lazy wave riser, are established in OrcaFlex software. The static and dynamic characteristics of the catenary and the lazy wave risers are analyzed under different environment conditions and internal pressure levels. A sensitivity analysis of the main parameters affecting the lazy wave riser is also conducted. Results show that the structure of the lazy wave riser is more complex than the catenary riser; nevertheless, the former presents better response performance.     

Riser-soil interaction model effects on the dynamic behavior of a steel catenary riser

A mathematical model employed to analyze the global dynamics of a Steel Catenary Riser (SCR) taking into account the interaction with the seafloor and the effect of the soil reaction forces is established. The choice of soil model plays an important role for the dynamic behavior of SCRs. The riser has been modeled using flexible beam with large curvature and elastic foundation beam to describe the riser-soil interaction by means of realistic nonlinear load-deflection (P–y) curves. The study is made to improve an existing finite element numerical code for dynamic analysis of mooring lines and risers, known as CABLE 3D, which is based on a slender rod assumption. Effects of nonlinear seabed model on the dynamic behavior of SCRs under vessel cyclic perturbation have further been investigated and discussed using a realistic P–y curve to simulate soil deformation and resistance forces. The interaction model depends on several factors, such as soil strength, penetration depth and riser characteristics. The dynamic responses of the riser Touchdown Point (TDP) excited by vessel periodic heave motion are studied and the results are compared with those from the linear spring model. SCR has been perturbed by 10 regular sinusoidal cycles and the responses calculated by improved code show a number of features such as suction force mobilization, gradual increasing penetration depth, and gradual reduction of soil resistance at maximum penetration. The riser behavior at the touchdown zone (TDZ) depends on the riser top motion amplitude, nonlinear soil stiffness and suction force. The impact of the riser-soil interaction model on the dynamic behavior in the TDZ has been thoroughly studied in this paper.     

考虑平台作用的顶张式立管动力分析

上层浮式平台的运动幅度比固定式平台大,对立管的影响更明显.为了解平台对顶张式立管动力的影响,提出一种动力分析方法.在一定的条件下建立立管的数学模型,采用软件Tube2D对平台和立管进行动力响应和弯曲应力分析,得到考虑平台作用的立管扶正器布置间距参数的敏感性和立管弯曲应力的变化.结果表明:对于考虑平台作用的立管模型而言,内套管与油管在立管上部更容易发生碰撞,从避碰的角度考虑,应适当减小立管上部扶正器的布置间距;各层立管的弯曲应力按弯曲刚度之比分配的结果与实际计算结果不符,应根据耦合立管模型的计算结果对各层立管进行强度校核.     

柔性立管阻力特性试验数据处理技术

本文提出3种数据处理方法分析均匀来流中柔性立管的初始阻力特性。首先通过分析柔性立管在均匀来流中的变形及振动情况,分离出立管流向的初始变形对应的弯曲应变。根据复杂梁的弯曲变形理论,建立起弯曲应变与平均阻力之间的微分方程。随后,针对试验中获取的立管轴向力及立管表面弯曲应变,提出计算平均阻力的数据处理方法,并进行算例验证与分析。最终使用提出的数据处理方法分析试验数据,得到立管表面各截面处的阻力分布。     

Characteristics of VIV in multi-degree-of-freedom tensioned beams using a numerical method

The object of this study is to analyze the characteristics of vortex-induced vibration of a slender marine structure with the numerical method. Applying a dynamic analysis method for a slender marine structure based on the 3D finite difference method, we carried out case studies for a tensioned beam model at a constant flow speed. The hydrodynamic forces, in the direction of inline and cross-flow, created by vortex shedding are simultaneously considered based on Morison equation. The frequency of force in the inline direction corresponding to the unstable zone is evaluated. An eigenvalue analysis for different flow speeds of a tensioned beam considering the effect of the tension increase due to the inline and cross-flow drag forces is performed. We found that a revision of the eigenvalue should be considered if the tension along a riser or beam is significantly affected by an environmental or functional load. From a trajectory on the XY plane it was shown that the riser did not move in an exact 8 shape for all flow conditions due to the phase angle difference between inline and cross-flow displacement. It is believed that the phase angles between inline and cross-flow displacements in high modes are different among the nodes.     

平台运动下悬链线立管涡激振动响应特性分析

悬链线立管会在半潜平台运动带动下出现涡激振动现象,对立管疲劳寿命造成影响.借助海工结构物动力分析软件Orcaflex建立立管模型,使用Iwan-Blevins尾流振子模型进行数值模拟.通过与试验结果对比验证了该方法的可行性.同时建立实尺度悬链线立管模型,并考虑背景海流的影响,分析平台垂荡、纵荡运动下的立管涡激振动响应和疲劳损伤.研究表明,平台运动产生的非定常流场将引起悬链线立管发生涡激振动现象,并在背景洋流激励的基础上增大疲劳损伤,在立管结构实际工程设计时应予以关注.