浮式风力发电机浮子应力时域分析

IF 13 1区 工程技术 Q1 ENGINEERING, MARINE Journal of Ocean Engineering and Science Pub Date : 2023-08-01 DOI:10.1016/j.joes.2023.08.001
Zhen Gao , Daniel Merino , Kai-Jia Han , Haoran Li , Stian Fiskvik
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引用次数: 3

摘要

人们越来越关注开发具有成本效益的浮动风力涡轮机,为此,需要有效的应力分析方法来进行浮动结构设计。目前的研究大多集中在整体分析方法上,其中浮子被假设为一个刚体或多个刚体,并且不能直接获得浮子中的应力分布。作为COWI Fonden资助的EMULF项目的一部分,介绍了15MW风力涡轮机半潜式浮子应力响应分析的方法、数值建模程序和验证。该分析程序包括由于波浪衍射、辐射和静水压力变化引起的漂浮物外部湿表面上的水动力压力载荷的再生,以及这些压力载荷的应用,以及随时间变化的重力引起的运动,惯性载荷和浮子边界(即塔底和系泊缆导缆器)处的力/力矩,以获得浮子在时域中的变形和应力。分析程序在开发的MATLAB代码和DNV软件包中实现。考虑到具有代表性的海况,讨论了不同动压分量的重要性。针对仅考虑不规则波作用的线性频域方法的再生,对使用该方法获得的应力时间序列和统计数据进行了验证,并获得了非常好的一致性。所开发的方法可以为浮式风力涡轮机的结构设计分析提供有效的解决方案。
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Time-domain floater stress analysis for a floating wind turbine

There are increasing focuses on developing cost-effective floating wind turbines, for which efficient stress analysis methods are needed for floater structural design. Most of the today's studies focus on global analysis methods in which the floater is assumed as a rigid body or multiple rigid bodies and the stress distributions in the floater cannot be directly obtained. As part of the COWI Fonden funded EMULF project, a summary about the methodology, the numerical modeling procedure and the verification for stress response analysis of a semi-submersible floater for a 15MW wind turbine is presented. This analysis procedure includes the regeneration of the hydrodynamic pressure loads on the external wet surface of the floater due to wave diffraction, radiation and hydrostatic pressure change, and the application of these pressure loads, together with the time-varying gravity due motions, the inertial loads and the forces/moments at the boundaries (i.e. tower bottom and mooring line fairleads) of the floater to obtain the deformation and the stresses of the floater in the time domain. The analysis procedure is implemented in a developed MATLAB code and the DNV software package. The importance of the different hydrodynamic pressure components was discussed considering representative sea states. A verification of the obtained stress time series and statistics using this method against the regeneration from a linear frequency-domain approach was made considering irregular wave actions only, and a very good agreement was obtained. The developed methodology can provide an efficient solution for structural design analysis of floating wind turbines.

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来源期刊
CiteScore
11.50
自引率
19.70%
发文量
224
审稿时长
29 days
期刊介绍: The Journal of Ocean Engineering and Science (JOES) serves as a platform for disseminating original research and advancements in the realm of ocean engineering and science. JOES encourages the submission of papers covering various aspects of ocean engineering and science.
期刊最新文献
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