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1.
钢悬链线立管(SCR)在上部浮体运动和波流荷载激励下会与海床土相互作用,传统的线性海床模型假定荷载位移关系是线性的,没有考虑管土相互作用的非线性过程和海床土吸力的影响,本文基于大挠度柔性索理论的钢悬链式立管动力分析程序CABLE3D,将立管受到线性海床的弹性支撑力扩充为立管受到的海床垂向力,充分考虑管土非线性相互作用,并考虑海床土吸力对钢悬链式立管触地点区域的影响,开发出新的动力分析程序。程序采用非线性有限元方法对控制方程进行离散,时域内采用Newmark-β法,求解给定上部浮体运动条件下,SCR的动力响应,通过算例对线性刚度海床和非线性刚度海床进行对比,并分析了不同海床刚度对SCR触地点动力响应和疲劳损伤的影响。结果表明:非线性海床刚度模型比线性海床刚度模型更接近真实的管土作用过程;在非线性海床刚度模型下,海床土刚度越大,SCR触地点区域垂向位移响应越小,应力幅值越大,疲劳损伤越严重。 相似文献
2.
深海钢悬链立管触地点动力响应分析 总被引:1,自引:0,他引:1
研究深海钢悬链立管(SCR)在海洋环境载荷作用下的动力响应.利用非线性弹簧模拟立管与海床触地点的耦合模型,通过模态分析得到钢悬链立管的动力特性参数;时域动力响应分析获得不同工况下触地点及典型部位的位移、弯矩和应力时程.比较分析表明:浮体垂荡运动对触地点的应力状态影响较大,触地点附近存在钢悬链立管动力响应过程中的位移极值点和弯矩极值点.所提方法为触地点区域模拟分析提供了新思路,给出的分析结论对钢悬链立管设计有一定借鉴意义. 相似文献
3.
《中国海洋大学学报(自然科学版)》2010,(Z1)
由于钢悬链线立管具有非线性特性,而海床土体又是软黏土,因此钢悬链线立管触地区域的管土的相互作用十分复杂。根据国外相关试验数据,采用ANSYS中的非线性弹簧单元模拟海床土体,考虑海床土体刚度退化和土吸力对管道的作用,建立海底管道拟静力有限元计算模型,计算分析管道与海床土体的相互作用,并探讨管道触地点区域关键点在顶端升沉运动下弯矩的变化规律,为进一步研究SCR与海床的动力相互作用提供参考。 相似文献
4.
基于钢悬链式立管(SCR)动力分析程序CABLE3D,采用大挠度柔性梁理论建立SCR的运动方程,将线性海床模型扩展为考虑海床土吸力的非线性海床模型,采用非线性有限元方法对控制方程进行离散,时域内积分采用Newmark-β法,开发出新的计算程序。通过算例分析上部浮体垂荡运动幅值、海床土剪切强度、海床土剪切强度梯度对SCR触地点区域动力响应和疲劳损伤的影响。分析结果表明:SCR触地点区域动力响应和疲劳损伤对上部浮体垂荡运动幅值和海床土剪切强度的变化较为敏感,疲劳损伤在触地点区域最大,远大于悬垂段和流线段,在设计过程中应采取一定的加强措施。 相似文献
5.
非线性海床土深水缓波型立管动力响应分析 总被引:1,自引:1,他引:0
缓波立管的结构形式能够有效改善立管触地区的动力响应,达到保护立管触地区的目的。基于集中质量法和考虑土体弱化的非线性海床土模型,用等效浮力的方法将缓波立管浮力段简化,并在Orca Flex中建立传统钢悬链线立管和缓波立管的集中质量模型进行分析,考虑立管结构形式、浮力段长度和浮力段起始位置的影响,得到立管静态位形、触地点张力和弯矩、立管贯入深度以及触地点海床阻力等结果进行比较。结果表明:浮力段的配置会提高立管静态弯矩分布水平,但合理的缓波立管设计能有效改善立管触地区的动力响应,抑制海底沟槽的发展,达到保护立管触地区的目的。 相似文献
6.
海底管道管跨段在内外流体作用下的竖向动力特性研究 总被引:2,自引:0,他引:2
根据在复杂的海洋环境条件下,管道的动力特性受到内外流体的综合作用影响,呈现与陆地管道不同的特点。研究了结构受到外界流体所产生的涡激作用,同时考虑管内恒定流的影响,利用有限元方法对海底管道管跨段竖向振动的微分方程进行求解。在此基础上得出了管跨段在不同外流流速情况下,内流流速与结构动力响应幅值的关系及其对管跨段振动频率的影响,并进一步探讨了管跨失稳时的极限管内流速与跨长的关系,这些结论对于海底管道设计具有一定实际指导意义。 相似文献
7.
采用弹性基础梁模型,模拟钢悬链线立管(steel catenary riser,SCR)与海床土的相互作用,推导了弹性基础梁模型的有限元公式,基于该模型编制了钢悬链式立管的动力分析程序,在此基础上,分析了在浮体运动及环境载荷作用下,钢悬链线立管触地点区域的动力响应特征,并与弹簧支撑模型进行了比较。研究表明,弹性基础梁模型对单元长度的敏感性较低,可采用较长的单元,从而减少计算量。 相似文献
8.
基于量纲分析理论,建立了钢悬链线立管(SCR)触地段的结构循环应变响应的相似准则。设计SCR立管触地段与土体相互作用装置,实验研究了典型工况下触地段床面形状变化对结构应变响应的影响。实验结果表明:水流载荷可使立管触地段下方土体局部冲刷的范围增大,立管结构应变幅值也相应增大;随着管土循环拍击作用和局部冲刷变形的发展,钢悬链线立管触地段的循环应变幅值逐渐增大并趋于稳定值;在立管脱离床面的瞬间,可观测到立管上缘拉应变突增的现象。拉应变突增幅度随着床面变形的发展逐渐增大,进而导致循环应变幅值的增加。 相似文献
9.
对基于大挠度柔性梁理论的立管动力分析程序CABLE 3D改编,将原程序中立管受到线性海床的弹性支撑力扩充为立管受到的海床垂向力充分考虑管土非线性相互作用,使新程序中立管与海床土的相互作用遵循p-y曲线。采用伽辽金方法在空间内离散立管的动态方程,最终采用Newmark-β法进行时域内迭代求解。利用改编后的新程序分别研究了立管与线性海床土和非线性海床土相互作用的对比以及不同垂荡幅值情况下立管的动态响应。研究表明,非线性海床土能够更加准确地模拟真实的管土相互作用,触地点区域的节点会经历不同的管土相互作用过程。 相似文献
10.
平台运动激励下钢悬链式立管触地点动态分析 总被引:1,自引:1,他引:0
平台运动和管土相互作用是引起钢悬链式立管(Steel Catenary Riser,SCR)触地点动态响应和疲劳损伤的关键因素。基于竖向土抗力-埋深曲线和侧向库伦摩擦双线模型模拟SCR触地区管土作用,并考虑竖向海床刚度的退化,研究平台三维运动激励下SCR触地区的动态响应与疲劳寿命,相对于简单的单向运动激励和仅考虑竖向管土作用,更符合工程实际。计算结果表明:①三维管土作用下,平台垂荡运动对立管触地区的影响最大,纵荡运动次之,横荡的影响最小;②平台三维运动的耦合,在一定程度上可降低立管触地区的动力响应和疲劳损伤,若仅考虑垂荡运动,结果偏于保守;③非线性海床模型相对于线弹性海床,引起的立管触地区的应力幅值、位移幅值显著增加,虽然贯入位移较小,但土抗力较大,选用线弹性海床的计算误差较大。平台运动和海床强度对SCR触地点动态响应和疲劳损伤的影响较大,因此在SCR响应分析与设计中,准确选择海床模型和平台运动方式,对于预测立管的疲劳寿命具有重要意义。 相似文献
11.
浮体运动是引起钢悬链式立管(steel catenary riser,简称SCR)动态响应和疲劳损伤的关键因素,目前研究SCR问题时,为简化计算往往仅考虑平台一阶运动,忽略二阶运动影响。而实际上不同浮体结构的二阶运动响应特征明显,拟以SCR服役张力腿平台(tension leg platform,简称TLP)为例,探讨浮体二阶运动对SCR触地区动态响应的影响。建立考虑海床刚度退化的管土作用模型以改进现有的CABLE3D RSI程序,通过编写程序接口,将有限元分析得到的平台实际运动响应导入,研究平台不同运动作用下SCR触地区的位移、动力响应及疲劳分布情况。根据波流作用方向将TLP二阶慢漂运动分为近端和远端漂移两种工况,发现二阶运动下立管与海床的作用范围会增大,且触地区不仅发生高频小幅振荡运动,同时伴随低频大幅运动响应;平台远端漂移时,管内张力敏感程度高,而近端漂移时触地区的弯矩显著增大,都会不同程度提高触地区的疲劳损伤率。研究可为服役不同浮体的SCR响应预测与疲劳分析提供参考和借鉴。 相似文献
12.
Fatigue response of steel catenary risers (SCR) in the touchdown zone (TDZ) is significantly affected by riser-seabed interaction. Non-linear hysteretic riser-seabed interaction models have been recently developed to simulate the SCR cyclic embedment into the seabed. Despite the advancements achieved in the prediction of non-linear hysteretic riser-seabed interaction, several inconsistencies have been recently identified in the nodal performance of some of the popular models. These limitations need to be resolved by proposing new models or improving the existing models. However, it is necessary to evaluate the influence of the identified shortcomings of the existing models on the global performance of the riser. In this paper, the influence of nodal inconsistencies observed in a popular riser-seabed interaction model on the global performance of the riser was comprehensively examined in the TDZ. The riser embedment profile, cyclic contact stress, contact stress envelop, mean shear force, cyclic bending moment, and consequently the cumulative fatigue damage was investigated. The study showed that the soil model overestimates the riser embedment and other global responses. Recommendations were made to overcome the identified shortcomings of the existing models in future developments. 相似文献
13.
Steel catenary risers (SCR) connect seabed pipelines and flow lines to floating structures used for oil and gas production in deep waters. Waves and currents induce motions of the structure and the risers. The repeated motions of the risers at the touchdown zone in turn induce loads on the seabed soil and might eventually cause fatigue damage to the risers. The analysis of riser fatigue damage is heavily dependent on the soil model. Soil behaviour at touchdown zone such as soil remoulding, stiffness degradation and deformation of the seabed at the touchdown zone further complicate the accurate assessment of riser fatigue damage, which is currently not appropriately quantified in existing design methods. This paper presents centrifuge model tests simulating the repeated vertical movement of a length of riser on clay seabed with increasing undrained shear strength with depth. During the tests, the pipe was subject to cyclic motion over fixed vertical displacement amplitude from an invert embedment of 0.5-3.5 pipe diameters into the soil. The test results show a significant progressive degradation of soil strength and diminution of excess pore water pressure with increasing number of riser penetration/uplift cycle. In view of the different types of environment loadings experienced by floating platforms and various soil conditions, tests were also conducted to investigate the effect of soil strength, riser displacement rate and loading mode on riser-soil interaction during repetitive penetration/uplift motion of the riser. 相似文献
14.
Steel catenary riser (SCR) is the transmission device between the seabed and the floating production facilities. As developments move into deeper water, the fatigue life of the riser can become critical to the whole production system, especially due to the vortex-induced vibration (VIV), which is the key factor to operational longevity. As a result, experimental investigation about VIV of the riser was performed in a large plane pool which is 60 m long, 36 m wide and 6.5 m deep. Experiments were developed to study the influence of current speed and seabed on VIV of SCR. The results show that amplitudes of strain and response frequencies increase with the current speed both in cross-flow (CF) and in-line (IL). When the current speed is high, multi-mode response is observed in the VIV motion. The amplitudes of strain in IL direction are not much smaller than those in CF direction. The seabed has influence on the response frequencies of riser and the positions of damage for riser. 相似文献
15.
Steel catenary risers (SCRs) are usually cost-effective solutions in the development of offshore fields and the transferring of the hydrocarbons from the seabed to the floating facilities. These elements are subjected to the fatigue loads particularly in the touchdown zone (TDZ), where the oscillating SCR is exposed to cyclic contact with the seabed. The slug-induced oscillation is a significant contributor to the fatigue loads in the TDZ. The cyclic seabed soil softening under the wave-induced riser oscillations and the gradual penetration of the SCR into the seabed are widely accepted to have a significant influence on SCR fatigue performance. However, this has never been investigated for slug-induced oscillations due to the lack of integrated access to comprehensive numerical models enabling the simulation of the riser slugging and nonlinear hysteretic riser-seabed interaction at the same time. In this paper, an advanced interface was developed and verified using the multi-point moving tie constraint in order to examine the influence of cyclic seabed soil softening on slug-induced oscillations of SCR. The interface was integrated with a pre-developed user subroutine for modeling of the nonlinear hysteretic riser-seabed interaction and incorporated into a global SCR model in ABAQUS. A comprehensive parametric study was conducted to investigate the influence of slug characteristics and nonlinear seabed soil model on slug-induced, wave-induced, and combined wave/slug induced oscillations of SCR in the TDZ. It was observed that the nonlinear seabed model could significantly affect the embedment of the SCR into the seabed under the slug-induced oscillations and consequently improve the fatigue life. The developed user interface was found to be a strong framework for modeling riser slugging. 相似文献
16.
This paper presents fatigue characteristic analysis of a deepwater steel catenary riser (SCR) under ambient excitations. The SCR involves complex nonlinear dynamic behaviors, especially at the touchdown point (TOP) where the riser first touches the seafloor. Owing to the significant interaction with soil, the touchdown zone is difficult to be modeled. Based on Lumped-Mass method and P-y curve, nonlinear springs are used to simulate the SCR-seabed coupled interaction. In case studies, an SCR's dynamic features have been obtained by transient analysis and the structure fatigue assessment has been carried out by S-N approach. The comparative analysis shows that the TOP is the key location where soil-riser interaction rises steeply and minimum fatigue life occurs. Parameters such as ocean environment loads, vessel motions, riser material and geometric parameters are discussed. The results indicate that the vessel motion is the principal factor for the structure fatigue lite distribution. 相似文献
17.
钢悬链线立管(steel catenary riser, 简称SCR)是一种优质的深水开发设备,近几年广泛用于深海环境下油气资源的开采。在浮式平台的周期性升沉运动和海浪海流的载荷作用下,立管的触底区会产生较为严重的疲劳破坏问题。为保证深海立管的高效与安全运行,清管作业是一项必要的维护手段。目前对于清管载荷作用下钢悬链线立管的位移变化规律研究比较匮乏。基于ABAQUS有限元软件和缩比试验准则,设计并开展有关清管载荷作用下钢悬链线立管的位移变化规律的缩比模型试验研究,从清管载荷的大小和作用位置等角度分别研究立管的X向与Y向的位移变化特征。研究结果表明,清管器在立管的触底段中运行并逐渐靠近触底点的过程中,清管器所在立管处的X向与Y向的位移会产生逐渐减小的趋势;当改变清管载荷的大小时,对于立管的同一位置来说,清管载荷的变化会导致立管的X向位移产生较Y向位移更加显著的变化;在清管器通过立管某一位置的前后过程中,X向位移变化呈现先增大后减小的趋势,而Y向位移仅在清管器通过该处时会有明显的减小。 相似文献
18.
陵水17-2气田是国内首个采用钢悬链立管的深水气田。以该气田钢悬链立管(SCR)为例,结合国外经验确定了影响强度的主要因素,利用FLEXCOM软件建立了强度分析模型并进行了敏感性分析。通过对比分析,得到以下结论:管线重量公差较其他因素对立管强度有着更明显的影响,管线重量的正负公差分别对立管触地区和悬挂区强度影响较大,其中等效应力最大增加了13.5%;内部压力的变化对重质管线强度影响较轻质管线明显;柔性节点刚度对立管强度的影响主要集中在悬挂区;立管安装误差对悬挂区和触地区等效应力影响为6.5%~9.5%。为陵水17-2气田及其他类似工程提供参考和借鉴。 相似文献
19.
基于ABAQUS/AQUA模块,当Spar平台发生涡激运动时,对与平台相连接的柔性立管进行时域动态响应分析,得到了不同折合速度下柔性立管的应力响应曲线.对立管触地区域和悬垂段进行了细化的分析,并利用S-N曲线和Miner线性累积损伤理论对平台涡激运动引起的柔性立管疲劳损伤进行了计算.研究结果表明:平台涡激运动对立管触地区域和悬垂段的影响较大,这两部分最容易在长时间的工作中产生疲劳损伤.特别是平台运动到近点时,立管触地区域受到的应力急剧增加,这个区域是立管工作的危险区域,应该特别注意.该研究结论可以作为立管结构设计和海底铺设时的参考,通过增加立管触地区域的结构强度和优化铺设方式,从而来提高立管的疲劳寿命和系统的安全性. 相似文献
20.
《中国海洋工程》2015,(5)
Steel catenary riser(SCR) is the transmission device between the seabed and the floating production facilities. As developments move into deeper water, the fatigue life of the riser can become critical to the whole production system, especially due to the vortex-induced vibration(VIV), which is the key factor to operational longevity. As a result, experimental investigation about VIV of the riser was performed in a large plane pool which is 60 m long, 36 m wide and 6.5 m deep. Experiments were developed to study the influence of current speed and seabed on VIV of SCR. The results show that amplitudes of strain and response frequencies increase with the current speed both in cross-flow(CF) and in-line(IL). When the current speed is high, multi-mode response is observed in the VIV motion. The amplitudes of strain in IL direction are not much smaller than those in CF direction. The seabed has influence on the response frequencies of riser and the positions of damage for riser. 相似文献