Performance evaluation of a blade-mounted LiDAR with dynamic versus fixed parameters through feedback-feedforward individual pitch and trailing edge flap control

R Ungurán; V Petrovi?; L Y Pao; M Kühn

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Performance evaluation of a blade-mounted LiDAR with dynamic versus fixed parameters through feedback-feedforward individual pitch and trailing edge flap control

机译：通过反馈前馈独立俯仰和后缘襟翼控制，评估具有动态参数和固定参数的刀片式LiDAR的性能

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This paper investigates combined feedback-feedforward control of a wind turbine using a blade-mounted telescope LiDAR sensor to measure the inflow wind speed. The objective of this paper is to evaluate the controller performance with fixed telescope parameters compared to the wind speed dependent dynamically changing telescope parameters. First the telescope parameters for both cases are determined, then the robust feedback controllers are extended with an inverse-based feedforward individual pitch and trailing edge flap controller to alleviate the 1P and 2P loads of the flapwise blade root bending moments. A minor performance degradation is observed with the fixed telescope parameters in comparison to the dynamic telescope parameters.

机译：本文研究了使用叶片式望远镜LiDAR传感器来测量流入风速的风力涡轮机的组合反馈-前馈控制。本文的目的是评估固定望远镜参数与风速依赖的动态变化望远镜参数相比的控制器性能。首先确定这两种情况的望远镜参数，然后使用基于逆的前馈单个螺距和后缘襟翼控制器扩展鲁棒的反馈控制器，以减轻襟翼方向叶片根部弯矩的1P和2P载荷。与动态望远镜参数相比，使用固定望远镜参数观察到较小的性能下降。

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《Journal of Physics: Conference Series》 |2018年第3期|共页
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R Ungurán; V Petrovi?; L Y Pao; M Kühn;
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1. Performance evaluation of a blade-mounted LiDAR with dynamic versus fixed parameters through feedback-feedforward individual pitch and trailing edge flap control [J] . R Ungurán, V Petrovi?, L Y Pao, Journal of Physics: Conference Series . 2018,第3期

机译：通过反馈前馈独立俯仰和后缘襟翼控制，评估具有动态参数和固定参数的刀片式LiDAR的性能
2. System identification and controller design for individual pitch and trailing edge flap control on upscaled wind turbines [J] . Chen Zhenrong J., Stol Karl A., Mace Brian R. Wind Energy . 2016,第6期

机译：用于高档风轮机的单个桨距和后缘襟翼控制的系统识别和控制器设计
3. A comparison of smart rotor control approaches using trailing edge flaps and individual pitch control [J] . Matthew A. Lackner, Gijs van Kuik Wind Energy . 2010,第2a3期

机译：使用后缘襟翼和单独桨距控制的智能转子控制方法的比较
4. A Comparison of Smart Rotor Control Approaches Using Trailing Edge Flaps and Individual Pitch Control [C] . M. Lackner, G. van . 2009

机译：使用后缘襟翼和独立变桨控制的智能转子控制方法的比较
5. Active Control of Performance and Vibratory Loads Using Trailing-Edge Flaps and Leading-Edge Slats [D] . Ravichandran, Kumar. 2019

机译：使用后缘襟翼和前沿板条的性能和振动载荷的主动控制
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. Uncertainties identification of the blade-mounted lidar-based inflow wind speed measurements for robust feedback-feedforward control synthesis [O] . Róbert Ungurán, Vlaho Petrović, Lucy Y. Pao, 2019

机译：用于稳健反馈 - 前馈控制合成的刀片式典型的基于LIDAR的流入风速测量的不确定性
8. Blade-mounted trailing edge flap control for BVI noise reduction [R] . Hassan, A. A., Charles, B. D., Tadghighi, H., 1992

机译：叶片安装的后缘襟翼控制，用于降低BVI噪音

Performance evaluation of a blade-mounted LiDAR with dynamic versus fixed parameters through feedback-feedforward individual pitch and trailing edge flap control

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