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海底管道是海上油气生产的重要设施,而管道悬空是影响其安全运作的主要因素之一。根据海底管道复勘资料,利用ArcGIS对埕岛油田海底管道的在位状态以及分布情况进行分析,重点统计分析了管道悬空特征和悬空规律,并分析了海底管道悬空的原因以及影响因素。结果表明,悬空管道占总调查管道总长度的4.03%,主要分布在水深为5~15 m范围内的三角洲前缘斜坡上。近90%悬空管段的长度<60 m,其中以10~20 m最为常见。超过90%悬空管段的悬空高度<1 m,其中以0.2~0.4 m最为常见。研究区海底管道悬空的主要原因为海床冲刷,其影响因素主要包括沉积物特征、地形地貌以及海洋动力条件。 相似文献
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海底管线是海洋油气输运系统的重要组成成分,其稳定性和安全性尤为重要。通过有限元软件ABAQUS,应用Mohr-Coulomb模型,模拟海底裸置与埋置管线自沉过程。通过平衡初始地应力,设置管土接触,考虑重力和浮力作用,进行土体固结分析,计算裸置与埋置管线的土体与管线竖直位移,并进行管线悬跨研究。计算结果显示,对于裸置管线,参数的改变使土体更容易发生塑性屈服,土体的竖直位移量更大;对于埋置管线,当管线埋深较浅、管线上方土体重量不大时,参数的改变使管线平均密度与周围土体密度相差越大土体越容易发生塑性屈服,土体的竖直位移量越大。当管线悬空时,悬跨长度过大易使管线两端支撑土体被压溃,管线易产生大变形而失稳,因此在管线安装与维护过程中,一定要采取措施降低悬跨长度,保证管线运营安全。 相似文献
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海底管道悬空防护与治理措施浅谈 总被引:2,自引:2,他引:0
为了治理一直困扰茂名30万t单点码头的海底管道悬空问题,首先分析了海底管道埋藏状态的识别方法,对国内外海底管线各种悬空治理措施的优缺点和适宜海域进行汇总。在对茂名30万t单点码头海底管道开展了多次路由调查的基础上,针对悬空路段,分别采用人工海草、沉排、碎石回填等不同的防护措施。结果表明,人工海草确实具有明显的降低流速和促进泥沙淤积的功能,但潜水员水下作业工作量较大,不宜在水深大于40 m的海域进行,应避开拖网捕捞海域。水泥沉排在水下较稳定,可有效保护海底管线免受外来损害,但是回淤促淤缓慢。当海床承载力足够时,采用碎石回填办法进行海管维护比较有效,冲刷坑填埋充实,可广泛用于修正悬空。 相似文献
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根据悬空海底管线治理后的水下结构特点,主要可分为非透空式和透空式两类,其在侧扫声呐探测图像上有着各自不同的反射特征,据此原理可采用侧扫声呐探测方法进行悬空海管治理效果的检测与评估。通过对实际工程中不同治理方式下悬空海管的声呐探测图谱进行总结与分析,揭示了采用侧扫声呐进行悬空海管治理检测的声学解译方法及应用效果。悬空海管在治理前,管线下方与海底面之间的空隙反映到声呐图谱上,表现为管线强反射与声学阴影区之间存在海底面透空反射。如果采用"拋填砂袋结合覆盖层"等非透空式方法治理,由于空隙被填充,声呐图谱上的透空反射会消失,且管线强反射图像会粗化,呈现颗粒状;如果采用"水下短桩支撑"等透空式方法治理,在声呐图谱上只是增加了水下短桩的反射特征,而声学透空反射仍然存在。 相似文献
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海底管线作为海洋工程的重要组成部分,其安全性受到广泛关注。本文简单回顾了国内外学者通过物理实验、理论分析与数值模拟等方法研究海底管线冲刷悬空及防护问题的成果,并对工程中应用较广泛的防护方法的优缺点进行了简单对比,为该领域的进一步研究提供参考。 相似文献
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我国近海海底有超过3 000km的输油气管线,定期对海底输油气管线进行检测是保障海底输油气管线安全和海洋环境安全的重要手段。为保护海洋环境和海底油气管线安全,对广东近海某段海底输油气管线进行了安全检测,采用浅层剖面测量、侧扫声呐测量和多波束测量手段,对管线路由区域进行了勘测。勘测结果表明:检测区域油气管线路由没有裸露和悬空,路由周边地层较稳定,根据侧扫声呐和多波束测量结果,发现在路由区海底存在影响管道安全的因素,路由区海底拖锚等痕迹较多,距离路由大约950m处有人工采沙坑存在。建议相关部门对该区域应加以重视,加大海上巡逻执法力度,加强宣传工作,增强大众的海底管道保护意识。 相似文献
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Analysis of Dynamic Characteristics of Submarine Free Spanning Pipelines by Complex Damping Method 总被引:2,自引:0,他引:2
Considering the effect of the internal flowing fluid and the external marine environmental condition, the differential equation for the vortex-induced vibration (V1V) of the free spanning pipeline is derived and is discretized by the Hermit interpolation function. The free vibration equation with the damping term is solved by the complex damping method for the natural frequency, and then the effect of fluid damping on the natural frequency of the free spanning pipeline is analyzed.The results show that fluid damping has a significant influence on the damped natural frequency of the free spanning pipeline in the lock-in state, while it has little influence when the pipeline is out of the lock-in state. In the meantime,the change of the free span length has the same effect on the damped natural frequency and the undamped natural frequency. 相似文献
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Study on Model Tests and Hydrodynamic Force Models for Free Spanning Submarine Pipelines Subjected to Earthquakes 总被引:1,自引:0,他引:1
A test rig is built to model the dynamic response of submarine pipelines with an underwater shaking table in the State Key Laboratory of Coastal and Offshore Engineering, Dalian University of Technology, China. Model tests are carried out to consider the effects of exciting wave directions and types. Based on the experimental results, two hydrodynamic force models derived from Morison equation and Wake model are presented respectively. By use of hydrodynamic force models suitable for free spanning submarine pipelines under earthquakes, discretized equations of motion are obtained and finite element models are established to analyze dynamic response of free spanning submarine pipeline subjected to multi-support seismic excitations. The comparison of numerical results with experimental results shows that the improved Morison and Wake hydrodynamic force models could satisfactorily predict dynamic response on the free spanning submarine pipelines subjected to earthquakes. 相似文献
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1 .IntroductionRecently, more and more importance is attached to the development of offshore oil and gas alloverthe world and many submarine pipelines have been laid.Submarine pipelines are the lifeline ofthe transportation of offshore oil and gas .Submar… 相似文献
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Seismic load has a significant effect on the response of a free spanning submarine pipeline when the pipeline is con-structed in a seismically active region. The model experiment is performed on an underwater shaking tahle to simulate the response of submarine pipelines under dynamic input. In consideration of the effects of the terrestrial and submarine pipeline , water depth, support condition, distance from seabed, empty and full pipeline, and span on dynamic response, 120 groups of experiments are conducted. Affecting factors are analyzed and conclusions are drawn for reference. For the con-trol of dynamic response, the span of a submarine pipeline is by far more important than the other factors. Meanwhile, the rosponse difference between a submarine pipeline under sine excitation and that under random excitation exists in ex-periments. 相似文献
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Free spanning pipelines are suspended between two points on an uneven seaffoor. The variations of structural conditions, such as the changes in soil property, flow velocity, axial force and span length etc., directly affect working performance of the whole submarine pipeline system. But until now few researches have focused on condition identification for free span (CIFS). A method to identify the operational conditions of free spanning submarine pipelines based on vibration measurements is proposed in this paper. Firstly, the ill-posedness of CIFS is analyzed in detail. Secondly, the framework for CIFS based on the nonlinear kernel discriminant analysis (KDA) is established. Thirdly, the internal structural characteristics of natural frequencies, normalized frequencies and frequency change ratios are studied. And then the condition feature vector for CIFS is extracted by use of the vibration measurements. Finally, the validity of the proposed approach is evaluated by a case study. The results demonstrate that the proposed approach can effectively identify each condition of free span when condition variation occurs even if under measurement noise. It is concluded that the proposed method is a promising tool for CIFS in real applications. 相似文献
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Pipeline spans may occur due to natural seabed irregularities or local scour of bed sediment. The pure in-line (IL) vortex-induced vibrations (VIV) analysis of the free spans is an important subject for design of pipeline in uneven seabed. The main objective of this paper is to analyze the characteristics of pure IL VIV of a free spanning pipeline under general boundary conditions. An IL wake oscillator model which can describe the coupling of pipeline structure and fluctuating drag is introduced and employed. The coupled partial differential equations of structure and wake are transformed into a set of ordinary differential equations using two-mode Galerkin method. Some case studies are presented and thoroughly discussed in order to investigate the effects of internal fluid, axial force and boundary conditions on the pure IL VIV. 相似文献
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近壁圆柱绕流问题在海底悬跨管道的研究中具有重要的意义。在绕流阻力、升力以及海底土壤的耦合作用下,海底管道所发生的移位、悬跨等现象对于海底管道的安全运行构成了很大的威胁。正确预测各种绕流条件下管流之间的作用力是保证油气管道安全的首要任务。海底管道在极端海洋环境条件下的管、流相互作用为高雷诺数绕流问题,处于高雷诺数下的绕流模拟比处于低雷诺数下的绕流模拟要复杂很多,它需要更精细的网格以及合适的湍流模型。此文对处于悬跨状态下的海底管道进行数值研究,给出不同间隙比下海流绕流海底管道的流场结构形态,分析了间隙比对绕流阻力和绕流升力的影响,为进一步研究海底悬跨管道的受力和变形提供载荷边界数据。 相似文献
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海底管道敷设过程中产生的悬浮泥沙会对工程海域的水质和海洋生物造成影响.建立了2D悬浮泥沙输移模型,结合水动力模型,对舟山市临城至虾峙岛、六横岛输配水工程中海底管线敷设引起的悬浮泥沙的输移规律进行模拟研究,预测悬浮泥沙的影响程度和范围,为海洋环境影响评价提供依据.计算结果表明:1号工段管道敷设对海水水质影响最大,2号工段... 相似文献