海底管道止屈器形式与设计方法研究概述

海底管道的屈曲传播特性对于其整体安全性是极其不利的,一旦发生屈曲传播,会使整个海底管道结构发生失效破坏,为了解决屈曲传播问题同时兼顾经济性的考虑,可以在海底管道上安装止屈器。通过对国外已有止屈器资料的广泛深入调研,首先对止屈器的主要形式进行了总结和对比分析,然后对止屈器的设计方法和流程进行了简要总结。为我国深水海底管道铺设过程中止屈器的选择和设计提供有益的参考。     

双整体式止屈器结构性能研究及优化设计

建立了双整体式止屈器结构的三维有限元模型,模拟其在外部静水压力作用下的屈曲穿越过程,总结不同穿越破坏模式的产生条件及机理。对影响穿越破坏压力的主要参数进行敏感性分析,结果表明止屈器布置间距、两个止屈器的几何尺寸均会对整体止屈性能产生影响。在拟合的双整体式止屈器效率公式的基础上,依据非线性有约束优化理论,分别采用经典算法和智能遗传算法确定模型最优解,提出了一种兼顾结构重量与止屈性能的最优双整体式止屈器结构型式;并经计算分析,验证了该方法的可靠性和适应性。     

整体式止屈器数值模拟方法与优化研究

海底管道是海洋石油主要的运输方式,但海底管道在外部静水压力作用下很可能发生局部屈曲压溃,造成灾难性后果。安装止屈器可有效阻止屈曲传播,保证管道安全,整体式止屈器在实际中应用最为广泛。整体式止屈器存在通过减小止屈器体积以节约成本进行优化的可能性,因此,在保证止屈器止屈效果的前提下,可通过减小止屈器的体积,以达到减轻重量、节约成本、减少安装难度等多种目的。研究过程中使用ABAQUS进行模型的仿真模拟,比较了广义弧长法的优缺点,决定选用更方便的静水流体单元法,计算得到不同止屈器的穿越压力以及相应的体积,对比各止屈器的穿越压力变化和体积变化,实现结构优化的目标。基于以上研究,可以得出减少止屈器体积的结构优化方案具有可行性的结论。     

Patran与Abaqus技术在海底管道屈曲分析中的应用研究

针对海底管道屈曲稳定性问题,应用Patran二次开发技术,提出海底管道屈曲分析的参数化自动建模方法,其中核心问题为在Patran中直接建立楔形体单元组成止屈器几何形状以及管道表面skin单元的创建等,生成Abaqus可识别的数据文件。通过算例分析,将计算结果与全尺寸试验和DNV-OS-F101规范进行对比,验证了方法的可靠性。     

带有柔性阻流器的海底管道冲刷防护试验研究

从管道尾流区泥沙颗粒的受力平衡着手,探讨了管道冲刷的临界压力差。在此基础上,提出了一种防止或减少管道冲刷的新方法,即在管道下方安装柔性阻流器。通过物理模型试验,研究了单向恒定流及规则波作用下,柔性阻流器对管道两侧床面压力、冲刷深度的影响。试验结果表明:柔性阻流器的安装能明显减小管道两侧床面的压力差。在单向恒定流作用下,管道的冲刷深度随阻流器长度的增加而减小;当阻流器达到临界长度时,冲刷消失。规则波时,因阻流器的扰动作用,冲刷深度有所增加;但随阻流器长度的增加,其扰动作用减小,对床面的防护作用增加,因而冲刷深度减小。     

海底管道完整性管理研究

海底管道完整性管理是指海底管道运营商持续地对管道潜在的风险因素进行识别和评价,并采取相应的风险控制对策,将管道运行的风险水平始终控制在合理和可接受的范围之内。管道完整性管理就是对影响管道完整性的各种潜在因素进行综合的、一体化的管理。目前,在我国,海底管道的完整性管理处于起步阶段,文中对当前海底管道完整性管理的基本理念、基本内容和基本技术等进行了研究。     

海底管道开沟机械的技术经济性能评定与选型

本文在对水下管道开沟机械的需求市场、实际应用和研制开发动向作深入调研的基础上，选择水下管道开沟机械特有的技术先进性、适用性、安全可靠性以及经济性评价指标，构造评价模型，对水下管道施工作业中广为应用的水力冲射开沟机械、海底管道犁、机械开沟机和土壤液化法埋管设备及其机型的技术经济性能作了较为详尽地分析对比及综合评价。在此基础上，笔者提出了水下管道开沟机械的一般选型原则和对我国海底管道开沟机械研究开发工     

海底管道的初始屈服研究

本文由ＶｏｎＭｉｓｅｓ屈服准则，建立了承受弯曲与外压联合作用下的海底输油（气）管道的初始屈服公式。公式中考虑了实际管道的初始椭圆率。对深水域管道的初始屈服强度作了数值预测。给出了各种参数对屈服强度的影响曲线     

杭州湾海底管道冲刷自埋演化过程初步研究

针对杭州湾海底管道的实际工程状况,使用声学探测技术对海底管道冲刷自埋演化过程进行了现场检测,验证了海底管道从初始敷设状态依次发展为孔道冲刷、部分掩埋、尾流冲刷、尾流冲刷平衡、再次孔道冲刷和回淤自埋状态的演化过程.采用数值模拟方法分析了海底管道自埋演化过程中的典型状态,结果表明:管道下方的渗流和天然微孔隙是孔道冲刷起动的...     

沟槽内海底管道的水动力特性研究

基于水力模型实验，引入相对沟形系数αｒ，获得了以αｒ为表征的相对水动力系数与ＫＣ数的关系；对于浅沟而言，这种关系较有规律性。根据所设计沟形的αｒ值和所选定的ＫＣ值，应用本文结果，可以方便地判断其力折减程度和掩护效果     

The cross-over mechanisms of integral buckle arrestors for offshore pipelines

Local buckling of submarine pipelines is unavoidable under extreme conditions and it can propagate along the pipeline. Thus, arrestors are installed in a periodic placement along the pipeline to limit the extent of catastrophic collapse between two adjacent arrestors. Generally, the integral buckle arrestors are crossed by two modes: the flattening mode and the flipping mode. This paper focuses on the cross-over mechanisms of arrestors by analyzing results from experiments and numerical simulations. Fifteen groups of full-scale and reduced-scale physical experiments are conducted to investigate the effect of local ovality of the downstream pipes on the arrestor performance. Furthermore, an extensive parametric study of cross-over modes of arrestors is performed by FE models to supplement the experimental results. It is found that the local ovality of the downstream pipes impacts the cross-over modes of integral buckle arrestors, which is more likely to deform by ovalization in the same sense as the local ovality. On the other hand, a new formula involving the major geometric and material characteristics of pipes and arrestors is proposed to estimate the flattening mode and the flipping mode of arrestors when the downstream pipes are intact. And the switch point of the two cross-over modes is 0.265.     

Experimental investigation on the wave-induced pore pressure around shallowly embedded pipelines

A series of regular wave experiments have been done in a large-scale wave flume to investigate the wave-induced pore pressure around the submarine shallowly embedded pipelines.The model pipelines are buried in three kinds of soils,including gravel,sand and silt with different burial depth.The input waves change with height and period.The results show that the amplitudes of wave-induced pore pressure increase as the wave period increase,and decay from the surface to the bottom of seabed.Higher pore pressures are recorded at the pipeline top and the lower pore pressures at the bottom,especially in the sand seabed.The normalized pressure around pipeline decreases as the relative water depth,burial depth or scattering parameters increase.For the silt seabed,the wavelet transform has been successfully used to analyze the signals of wave-induced pore pressure,and the oscillatory and residual pore pressure can be extracted by wavelet analysis.Higher oscillatory pressures are recorded at the bottom and the lower pressures at the top of the pipeline.However,higher residual pressures are recorded at the top and the lower pressures at the bottom of the pipeline.     

A modified numerical calculation method of collapse pressure for thick-walled offshore pipelines

Considering the shear deformation and thickness stretching of large deformation, a modified numerical calculation method based on the thick shell theory is established to determine the collapse pressure of thick-walled pipes. Verification experiments are conducted on ten pipe specimens in hyperbaric chambers. The good agreement between experimental results and numerical predictions shows the validity and reliability of the new numerical calculation method. Combining DNV specification, the characteristic collapse pressure is also calculated for comparison. The difference between experimental results and DNV calculations illustrates the latter one is much conservative in predicting collapse pressure for thick-walled pipes. Sensitivity analysis on manufacturing imperfections and material properties is investigated for pipes with different D/t ratios. Thick-walled pipes are easier to be affected by initial ovality, residual stress and hardening factor. Based on the stress distribution at the moment of collapse, a novel discovery is found that the collapse pressure of thick-walled pipes is dominated by material plastic behavior.     

Undrained stability analysis of trenches for buried submarine pipelines

Abstract

The stability of trenches for buried submarine pipelines (TBSPs) during excavation and/or prior to backfilling has not received enough attention in the literature. In this study, the undrained stability of TBSPs in horizontal and inclined seabeds with shear strengths increasing linearly with depth is investigated using the lower and upper bound finite element limit analysis (FELA). The surcharge due to excavated soils and trenching machines is reasonably considered. Extensive parametric studies are performed on the trench slope angle β, normalized width of trenching machine L/H, dimensionless strength gradient Hk/s_u0 and the volume ratio R (for inclined seabed only) of the excavated soil stacked on the upside and downside of trenches. The actual results are accurately bracketed by the computed upper and lower bound solutions. For the trench with horizontal seabeds, the maximum stability can be obtained under β?=?70°–80°. For inclined seabeds, the global stability of TBSPs roughly reaches peak value for different combinations of L/H and β when R?=?0.15–0.3.     

海底管道整体屈曲的枕木-浮力耦合法研究

不埋海底管道在高温高压作用下,易发生水平向整体屈曲。实际工程中,常通过在管道路由上设置整体屈曲触发装置,实现对水平向整体屈曲的有效控制,其中以枕木法的成功应用最为多见。本文分析了枕木法的主要影响因素并验证了采用枕木法会出现管道屈曲段应力集中的现象,对比了枕木法、分布浮力法和枕木-浮力耦合法对管道整体屈曲变形规律的影响,采用数值模拟方法系统研究了枕木及浮力参数对管道水平向屈曲和后屈曲的影响规律。研究表明,在枕木两侧设置浮力段的人工触发装置可有效触发管道整体屈曲,同时促使管道虚拟锚固点间轴力的释放,降低了管道中屈曲段的应力,相较枕木法,枕木-浮力耦合法可将管道中的最大应力降低23%。     

海底管线表面压力分布的理论分析

为了获取海底管线表面压力变化特征,基于固体边界层基本方程,利用摄动方法推导了管线表面压力分布解析式,并利用物理模型试验数据对理论公式进行了检验。经对公式系数做出适当调整,压力系数的计算公式能反映出边界层分离点前后的分布规律。