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Model predictive control-based wind turbine blade pitch angle control for alleviation of frequency fluctuation in a smart grid

机译：基于模型预测控制的风力发电机叶片桨距角控制，可减轻智能电网中的频率波动

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This paper proposes model predictive control (MPC) for wind turbine blade pitch angle control of a smart grid. The MPC is an effective model-based predictive control which calculates future control signals by optimization method using plant model, current and past signals of the system. The MPC-based blade pitch angle control is used for smoothing of wind power production of wind turbine generator. As a result, the frequency fluctuation in the smart grid system resulted from wind power deviation can be maintained. The simulation results performed in a two-area interconnected power system show that the MPCs-based blade pitch angle of wind turbine generator is capable to reduce frequency fluctuation on the study system.

机译：本文提出了一种用于智能电网的风力发电机叶片桨距角控制的模型预测控制（MPC）。 MPC是一种有效的基于模型的预测控制，它使用工厂模型，系统的当前和过去信号通过优化方法来计算将来的控制信号。基于MPC的叶片桨距角控制用于使风力发电机的风力发电平稳。结果，可以保持由风能偏差引起的智能电网系统中的频率波动。在两个区域互联的电力系统中进行的仿真结果表明，基于MPC的风力涡轮发电机叶片桨距角能够减少研究系统上的频率波动。

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来源
《2014 International Electrical Engineering Congress》|2014年|1-4|共4页
会议地点 Chonburi(TH)
作者
Pahasa Jonglak; Ngamroo Issarachai;
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作者单位

Department of Electrical Engineering, School of Engineering, University of Phayao, 56000, Thailand;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Blades; Indexes; Predictivemodels; Modelpredictivecontrol; bladepitchangle; smartgrid; windturbinegenerator;

机译：叶片;索引;预测模型;模型预测控制;桨距角;智能电网;风力发电机;;

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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. Adaptive State Feedback Pitch Angle Control of Wind Turbines for Speed Regulation and Blades Loadings Alleviation [J] . A. E. Yaakoubi, K. Attari, L. Amhaimar, International review of automatic control . 2018,第4期

机译：风力涡轮机自适应状态反馈桨距激动速度和刀片负荷减轻
3. Coordinated Control of Wind Turbine Blade Pitch Angle and PHEVs Using MPCs for Load Frequency Control of Microgrid [J] . Jonglak Pahasa, Issarachai Ngamroo IEEE systems journal . 2016,第1期

机译：使用MPC对微电网负荷频率进行控制的风轮机叶片桨距角和PHEV协调控制
4. Model predictive control-based wind turbine blade pitch angle control for alleviation of frequency fluctuation in a smart grid [C] . Pahasa Jonglak, Ngamroo Issarachai International Electrical Engineering Congress . 2014

机译：基于模型预测控制的风力涡轮机叶片俯仰角度控制，用于减轻智能电网频率波动的频率波动
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. Control the System and Environment of Post-Production Wind Turbine Blade Waste Using Life Cycle Models. Part 1. Environmental Transformation Models [O] . Izabela Piasecka, Patrycja Bałdowska-Witos, Józef Flizikowski, 2020

机译：使用生命周期模型控制生产后生产风力涡轮机叶片的系统和环境。第1部分环境转型模型
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

Model predictive control-based wind turbine blade pitch angle control for alleviation of frequency fluctuation in a smart grid

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