深海平台系缆形状和张力分析   总被引：1，自引：0，他引：1  

唐友刚  易丛  张素侠 《海洋工程》2007,25(2):9-14

考虑海底地形的变化、系缆的拉伸形变及海流力等因素,研究了深海平台系缆形状和张力分析方法采用集中质量法,得到系缆方程组,采用牛顿法求解该非线性系缆方程组,建立系缆形状和张力的计算方法。计算了平坦海底和海底地形凹凸变化时水深1 018 m情况下的系缆形状、系泊张力和浮体平衡位置。计算结果表明,海底地形对于深海系泊系统张力影响较大,而计算系缆形状和张力、系泊浮体的运动时,需要考虑海底地形的影响。  相似文献   

新型深海系泊系统及数值分析技术   总被引：7，自引：1，他引：7  

刘海笑  黄泽伟 《海洋技术学报》2007,26(2):6-10

随着海洋油气资源开发逐渐向深海转移,传统的悬链式系泊系统在技术和经济上遇到难以逾越的障碍。作为一种新型的适用于深水和超深水环境的系泊系统,绷紧索系泊系统面临广阔的应用前景。文章对这种新型系泊系统的发展情况进行了介绍,基于有限元数值分析技术,对系泊系统的两个关键特性,即系缆的绷紧-松弛特性以及纤维系缆的动刚度特性进行了分析和处理,通过算例考察了深海平台运动引起的系缆力响应。  相似文献   

深海系泊系统动张力有限元计算     

唐友刚  张若瑜  刘利琴  胡楠 《海洋工程》2009,27(4)

考虑深海聚酯尼龙系泊缆的拉伸和弯曲变形,取正交坐标和切向量描述任意结点的6个广义位移,缆变形的几何非线性,基于细长杆理论推导缆索单元的刚度矩阵和质量矩阵,得到12×12的非线性单元特性矩阵,利用有限元软件计算系泊系统的动张力.针对水深1 800 m由12根缆定位的Spar平台,考虑水流对系泊系统的作用,计算了不同外激励下的系缆动张力,讨论了激励频率对系缆张力的影响.结果表明,建立的缆索单元特性矩阵可以较好模拟深海聚酯缆的力学性能,并且得到的深海系泊缆动张力变化规律和力学特性是合理的.  相似文献   

规则波中铰接塔-油轮系统的动力响应分析     

唐友刚  左建立  易丛 《海洋技术学报》2006,25(2):48-51

论文研究铰接系泊塔-油轮系统波流联合作用下的动力响应。考虑铰接塔-油轮单点系泊系统系缆刚度的非线性,将尼龙系缆处理为分段非线性刚度模型,采用M orison公式计算铰接塔的波浪载荷,采用线性波浪绕射理论计算波浪对油轮的作用,建立了两自由度耦合的分段非线性运动微分方程。计算了高177 m的铰接系泊塔和93 500 t油轮构成的FPSO系统的耦合动力响应,并讨论了系统运动对于系缆张力的影响。  相似文献   

深海半潜式平台与系泊系统动力耦合的边界约束效应研究     

范星宇  杜君峰  刘勇 《中国海洋大学学报(自然科学版)》2018,(12)

深海浮式平台与其系泊系统的耦合作用显著,在数值分析中,需要合理确定二者耦合边界的模拟方法。本文以深水半潜式钻井平台及其系泊系统为研究对象,将浮体与系泊之间复杂的连接边界简化为固接、铰接和弹簧连接三种边界约束模型,提出了弹簧连接中相关参数的确定方法,并将不同边界约束下系缆张力的计算结果与模型试验数据进行对比验证。通过算例分析,探讨不同边界约束对平台运动、系缆张力及其疲劳损伤的影响,给出设计分析的选择建议。  相似文献   

深海SPAR平台系泊系统耦合动力分析     

高喜峰  张则青  阴宾宾 《海洋技术学报》2010,29(1)

随着海洋石油向深水领域的拓展,SPAR平台以其诸多优点逐渐成为海上油气生产的主流设施。主要研究SPAR与系泊系统间的耦合响应问题,在讨论了浮体在波浪中运动求解方法之后,阐述了如何利用非线性有限元技术对系泊缆索和立管进行动力分析和张力计算,以及浮体与系泊系统耦合计算的相关理论,对浮体和系泊系统耦合计算模型进行了描述。通过对某SPAR进行系泊系统耦合计算和对计算结果的讨论,证明了深海SPAR系泊系统耦合计算的正确性。  相似文献   

新型深水系缆非线性动力特性研究进展   总被引：1，自引：0，他引：1  

黄维  刘海笑 《海洋工程》2009,27(4)

随着海洋油气资源开采逐渐向深海发展,新型绷紧式系泊系统正替代传统悬链式系泊系统广泛应用于深水平台的系泊中.作为一种采用合成纤维材料系缆的新型系泊系统,系缆复杂的力学特性是其工程应用需要首先认识并解决的关键技术问题.介绍了在复杂海洋环境条件下合成纤维系缆的非线性动力特性,包括动刚度、绷紧-松弛、蠕变、应力松弛以及疲劳破坏等特性,总结和评述了针对这些特性开展的国内外相关研究,也对今后需要继续深化的研究进行了展望,以期为国内在此方向开展的数值模拟和实验研究提供重要参考.  相似文献   

深海采矿旁靠外输双船耦合动力响应分析          下载免费PDF全文

冯士伦  陈泽宇  李焱  唐友刚 《海洋技术学报》2023,(5):110-120

随着人口不断上升,人类对资源的需求与日俱增,对陆地资源的开采已经无法满足人类的需求,人们把目光转向了蕴藏丰富矿产资源、生物资源和能源动力资源的海洋。本文针对水深6 000 m海域矿藏开采,采矿船和运输船旁靠外输矿浆,研究双船系统的耦合动力响应。深海采矿船具有动力定位系统,通过系缆连接运输船实施矿浆外输。本文基于双船连接系缆、护舷及双船间隙设置阻尼盖,建立双船耦合动力学模型。考虑不同浪向对动力定位系统进行参数整定和动力定位系统推力优化,计算双船耦合时域运动响应。结果表明：外输过程双船间隙设置阻尼盖建立双船耦合模型是可行的,深海定位系统的参数整定以位移矢量最小和推力功率最小可以实现推力优化,采矿船动力定位系统可以有效控制双船运动,系缆和护舷强度满足要求。  相似文献   

聚酯系缆损伤对绷紧式系泊系统动力响应影响的数值分析     

崔华  刘海笑  连宇顺 《海洋工程》2016,34(4):71-79

由于聚酯缆绳具备优异的力学性能,促使以其为主体系缆的绷紧式系泊系统得以广泛应用和发展。但聚酯系缆具有复杂的黏弹性和黏塑性,且由于在安装和使用过程中可能产生不同程度的损伤,使得聚酯系缆的动刚度特性发生演变,从而对系泊系统的动力响应产生直接影响。以一系泊于1 020 m水深的Spar平台为例,运用ABAQUS软件建立了由聚酯缆绳组成的系泊系统有限元模型,并利用ABAQUS子程序将损伤缆绳动刚度经验公式进行导入计算,以更好地反映系缆真实的动刚度变化。基于该有限元模型,计算了在相同水流、波浪工况下,不同损伤度、不同损伤系缆的系缆张力历程和平台的横荡、纵荡位移响应,分析了不同损伤度、不同损伤系缆对系缆张力及平台位移的影响。这些成果对把握绷紧式系泊系统在聚酯系缆有损伤情况下的非线性动力响应及其安全应用具有重要的参考价值。  相似文献   

新型深水系泊系统非线性循环动力分析     

黄维  刘海笑 《海洋工程》2010,28(2)

深水绷紧式系泊系统以合成纤维材料系缆作为主体系缆,由于系缆复杂的力学特性以及绷紧式系泊方式的特点,在设计、分析和工程应用中会带来新的有待深入认识的问题。以一系泊浮体的动力响应分析为例,考察了循环载荷作用下纤维系缆的动刚度特性,比较了悬链式系泊与绷紧式系泊动力响应的特点。分析表明,绷紧式系泊具有优良的系泊性能,但同时会发生复杂的张力响应。这些认识对于绷紧式系泊系统的研发和工程应用具有重要的参考价值。  相似文献   

深水半潜式平台系泊系统动力特性研究   总被引：3，自引：0，他引：3  

苏一华  杨建民  肖龙飞 《海洋工程》2009,27(1):1-14

探讨张紧式系泊系统的基本特征,比较张紧式和悬链线式系泊半潜平台运动和动力响应特性,分析拖曳力系数变化对张紧式和悬链线式系泊动力效应的影响,以及张紧式和悬链线式系泊缆节点运动特点,从而为改善半潜平台系泊系统动力效应提供参考.  相似文献   

Fundamental analysis of deep sea mooring line in static equilibrium     

Yoji Ogawa 《Applied Ocean Research》1984,6(3):140-147

The integrated equations of deep sea mooring lines in static equilibrium under consideration of gravity force and line elongation are obtained. The most useful forms of the equations for designing deep sea mooring system are those in which horizontal displacement and horizontal and vertical components of tension are obtained as functions of line length, water depth, critical tension and unit weight of line.When the dynamic simulation of a buoy system is carried out, line tensions acting on the buoy should be represented as a linear function of displacement. Therefore the linearisation method is introduced by use of linearisation coefficient matrix. Translation formulae for the matrix from two to three dimensions is also presented.The influence of line elongation on the horizontal component of tension in a taut mooring condition is important, therefore the elongation of stretched deep sea mooring line must be considered carefully. Also, the scaling law under consideration of line elongation in static equilibrium, which is necessary in estimation from a small sized experiment, is discussed.  相似文献   

Dynamic Response Analysis of the Equivalent Water Depth Truncated Point of the Catenary Mooring Line     

ZHANG Huo-ming  KONG Ling-bin  GUAN Wei-bing  HUANG Sai-hu  FANG Gui-sheng 《海洋工程》2017,31(1):37-47

The real-time computer-controlled actuators are used to connect the truncated parts of moorings and risers in the active hybrid model testing system. This must be able to work in model-scale real time, based on feedback input from the floater motions. Thus, mooring line dynamics and damping effects are artificially simulated in real time, based on a computer-based model of the problem. In consideration of the nonlinear characteristics of the sea platform catenary mooring line, the equations of the mooring line motion are formulated by using the lumped-mass method and the dynamic response of several points on the mooring line is investigated by the time and frequency domain analysis method. The dynamic response of the representative point on the mooring line is analyzed under the condition of two different corresponding upper endpoint movements namely sine wave excitation and random wave excitation. The corresponding laws of the dynamic response between the equivalent water depth truncated points at different locations and the upper endpoint are obtained, which can provide technical support for further study of the active hybrid model test.  相似文献   

Dynamics of large-truncated mooring systems coupled with a catenary moored semi-submersible   总被引：2，自引：2，他引：0  

徐胜  嵇春艳 《中国海洋工程》2014,28(2):149-162

With the floating structures pushing their activities to the ultra-deep water,model tests have presented a challenge due to the limitation of the existing wave basins.Therefore,the concept of truncated mooring system is implemented to replace the full depth mooring system in the model tests,which aims to have the same dynamic responses as the full depth system.The truncated mooring system plays such a significant role that extra attention should be paid to the mooring systems with large truncation factor.Three different types of large truncation factor mooring system are being employed in the simulations,including the homogenously truncated mooring system,non-homogenously truncated mooring system and simplified truncated mooring system.A catenary moored semi-submersible operating at 1000 m water depth is presented.In addition,truncated mooring systems are proposed at the truncated water depth of 200 m.In order to explore the applicability of these truncated mooring systems,numerical simulations of the platform’s surge free decay interacting with three different styles of truncated mooring systems are studied in calm water.Furthermore,the mooring-induced damping of the truncated mooring systems is simulated in the regular wave.Finally,the platform motion responses and mooring line dynamics are simulated in irregular wave.All these simulations are implemented by employing full time domain coupled dynamic analysis,and the results are compared with those of the full depth simulations in the same cases.The results show that the mooring-induced damping plays a significant role in platform motion responses,and all truncated mooring systems are suitable for model tests with appropriate truncated mooring line diameters.However,a large diameter is needed for simplified truncated mooring lines.The suggestions are given to the selection of truncated mooring system for different situations as well as to the truncated mooring design criteria.  相似文献   

Dynamics of a moored barge under regular and random waves     

A.P. Shashikala  R. Sundaravadivelu  C. Ganapathy 《Ocean Engineering》1997,24(5):401-430

Developments in the study of wave forces and construction techniques in deep water by the offshore oil industry have increased the use of marine terminals at deep water locations. A thorough understanding of moored ship dynamics when subjected to waves, wind and current combined with the use of flexible mooring lines would help to design berthing terminals for exposed areas. In this paper, the three dimensional problem of wave interactions with a barge moored to a single point is dealt with, based on the finite element method. The effect of flexibility of the mooring line and the point of mooring on the response of the barge as well as the mooring line tension is investigated. The paper compares the numerical results with model tests carried out on a barge moored to a fixed support under regular and random waves in head sea. The effect of stiffness of the mooring line on the barge response for different mooring points is discussed, which would be useful for the designers. The effect of viscous damping is also considered. The analytical results are in good agreement with the experimental results in both regular and random waves.  相似文献   

Optimal Design of Equivalent Water Depth Truncated Mooring System Based on Baton Pattern Simulated Annealing Algorithm简   总被引：2，自引：2，他引：0  

张火明  黄赛花  管卫兵 《中国海洋工程》2014,28(1):67-80

The highest similarity degree of static characteristics including both horizontal and vertical restoring force-displacement characteristics of total mooring system, as well as the tension-displacement characteristics of the representative single mooring line between the truncated and full depth system are obtained by annealing simulation algorithm for hybrid discrete variables （ASFHDV, in short）. A“baton” optimization approach is proposed by utilizing ASFHDV. After each baton of optimization, if a few dimensional variables reach the upper or lower limit, the boundary of certain dimensional variables shall be expanded. In consideration of the experimental requirements, the length of the upper mooring line should not be smaller than 8 m, and the diameter of the anchor chain on the bottom should be larger than 0.03 m. A 100000 t turret mooring FPSO in the water depth of 304 m, with the truncated water depth being 76 m, is taken as an example of equivalent water depth truncated mooring system optimal design and calculation, and is performed to obtain the conformation parameters of the truncated mooring system. The numerical results indicate that the present truncated mooring system design is successful and effective.  相似文献   

Numerical modeling of dynamic responses and mooring forces of submerged floating breakwater     

《Coastal Engineering》2006,53(10):799-815

Using the volume of fluid (VOF) method, a numerical model is developed to estimate the nonlinear dynamics of a pontoon type moored submerged breakwater under wave action and the forces acting on the mooring lines, for both the vertical and inclined mooring alignments. The model is developed for a two-dimensional wave field in a vertical plane. The finite displacements of the breakwater such as sway, heave and roll in a very small time step are considered and the numerical grid cells intersected by the breakwater surfaces for changing its position due to wave action are treated using the concept of porous body model. Also, two-dimensional experimental studies are carried out to investigate the performance of the proposed model. The comparison of the computed and measured results reveals that the developed numerical model can reproduce well the dynamics of the floating body and the mooring line forces.  相似文献   

Full Coupled Effects of Hull, Mooring and Risers Model in Time Domain Based on an Innovative Deep Draft Multi-Spar     

李彬彬  欧进萍  滕斌 《海洋工程》2010,(2):219-233

The coupled hull, mooring and riser analysis techniques in time domain are widely recognized as the unique approach to predict the accurate global motions. However, these complex issues have not been perfectly solved due to a large number of nonlinear factors, e.g. forces nonlinearity, mooring nonlinearity, motion nonlinearity and so on. This paper investigates the coupled effects through the numerical uncoupled model, mooring coupled model and fully coupled model accounting mooring and risers based on a novel deep draft multi-spar which is especially designed for deepwater in 2009. The numerical static-offset, free-decay, wind-action tests are executed, and finally the three hours simulations are conducted under 100-year return period of GOM conditions involving wave, wind and current actions. The damping contributions, response characteristics and mooring line tensions are emphatically studied.  相似文献   

A Mooring System Deployment Design Methodology for Vessels at Varying Water Depths     

Xu  Sheng-wen  Liang  Ming-xiao  Wang  Xue-feng  Ding  Ai-bing 《中国海洋工程》2020,34(2):185-197

In this paper, a methodology for designing mooring system deployment for vessels at varying water depths is proposed. The Non-dominated Sorting Genetic Algorithm-II(NSGA-II) is combined with a self-dependently developed vessel-mooring coupled program to find the optimal mooring system deployment considering both station-keeping requirements and the safety of the mooring system. Two case studies are presented to demonstrate the methodology by designing the mooring system deployments for a very large floating structure(VLFS) module and a semi-submersible platform respectively at three different water depths. It can be concluded from the obtained results that the mooring system can achieve a better station-keeping ability with relatively shorter mooring line when deployed in the shallow water. The safety factor of mooring line is mainly dominated by the maximum instantaneous tension increment in the shallow water, while the pre-tension has a decisive influence on the safety factor of the mooring line in the deep water.  相似文献   

Fully Coupled Effects of Hull, Mooring and Risers Model in Time Domain Based on An Innovative Deep Draft Multi-Spar     

李彬彬  欧进萍  滕斌 《中国海洋工程》2010,24(2):219-233

The coupled hull, mooring and riser analysis techniques in time domain are widely recognized as the unique approach to predict the accurate global motions. However, these complex issues have not been perfectly solved due to a large number of nonlinear factors, e.g. forces nonlinearity, mooring nonlinearity, motion nonlinearity and so on. This paper investigates the coupled effects through the numerical uncoupled model, mooring coupled model and fully coupled model accounting mooring and risers based on a novel deep draft multi-spar which is especially designed for deepwater in 2009. The numerical static-offset, free-decay, wind-action tests are executed, and finally three hours simulations are conducted under 100-year return period of GOM conditions involving wave, wind and current actions. The damping contributions, response characteristics and mooring line tensions are emphatically studied.  相似文献