Adaptive Pitch Control for Load Mitigation of Wind Turbines

机译：风力发电机负荷减轻的自适应变桨控制

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In this research, model reference adaptive control is examined for the pitch control of wind turbines that may suffer from reduced life owing to extreme loads and fatigue when operated under a high wind speed. Specifically, we aim at making a trade-off between the maximum energy captured and the load induced. The adaptive controller is designed to track the optimal generator speed and at the same time to mitigate component loads under turbulent wind field and other uncertainties. The proposed algorithm is tested on the NREL offshore 5-MW baseline wind turbine, and its performance is compared with that those of the gain scheduled proportional integral (GSPI) control and the disturbance accommodating control (DAC). The results show that the blade root flapwise load can be reduced at a slight expense of optimal power output. The generator speed regulation under adaptive controller is better than DAC.

机译：在这项研究中，对模型参考自适应控制进行了研究，以进行风力涡轮机的俯仰控制，当在高风速下运行时，由于极端负载和疲劳，其使用寿命可能会缩短。具体来说，我们的目标是在捕获的最大能量和所感应的负载之间进行权衡。自适应控制器旨在跟踪最佳发电机速度，同时减轻湍流风场和其他不确定性下的组件负载。该算法在NREL海上5兆瓦基准风力发电机组上进行了测试，并将其性能与增益调度比例积分（GSPI）控制和扰动适应控制（DAC）的性能进行了比较。结果表明，可以以略微降低最佳功率输出的代价来降低叶片根部拍打方向的负载。自适应控制器下的发电机调速比DAC更好。

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《Conference on sensors and smart structures technologies for civil, mechanical, and aerospace systems》|2015年|94351X.1-94351X.10|共10页
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Yuan Yuan; J. Tang;
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Wind turbine; pitch control; load mitigation; adaptive control;

机译：风力发电机;音调控制减轻负荷;自适应控制;

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专利

1. Adaptive pitch control of wind turbine for load mitigation under structural uncertainties [J] . Yuan Yuan, Tang J. Renewable energy . 2017,第MAY期

机译：结构不确定性下的风轮机自适应变桨控制减轻负荷
2. Wind Turbine Pitch Control and Load Mitigation Using an L_1 Adaptive Approach [J] . Danyong Li, Yongduan Song, Wenchuan Cai, Mathematical Problems in Engineering . 2014,第pta8期

机译：使用L_1自适应方法的风力发电机俯仰控制和负荷减轻
3. Wind Turbine Pitch Control and Load Mitigation Using anL1Adaptive Approach [J] . DanyongLi, YongduanSong, WenchuanCai, Mathematical Problems in Engineering: Theory, Methods and Applications . 2014,第5期

机译：使用L1自适应方法的风力发电机俯仰控制和负荷减轻
4. Adaptive Pitch Control for Load Mitigation of Wind Turbines [C] . Yuan Yuan, J. Tang SPIE Conference on Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems . 2015

机译：风力涡轮机负荷减轻的自适应俯仰控制
5. Pitch Control of Wind Turbine through PID, Fuzzy and adaptive Fuzzy-PID controllers [D] . Baburajan, Silpa. 2017

机译：通过PID，模糊和自适应Fuzzy-PID控制器控制风力发电机的变桨
6. Trailing-Edge Flap Control for Mitigating Rotor Power Fluctuations of a Large-Scale Offshore Floating Wind Turbine under the Turbulent Wind Condition [O] . Bofeng Xu, Junheng Feng, Tongguang Wang, 2018

机译：湍流风能下用于减轻大型近海浮动风力涡轮机的转子电力波动的后缘襟翼控制
7. Wind turbine pitch control and load mitigation using an l1 adaptive approach [O] . Li Danyong, Song Yongduan, Cai Wenchuan, 2014

机译：使用l1自适应方法的风轮机俯仰控制和负载减轻
8. LIDAR Wind Speed Measurement Analysis and Feed-Forward Blade Pitch Control for Load Mitigation in Wind Turbines. January 2010-January 2011 [R] . Dunne, F., Simley, E., Pao, L. Y. 2011

机译：LIDaR风速测量分析和前馈叶片桨距控制，用于风力发电机组的负荷减轻。 2010年1月至2011年1月

Adaptive Pitch Control for Load Mitigation of Wind Turbines

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