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Improved drive-train and blade fatigue mitigation in flexible wind turbines using disturbance utilization control

机译：使用干扰利用控制改善柔性风力涡轮机的传动系统和叶片疲劳

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Modern wind turbines are experiencing rapid growth in both physical size and rated capacity. As wind turbines grow larger with necessarily lighter construction materials, dampening flexible modes with active control becomes more critical. In this paper we apply the theory of ldquodisturbance utilization controlrdquo (DUC) to a 600 kW upwind machine to dampen drive-train torsion and blade flap while regulating generator speed. We show that positive ldquoutilityrdquo exists in turbulent wind inflow, and we demonstrate that the optimal DUC controller achieves decreased pitch actuator demand and improved drive-train and blade fatigue life through dampening of torsion oscillation and blade flap.

机译：现代风力涡轮机的物理尺寸和额定容量都在快速增长。随着风力发电机的体积越来越大，所需的建筑材料必须更轻，采用主动控制来衰减柔性模式变得越来越重要。在本文中，我们将“扰动利用控制理论”（DUC）应用于600 kW迎风电机，以在调节发电机转速的同时衰减传动系统的扭力和叶片襟翼。我们显示出湍流中存在正ldquoutilityrdquo，并且我们证明了最佳的DUC控制器通过抑制扭转振荡和叶片襟翼实现了变桨致动器需求的减少以及改善了传动系统和叶片疲劳寿命。

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《Control and Automation, 2009. MED '09》|2009年|1283-1288|共6页
会议地点 Thessaloniki(GR);Thessaloniki(GR)
作者
Parker G.A.; Johnson C.D.;
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作者单位

Huntsville Res. Lab., Georgia Tech Res. Inst., Huntsville, AL, USA;

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关键词
optimal control; power transmission (mechanical); power transmission control; torsion; wind turbines; active control; blade fatigue mitigation; blade flap; construction material; disturbance utilization control; drivetrain torsion; flexible mode; flexible wind turbine; optimal DUC controller; pitch actuator demand; upwind machine;

机译：最优控制;动力传递（机械）;动力传递控制;扭转;风力发电机;主动控制;减轻叶片疲劳;叶片襟翼;建筑材料;扰动利用控制;动力传动系统扭力;柔性模式;柔性风力发电机;最优DUC控制器;变桨距执行器需求；上风机;

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专利

1. Frequency dependent strategy for mitigating wind power fluctuations of a doubly-fed induction generator wind turbine based on virtual inertia control and blade pitch angle regulation [J] . Ochoa Danny, Martinez Sergio Renewable energy . 2018,第PTaA期

机译：基于虚拟惯性控制和叶片桨距角调节的双频感应发电机风力发电机风能波动缓解策略
2. Fatigue and extreme load reduction on two-bladed wind turbines using the flexible hub connection [J] . Luhmann Birger, Cheng Po Wen Wind Energy . 2020,第1期

机译：使用挠性轮毂连接的两叶片式风力涡轮机的疲劳和极端负载减少
3. 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
4. Improved Drive-Train and Blade Fatigue Mitigation in Flexible Wind Turbines Using Disturbance Utilization Control [C] . Glenn A. Parker, C. D. Johnson Mediterranean Conference on Control and Automation . 2009

机译：利用干扰利用控制改进了柔性风力涡轮机的驱动火车和叶片疲劳缓解
5. Optimal utilization of disturbances for improved fatigue-mitigation and speed-regulation in flexible wind turbines. [D] . Parker, Glenn Alan. 2010

机译：扰动的最佳利用，可改善柔性风力涡轮机的疲劳缓解和速度调节。
6. Full-Scale Fatigue Testing of a Wind Turbine Blade in Flapwise Direction and Examining the Effect of Crack Propagation on the Blade Performance [O] . Othman Al-Khudairi, Homayoun Hadavinia, Christian Little, 2017

机译：风力涡轮机叶片沿翼展方向的全尺寸疲劳测试并研究裂纹扩展对叶片性能的影响
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

Improved drive-train and blade fatigue mitigation in flexible wind turbines using disturbance utilization control

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