Adding Feedforward Blade Pitch Control for Load Mitigation in Wind Turbines: Non-Causal Series Expansion, Preview Control, and Optimized FIR Filter Methods

机译：添加前馈叶片变桨控制以减轻风力发电机的负荷：非因果级数展开，预览控制和优化的FIR滤波器方法

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Combined feedback/feedforward blade pitch control is compared to industry standard feedback control when simulated in realistic turbulent winds. The feedforward controllers are designed to reduce fatigue loads, increasing turbine lifetime and therefore reducing the cost of energy. Three feedforward designs are studied: Non-Causal Series Expansion, Preview Control, and Optimized FIR Filter. The input to the feedforward controller is a measurement of incoming wind speed, which could potentially be provided by lidar. Non-causal series expansion and Preview Control methods reduce blade root loads but increase tower bending in simulation results. The optimized FIR filter reduces loads overall, keeps pitch rates low, and maintains rotor speed regulation and power capture, while using imperfect wind measurements provided by a lidar model.

机译：在真实的湍流风中进行模拟时，将组合的反馈/前馈叶片桨距控制与行业标准的反馈控制进行了比较。前馈控制器旨在减少疲劳载荷，延长涡轮机寿命并因此降低能源成本。研究了三种前馈设计：非因果级数扩展，预览控制和优化的FIR滤波器。前馈控制器的输入是对传入风速的测量，它可能由激光雷达提供。非因果级数展开和预览控制方法可减少叶片根部负载，但会增加模拟结果中的塔架弯曲度。经过优化的FIR滤波器可降低整体负载，保持较低的俯仰率，并保持转子速度调节和功率捕获，同时使用激光雷达模型提供的不完善的风速测量。

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《AIAA aerospace sciences meeting including the new horizons forum and aerospace exposition》|2011年|p.10978-10994|共17页
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Fiona Dunne; Lucy Y. Pao; Alan D. Wright; Bonnie Jonkman; Neil Kelley; Eric Simley;
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1. Adding feedforward blade pitch control to standard feedback controllers for load mitigation in wind turbines [J] . Fiona Dunne, Lucy Y. Pao, Alan D. Wright, Mechatronics: The Science of Intelligent Machines . 2011,第4期

机译：将前馈叶片变桨控制添加到标准反馈控制器中，以减轻风力涡轮机的负荷
2. Individual Blade Pitch Control of Floating Offshore Wind Turbines for Load Mitigation and Power Regulation [J] . Saptarshi Sarkar, Breiffni Fitzgerald, Biswajit Basu Control Systems Technology, IEEE Transactions on . 2021,第1期

机译：浮动近海风力涡轮机的单个刀片俯仰控制，用于负载缓解和功率调节
3. Preview predictive control layer design based upon known wind turbine blade-pitch controllers [J] . Lio W. H., Jones B. Ll., Rossiter J. A. Wind Energy . 2017,第7期

机译：基于已知的风轮机桨距控制器预览预测控制层设计
4. Adding Feedforward Blade Pitch Control for Load Mitigation in Wind Turbines: Non-Causal Series Expansion, Preview Control, and Optimized FIR Filter Methods [C] . Fiona Dunne, Lucy Y. Pao, Alan D. Wright, AIAA aerospace sciences meeting including the new horizons forum and aerospace exposition . 2011

机译：加入风力涡轮机负载缓解的馈电刀片俯仰控制：非因果序列扩展，预览控制和优化的FIR滤波器方法
5. Optimizing Blade Pitch Control of Wind Turbines with Preview Measurements of the Wind. [D] . Dunne, F. 2016

机译：通过预览风来优化风力涡轮机的桨距控制。
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. LIDAR Wind Speed Measurement Analysis and Feed-Forward Blade Pitch Control for Load Mitigation in Wind Turbines: January 2010--January 2011 [O] . 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涡轮机的负荷减轻：2010年1月至2011年1月
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

Adding Feedforward Blade Pitch Control for Load Mitigation in Wind Turbines: Non-Causal Series Expansion, Preview Control, and Optimized FIR Filter Methods

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