A synthesis of feasible control methods for floating offshore wind turbine system dynamics

doi:10.1016/j.rser.2021.111525

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	A synthesis of feasible control methods for floating offshore wind turbine system dynamics
	Shah, Kamran Ali 1; Meng, Fantai 1; Li, Ye 1,5,6,7; Nagamune, Ryozo 2; Zhou, Yarong 1; Ren, Zhengru 4; Jiang, Zhiyu 3
刊名	Renewable and Sustainable Energy Reviews
	2021-11-01
卷号	151
关键词	Energy conversion Energy policy Offshore oil well production Offshore wind turbines System theory Wind power Control methods Costs reduction Floating offshore wind turbines Floating platforms Load mitigation Power Power regulation System Dynamics Wind turbine control Wind turbine systems
ISSN号	13640321
DOI	10.1016/j.rser.2021.111525
英文摘要	During the past decade, the development of offshore wind energy has transitioned from near shore with shallow water to offshore middle-depth water regions. Consequently, the energy conversion technology has shifted from bottom-fixed wind turbines to floating offshore wind turbines. Floating offshore wind turbines are considered more suitable, but their cost is still very high. One of the main reasons for this is that the system dynamics control method is not well-adapted, thereby affecting the performance and reliability of the wind turbine system. The additional motion of the platform tends to compromise the system's performance in terms of power maximization, power regulation, and load mitigation. To provide a recommendation based on the advantages and disadvantages of different control methods, we systematically analyze feasible control methods for existing floating offshore wind turbine designs. Based on a brief overview of floating offshore wind turbine system dynamics, we present several promising control methods by classifying them as blade-pitch-based and mass–spring–damper-based. Furthermore, we emphasize on the incoming wind and wave forecasting associated with the control methods. We then compare different methods by evaluating a matrix involving platform motion minimization, load mitigation, and power regulation and identify the advantages and disadvantages. Finally, recommendations and suggestions for further research are provided by integrating the advantageous control algorithm and forecasting technologies to reduce costs. © 2021 Elsevier Ltd
WOS研究方向	Science & Technology - Other Topics ; Energy & Fuels
语种	英语
出版者	Elsevier Ltd
WOS记录号	WOS:000708472700011
内容类型	期刊论文
源URL	[http://ir.lut.edu.cn/handle/2XXMBERH/151184]
专题	土木工程学院
作者单位	1.Multi-function Towing Tank, State Key Laboratory of Ocean Engineering, School of Naval Architecture, Ocean & Civil Engineering, Shanghai Jiao Tong University, Shanghai; 200240, China; 2.Department of Mechanical Engineering, The University of British Columbia, Vancouver, BC; V6T1Z4, Canada; 3.Department of Engineering Sciences, University of Agder, NO, Grimstad; 4879, Norway; 4.Department of Marine Technology, Norwegian University of Science and Technology, NO, Trondheim; 7491, Norway; 5.School of Energy and Power Engineering, Lanzhou University of Technology, Lanzhou; 730050, China; 6.Gansu Provincial Technology Centre for Wind Turbines, Lanzhou; 730050, China; 7.MOE Key Laboratory of Hydrodynamics, Shanghai Jiaotong University, Shanghai; 200240, China
推荐引用方式 GB/T 7714	Shah, Kamran Ali,Meng, Fantai,Li, Ye,et al. A synthesis of feasible control methods for floating offshore wind turbine system dynamics[J]. Renewable and Sustainable Energy Reviews,2021,151.
APA	Shah, Kamran Ali.,Meng, Fantai.,Li, Ye.,Nagamune, Ryozo.,Zhou, Yarong.,...&Jiang, Zhiyu.(2021).A synthesis of feasible control methods for floating offshore wind turbine system dynamics.Renewable and Sustainable Energy Reviews,151.
MLA	Shah, Kamran Ali,et al."A synthesis of feasible control methods for floating offshore wind turbine system dynamics".Renewable and Sustainable Energy Reviews 151(2021).