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Analysis of Collision Protection for Ocean and Offshore Structures   总被引:1,自引:0,他引:1  
1 .Introduction Many accidents of ocean and offshore structuresinvolve impact loadings .Some famous ship colli-sion cases arethe Tj rn Bridge (Sweden) ,the West Bridge of the Great Belt Link (Denmark) andtheMaracaibo Bridge (Venezuela) . Most studies usedthe Hertzian contact law(Zukaset al .,1982) tocalculate the impact force and analyze structures subjectedtoimpact loadings .Other alternative meth-ods such as the spring-dashpot and momentumbalance methods utilizedthe coefficient of rest…  相似文献   

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大型船舶碰撞引起的海洋导管架平台结构损伤分析   总被引:5,自引:0,他引:5  
主要对某一海洋导管架平台结构受到大吨位起重铺管船的碰撞进行了详细的非线性数值动力模拟。采用非线性弹簧来模拟受损构件的凹陷特性,计算分析了船舶侧向撞击导管架平台结构在不同的碰撞接触时间下的构件损伤情况,与实际结构损伤的检测结果相比较,反演计算分析了船舶以不同的速度与平台发生碰撞,得到了不同的碰撞接触时间和最大撞击力,以及导管架平台结构主要节点的应力、位移时间历程曲线,可以确定受到撞击后导管架平台结构构件和管节点的损伤程度,对提出合理可行的修理加固方案提供了理论依据。  相似文献   

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基于德温特数据库中的专利信息,通过对比海上风电和其他海洋主要可再生能源的年专利信息,结合海上风电专利数量与碳减排压力以及年新增装机数量之间的相关性分析,对海上风电技术发展做了分析,归纳了海上风电的重点技术领域;构建了海上风电技术成熟度预测分析模型。分析结果表明,海上风电技术发展迅速,目前整体的技术成熟度已达到0.87,已从成熟期进入饱和期。浮式风电作为一种具有替代性特征的新兴技术,也得到了快速的发展,目前的技术成熟度已达到0.54,从技术成长期进入技术成熟期。  相似文献   

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海上风电场基础结构设计综述   总被引:1,自引:0,他引:1  
黄维平  李兵兵 《海洋工程》2012,30(2):150-156
针对我国海上风电场开发建设的现状和发展趋势,结合海上风电场基础结构设计研发现状和存在的问题,探讨海上风电场基础结构设计的关键问题——设计理念、设计方法和设计标准等,分析海上风电场基础结构的结构、荷载和服役特点,分析海上风电场基础结构与水工结构和海洋石油平台设计的异同。并根据海上风电和海洋石油的行业特点,分析API规范和DNV规范对于海上风电场基础结构设计的适用性,阐述了海上风电场基础结构设计的特殊性、荷载取值和参考标准等问题。基于我国海洋工程技术发展水平和海上风电产业的发展趋势,提出发展适合我国国情的海上风电场基础结构型式及设计,指出我国海上风电产业发展应注意和避免发生的问题。  相似文献   

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孙文  刘超  张平  张积乐  黄维平 《海洋工程》2014,32(6):128-136
对国内外海上风电机组基础结构设计规范和相关标准进行了对比研究,结合我国海上风电机组基础结构设计开发中遇到的问题,论述海上风电机组基础结构设计中关于安全理念和设计荷载的设计方法和标准;分析对比各国规范对海上风电机组基础结构设计的推荐做法,剖析各国规范的设计理念和方法;比较海上风电机组基础结构与海洋石油平台在设计理念和设计标准方面的异同,并根据海上风电和海洋油气的行业特点,分析海上风电机组基础结构设计规范和海洋石油平台设计规范对于海上风电机组基础结构设计的适用性。在此基础上,基于我国海洋工程技术和海上风电产业的发展水平,提出发展我国海上风电机组基础结构的设计建议,指出我国海上风电开发中应注意和避免发生的问题。  相似文献   

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彭涛  杨建民  李俊 《海洋工程》2009,27(2):8-13
在考虑海洋工程装备在极端海况和运行海况下的载荷与受力,风载荷也是一个不可忽视的因素.目前物理模型试验仍是研究海洋工程结构物载荷与运动性能的重要手段,而深海结构物在水平漂移运动较大,如何在较大范围内得到满足试验要求的风场,是提高试验能力的重要问题.应用数值计算方法对大范围的风场模拟进行了分析,并进行了相应的物理实验,在此基础上对海洋工程试验的风场模拟提出了若干建议.  相似文献   

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Chen  Jia-hao  Hu  Zhi-qiang  Liu  Ge-liang  Wan  De-cheng 《中国海洋工程》2019,33(1):1-13
In order to account for rigid-flexible coupling effects of floating offshore wind turbines, a nonlinear rigid-flexible coupled dynamic model is proposed in this paper. The proposed nonlinear coupled model takes the higher-order axial displacements into account, which are usually neglected in the conventional linear dynamic model. Subsequently,investigations on the dynamic differences between the proposed nonlinear dynamic model and the linear one are conducted. The results demonstrate that the stiffness of the turbine blades in the proposed nonlinear dynamic model increases with larger overall motions but that in the linear dynamic model declines with larger overall motions.Deformation of the blades in the nonlinear dynamic model is more reasonable than that in the linear model as well.Additionally, more distinct coupling effects are observed in the proposed nonlinear model than those in the linear model. Finally, it shows that the aerodynamic loads, the structural loads and global dynamic responses of floating offshore wind turbines using the nonlinear dynamic model are slightly smaller than those using the linear dynamic model. In summary, compared with the conventional linear dynamic model, the proposed nonlinear coupling dynamic model is a higher-order dynamic model in consideration of the rigid-flexible coupling effects of floating offshore wind turbines, and accord more perfectly with the engineering facts.  相似文献   

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苏文  吴霓  章柳立  陈绵润 《海洋通报》2020,39(3):291-299
随着世界各国对能源安全、生态环境、气候变化等问题日益重视,加快发展风电已成为国际社会推动能源转型发展、应对全球气候变化的普遍共识和一致行动。过去十余年,我国海上风电产业受益于国家政策的大力推动而蓬勃发展,大有乘势崛起,赶超其他清洁能源的势头。相比陆上风电场,海上风电场对环境的影响较小,但其开发实施以及运行对海洋生态环境和资源开发的累积影响还尚不明确。本文系统全面地梳理了海上风电工程对鸟类、鱼类、海洋哺乳动物、底栖生物、浮游生物及海洋生物多样性等影响的研究进展,总结了海上风电环境影响研究的现状。结合我国实际,提出了将科学研究与海上风电工程环境影响评价紧密结合,开展海上风电项目对区域生态环境影响的研究等有关建议。  相似文献   

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海上风电作为一种清洁能源,其开发利用越来越受到世界各沿海国家的重视.吸力锚基础是海洋工程中的一种新型基础型式,广泛应用于海洋平台、海洋浮动式结构等.近年来,也被作为海上风电工程塔架的基础,此海上风电塔架的基础部分是整个工程结构的重要组成部分,它涉及到整个风电结构的安全性,是工程可靠运行的前提.在深入研究已有塔架的基础上...  相似文献   

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Design of an offshore wind turbine requires estimation of loads on its rotor, tower and supporting structure. These loads are obtained by time-domain simulations of the coupled aero-servo-hydro-elastic model of the wind turbine. Accuracy of predicted loads depends on assumptions made in the simulation models employed, both for the turbine and for the input wind and wave conditions. Currently, waves are simulated using a linear irregular wave theory that is not appropriate for nonlinear waves, which are even more pronounced in shallow water depths where wind farms are typically sited. The present study investigates the use of irregular nonlinear (second-order) waves for estimating loads on the support structure (monopile) of an offshore wind turbine. We present the theory for the irregular nonlinear model and incorporate it in the commonly used wind turbine simulation software, FAST, which had been developed by National Renewable Energy Laboratory (NREL), but which had the modeling capability only for irregular linear waves. We use an efficient algorithm for computation of nonlinear wave elevation and kinematics, so that a large number of time-domain simulations, which are required for prediction of long-term loads using statistical extrapolation, can easily be performed. To illustrate the influence of the alternative wave models, we compute loads at the base of the monopile of the NREL 5MW baseline wind turbine model using linear and nonlinear irregular wave models. We show that for a given environmental condition (i.e., the mean wind speed and the significant wave height), extreme loads are larger when computed using the nonlinear wave model. We finally compute long-term loads, which are required for a design load case according to the International Electrotechnical Commission guidelines, using the inverse first-order reliability method. We discuss a convergence criteria that may be used to predict accurate 20-year loads and discuss wind versus wave dominance in the load prediction. We show that 20-year long-term loads can be significantly higher when the nonlinear wave model is used.  相似文献   

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Cao  Hui-qing  Bai  Xu  Ma  Xian-dong  Yin  Qun  Yang  Xiang-yu 《中国海洋工程》2022,36(5):767-780

Offshore wind energy resources are operational in cold regions, while offshore wind turbines will face the threat of icing. Therefore, it is necessary to study icing of offshore wind turbines under different icing conditions. In this study, icing sensitivity of offshore wind turbine blades are performed using a combination of FLUENT and FENSAP-ICE software, and the effects of liquid water content (LWC), medium volume diameter (MVD), wind speed and air temperature on blade icing shape are analyzed by two types of ice, namely rime ice and glaze ice. The results show that the increase of LWC and MVD will increase the amount of ice that forms on the blade surface for either glaze ice or rime ice, and an increase of MVD will expand the adhesion surface between ice and blade. Before reaching the rated wind speed of 11.4 m/s, it does not directly affect the icing shape. However, after reaching the rated wind speed, the attack angle of the incoming flow decreases obviously, and the amount of ice increases markedly. When the ambient air temperature meets the icing conditions of glaze ice (i.e., −5°C to 0°C), the lower the temperature, the more glaze ice freezes, whereas air temperature has no impact on the icing of rime ice. Compared with onshore wind turbines, offshore wind turbines might face extreme meteorological conditions, and the wind speed has no impact on the amount of ice that forms on the blade surface for most wind speeds

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