Real-time relocation of floating offshore wind turbine platforms for wind farm efficiency maximization: An assessment of feasibility and steady-state potential

Kheirabadi Ali C.; Nagamune Ryozo

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Real-time relocation of floating offshore wind turbine platforms for wind farm efficiency maximization: An assessment of feasibility and steady-state potential

机译：浮动海上风力涡轮机平台的实时重新定位，用于风电场效率最大化：可行性和稳态潜力的评估

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This work examines the steady-state potential and feasibility of Yaw and Induction-based Turbine Repositioning (YITuR), which is a wind farm control concept that passively repositions floating offshore wind turbines using existing turbine control degrees of freedom. To this end, the Floating Offshore Wind Farm Simulator (FOWFSim) is developed to model steady-state wind farm power production while considering floating platform relocation. Optimization studies are carried out with different floating wind farm design parameters and configurations. The objective is to determine sets of optimal wind turbine operating parameters that relocate floating turbines such that wind farm efficiency is maximized. Results show that the potential of YITuR is starkly limited by wind farm design parameters. In particular, anchors should be placed adequately far from floating platform neutral positions, mooring lines should be sufficiently long, and only specific mooring system orientations permit substantial gains in wind farm efficiency. With specific combinations of these parameters, simulation results show that the efficiency of a 7 x 7 floating offshore wind farm may be raised by 42.7% when implementing YITuR in comparison to greedy operation.

机译：这项工作探讨了横摆的稳态电位和可行性的横摆和基于涡轮旋转（Yitur），其是一种风电场控制概念，其使用现有的涡轮机控制自由度浮动近海风力涡轮机。为此，开发了浮动海上风电场模拟器（FOWFSIM）以模拟稳态风电场电力生产，同时考虑浮动平台搬迁。优化研究采用不同的浮动风电场设计参数和配置进行。该目的是确定重新定位浮动涡轮机的最佳风力涡轮机操作参数集，使得风电场效率最大化。结果表明，Yitur的潜力由风电场设计参数呈现。特别是，锚点应充分放置远离浮动平台中性位置，停泊线应足够长，并且只有特定的系泊系统方向允许风电场效率大幅提升。具有这些参数的具体组合，仿真结果表明，与贪婪操作相比，在实现Yitur时，可以提高7×7浮动海上风电场的效率。

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来源
《Ocean Engineering》 |2020年第jul15期|107445.1-107445.14|共14页
作者
Kheirabadi Ali C.; Nagamune Ryozo;
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作者单位

Vancouver Campus 2054-6250 Appl Sci Lane Vancouver BC V6T 1Z4 Canada;

Vancouver Campus 2054-6250 Appl Sci Lane Vancouver BC V6T 1Z4 Canada;

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原文格式 PDF
正文语种 eng
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关键词
Floating offshore wind farm; Floating platform displacement; Mooring lines; Wind farm control; Wind farm modeling; Optimization;

机译：浮动海上风电场;浮动平台位移;系泊线;风电场控制;风电场建模;优化;

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1. Floating wind turbines needed to meet offshore wind targets Large potential identified for floating technology; Dogger Bank wind farms to use HVDC connections to shore [J] . Energy World Group Energy World . 2019,第487期

机译：浮动风力涡轮机需要迎接海上风，目标是浮动技术确定的大潜力; 狗狗银行风电场使用HVDC连接到岸边
2. Layout optimization for multi-platform offshore wind farm composed of spar-type floating wind turbines [J] . Choi E. H., Cho J. R., Lim O. K. Wind & structures . 2015,第6期

机译：翼梁式浮式风力发电机组成的多平台海上风电场布局优化
3. Oil and gas first for floating offshore wind The Snorre and Gullfaks oil and gas platforms will be the first ever powered by a floating offshore wind farm [J] . Petroleum Review Group Petroleum Review . 2019,第871期

机译：石油和天然气首先浮动海上风鼻子和古鲁克斯石油和天然气平台将是一家浮动近海风电场的第一个动力
4. Real-time Relocation of Floating Offshore Wind Turbines for Power Maximization Using Distributed Economic Model Predictive Control [C] . Ali C. Kheirabadi, Ryozo Nagamune Annual American Control Conference . 2021

机译：利用分布式经济模型预测控制实时重新定位电力最大化电力最大化
5. Hydrodynamic analysis of tension leg platform for offshore floating wind turbine. [D] . Krishna, Vikram Saagar. 2011

机译：海上浮动式风力发电机张紧腿平台的流体动力学分析。
6. Economic Feasibility of Floating Offshore Wind Farms Considering Near Future Wind Resources: Case Study of Iberian Coast and Bay of Biscay [O] . Laura Castro-Santos, Maite deCastro, Xurxo Costoya, 2021

机译：临近未来风力资源浮动海上风电场的经济可行性：伊比利亚海岸与贝斯卡湾的案例研究
7. Evaluation of wind farm efficiency and wind turbine wakes at the Nysted offshore wind farm [O] . Barthelmie Rebecca Jane, Jensen L.E. 2010

机译：评估Nysted海上风电场的风电场效率和风力发电机组尾迹
8. Model Development and Loads Analysis of an Offshore Wind Turbine on a Tension Leg Platform, with a Comparison to Other Floating Turbine Compounds [R] . Matha, D., Jonkman, J., Fischer, T. 2009

机译：张力腿平台上海上风电机组的模型开发和载荷分析，与其他浮动涡轮机的比较

Real-time relocation of floating offshore wind turbine platforms for wind farm efficiency maximization: An assessment of feasibility and steady-state potential

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