Energy Yield of a Floating Hybrid Mooring Wind Turbine System in the Aegean Sea

机译：爱琴海浮动式混合动力系泊风力涡轮机系统的发电量

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A multi-cylinder Tension Leg Platform (TLP) design concept of a floating structure is presented for supporting a 10 MW Wind Turbine (WT). The present design represents a first step towards the development, at a second stage, of a floating structure for offshore wind energy sources exploitation. Targeting the conceptual design of the proposed TLP floating structure for the 10MW WT, the combined effect of water waves and wind on the floating offshore wind turbine is investigated. A design-oriented solution method for the coupled dynamics of the floating structure in the frequency domain is presented. By properly accounting for the aerodynamic characteristics of the WT through a reduced order model that projects the WT aerodynamics onto the six degrees of the floater’s motions. They are combined with the hydrodynamics of the floater and the tethers’ stiffness to set up the coupled dynamic equations in the frequency domain. The objective of the analysis is to investigate which sea states yield the significant and maximum loads due to operating and extreme wave conditions in offshore structures and the annual wind energy based on wave hindcasts near Kasos Island, in the Mediterranean Sea.

机译：提出了一种浮动结构的多缸张力腿平台（TLP）设计概念，以支持10 MW风力涡轮机（WT）。本设计代表了在第二阶段开发用于海上风能资源开发的浮动结构的第一步。针对10MW WT拟议的TLP浮动结构的概念设计，研究了水波和风对浮动式海上风力涡轮机的综合影响。提出了一种面向设计的解决方案，用于频域中浮动结构的耦合动力学。通过减少阶数模型适当考虑WT的空气动力学特性，该模型将WT的空气动力学投影到浮子运动的6度上。将它们与浮子的流体动力学特性和系绳的刚度相结合，以建立频域中的耦合动力学方程。该分析的目的是研究由于海上结构中的运行和极端波浪条件以及每年的风能而导致的哪些海州产生了最大负荷和最大负荷，以及基于地中海卡索斯岛附近海浪后兆的年度风能。

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《International Conference on Ecological Vehicles and Renewable Energies》|2020年|1-11|共11页
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Thomas P. Mazarakos; Spyridon A. Mavrakos; Takvor H. Soukissian;
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Hydrodynamic loads; wind turbine; irregular waves; wind energy; Kasos Island; Mediterranean Sea;

机译：水动力载荷;风力发电机;不规则波浪;风能; Kasos岛;地中海;

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1. Response Characteristics of the DeepCwind Floating Wind Turbine Moored by a Single-Point Mooring System [J] . Yingyi Liu, Shigeo Yoshida, Hiroshi Yamamoto, Applied Sciences . 2018,第11期

机译：单点系泊系统系泊的DeepCwind浮动风轮机的响应特性
2. Research on motion inhibition method using an innovative type of mooring system for spar floating offshore wind turbine [J] . Ma Yuan, Chen Chaohe, Fan Tianhui, Ocean Engineering . 2021,第Mara1期

机译：用垫垫浮动近海风力涡轮机创新式系泊系统运动抑制方法研究
3. Design and comparative analysis of alternative mooring systems for floating wind turbines in shallow water with emphasis on ultimate limit state design [J] . Xu Kun, Larsen Kjell, Shao Yanlin, Ocean Engineering . 2021,第Jana1期

机译：浅水中漂浮风力涡轮机的替代系泊系统的设计与对比分析，重点是极限极限状态设计
4. EVALUATION OF A HYBRID REPRESENTATION TO MODEL THE WIND TURBINE, PLATFORM AND MOORING LINES IN THE ANALYSIS OF FLOATING OFFSHORE WIND TURBINES [C] . Eloi Daniel de Araujo Neto, William Steven Mendez Rodriguez, Fabricio Nogueira Correa, International Conference on Ocean, Offshore and Arctic Engineering . 2020

机译：杂交代表对浮动海上风力涡轮机分析中的杂交涡轮机，平台和系泊线的评价
5. Sizing of stand-alone photovoltaic / wind turbine hybrid renewable energy systems using Markov modeling and data simulated with empirical copulas. [D] . Fernandez, Stephen. 2016

机译：使用马尔可夫模型和经验模数对数据进行独立光伏/风轮机混合可再生能源系统的规模计算。
6. Mooring Line Damping Estimation for a Floating Wind Turbine [O] . Dongsheng Qiao, Jinping Ou -1

机译：漂浮式风力发电机的系泊线阻尼估计
7. Response Characteristics of the DeepCwind Floating Wind Turbine Moored by a Single-Point Mooring System [O] . Yingyi Liu, Shigeo Yoshida, Hiroshi Yamamoto, 2018

机译：由单点系泊系统停泊的深层浮动风力涡轮机的响应特性

Energy Yield of a Floating Hybrid Mooring Wind Turbine System in the Aegean Sea

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