Frequency-Weighted Model Predictive Control of Trailing Edge Flaps on a Wind Turbine Blade

Castaignet D.; Couchman I.; Poulsen N.K.; Buhl T.

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Frequency-Weighted Model Predictive Control of Trailing Edge Flaps on a Wind Turbine Blade

机译：风力涡轮机叶片后缘襟翼的频率加权模型预测控制

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摘要

This paper presents the load reduction achieved with trailing edge flaps during a full-scale test on a Vestas V27 wind turbine. The trailing edge flap controller is a frequency-weighted linear model predictive control (MPC) where the quadratic cost consists of costs on the zero-phase filtered flapwise blade root moment and trailing edge flap deflection. Frequency-weighted MPC is chosen for its ability to handle constraints on the trailing edge flaps deflection, and to target at loads with given frequencies only. The controller is first tested in servo-aeroelastic simulations, before being implemented on a Vestas V27 wind turbine. Consistent load reduction is achieved during the full-scale test. An average of 13.8% flapwise blade root fatigue load reduction is measured.

机译：本文介绍了在Vestas V27风力涡轮机进行全面测试期间，通过后缘襟翼实现的负载减少。后缘襟翼控制器是频率加权线性模型预测控制（MPC），其中二次成本包括零相位滤波后的襟翼方向叶片根矩和后缘襟翼偏转的成本。选择频率加权的MPC是因为它具有处理后缘襟翼偏转的约束以及仅针对给定频率的负载的能力。该控制器首先在伺服气动弹性仿真中进行测试，然后再在Vestas V27风力涡轮机上实现。在满量程测试期间，可以始终如一地减少负载。测得翼片叶片根部疲劳负荷平均降低了13.8％。

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《IEEE Transactions on Control Systems Technology》 |2013年第4期|1105-1116|共12页
作者
Castaignet D.; Couchman I.; Poulsen N.K.; Buhl T.;
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Vestas Wind Systems A/S, Technology & Service Solutions, Århus, Denmark|c|;

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正文语种 eng
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关键词
Load alleviation; model predictive control (MPC); trailing edge flaps; wind energy;

机译：减轻负荷;模型预测控制（MPC）;后缘襟翼;风能;

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专利

1. Active load control of wind turbine blade section with trailing edge flap: Wind tunnel testing [J] . Jong-Won Lee, Jae-Hung Han, Hyung-Ki Shin, Journal of intelligent material systems and structures . 2014,第18期

机译：带有后缘襟翼的风力涡轮机叶片部分的主动负载控制：风洞测试
2. Controllable rubber trailing edge flap regulates load on wind turbine blades [J] . Materials performance . 2010,第4期

机译：可控制的橡胶后缘翻板调节风力涡轮机叶片上的负荷
3. Controllable rubber trailing edge flap regulates load on wind turbine blades [J] . Materials Performance . 2010,第4期

机译：可控制的橡胶后缘襟翼调节风力涡轮机叶片上的负荷
4. Model Predictive Control of Trailing Edge Flaps on a wind turbine blade [C] . Castaignet Damien, Poulsen Niels K., Buhl Thomas, 2011 American Control Conference . 2011

机译：风机叶片后缘襟翼的模型预测控制
5. Numerical Study of Vertical Axis Wind Turbine (VAWT) with Trailing Edge Flaps [D] . Omee, Shahriar H. 2017

机译：垂直轴风风力涡轮机（VAWT）与后缘襟翼的数值研究
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. Frequency-Weighted Model Predictive Control of Trailing Edge Flaps on a Wind Turbine Blade [O] . Castaignet Damien, Couchman Ian, Poulsen Niels Kjølstad, 2013

机译：风力机叶片后缘襟翼的频率加权模型预测控制
8. LARGE-SCALE WIND-TUNNEL TESTS IN GROUND EFFECT OF A 35° SWEPTBACK WING JET TRANSPORT MODEL EQUIPPED WITH BLOWING BOUNDARY-LAYER-CONTROL TRAILING- AND LEADING-EDGE FLAPS [R] . Kiyoshi Aoyagi, David H. Hickey 1963

机译：35°sWEpTBaCK WING JET运输模型的地面效应大型风洞试验，配备吹制边界层控制牵引和引导边缘襟翼

Frequency-Weighted Model Predictive Control of Trailing Edge Flaps on a Wind Turbine Blade

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