Output Power Leveling of Wind Turbine Generator for All Operating Regions by Pitch Angle Control

Tomonobu Senjyu; Ryosei Sakamoto; Naomitsu Urasaki; Toshihisa Funabashi; Hideki Fujita; Hideomi Sekine

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Output Power Leveling of Wind Turbine Generator for All Operating Regions by Pitch Angle Control

机译：桨距角控制在所有工作区域内的风力发电机的输出功率水平

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Wind energy is not constant and windmill output is proportional to the cube of wind speed, which causes the generated power of wind turbine generators (WTGs) to fluctuate. In order to reduce fluctuation, different methods are available to control the pitch angle of blades of windmill. In a previous work, we proposed the pitch angle control using minimum variance control, and output power leveling was achieved. However, it is a controlled output power for only rated wind speed region. This paper presents a control strategy based on average wind speed and standard deviation of wind speed and pitch angle control using a generalized predictive control in all operating regions for a WTG. The simulation results by using actual detailed model for wind power system show the effectiveness of the proposed method.

机译：风能不是恒定的，风车输出与风速的立方成正比，这将导致风力涡轮发电机（WTG）的发电功率发生波动。为了减小波动，可采用不同的方法来控制风车叶片的桨距角。在先前的工作中，我们提出了使用最小方差控制的俯仰角控制，并实现了输出功率均衡。但是，它仅在额定风速区域是受控的输出功率。本文提出了一种基于WTG的所有运行区域中的平均预测控制，基于平均风速和风速和俯仰角控制的标准偏差的控制策略。通过使用实际详细模型对风电系统进行仿真，结果表明了该方法的有效性。

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来源
《IEEE Transactions on Energy Conversion》 |2006年第2期|p.467-475|共9页
作者
Tomonobu Senjyu; Ryosei Sakamoto; Naomitsu Urasaki; Toshihisa Funabashi; Hideki Fujita; Hideomi Sekine;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类电能学;能源与动力工程;
关键词
Generalized predictive control; Output power fluctuation; Pitch angle control; Wind turbine generator (WTG);

机译：广义预测控制;输出功率波动;桨距角控制;风力涡轮发电机（WTG）;

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专利

1. Output Power Leveling of Wind Turbine Generators Using Pitch Angle Control for All Operating Regions in Wind Farm [J] . TOMONOBU SENJYU, RYOSEI SAKAMOTO, NAOMITSU URASAKI, Electrical engineering in Japan . 2007,第4期

机译：使用变桨角控制的风电场所有运行区域的风力涡轮发电机输出功率水平
2. Output Power Leveling of Wind Turbine Generator by Pitch Angle Control Using H{sub}∞ Control [J] . RYOSEI SAKAMOTO, TOMONOBU SENJYU, TOSHIAKI KANEKO, Electrical engineering in Japan . 2008,第4期

机译：利用H {sub}∞控制的桨距角控制风力发电机的输出功率水平
3. Output Power Control of Wind Turbine Generator by Pitch Angle Control Using Minimum Variance Control [J] . TOMONOBU SENJYU, RYOSEI SAKAMOTO, NAOMITSU URASAKI, Electrical engineering in Japan . 2006,第2期

机译：利用最小方差控制的桨距角控制风力发电机的输出功率
4. Output power leveling of wind turbine generators using pitch angle control for all operating regions in wind farm [C] . Sakamoto R., Senjyu T., Urasaki N., Intelligent Systems Application to Power Systems, 2005. Proceedings of the 13th International Conference on . 2005

机译：使用桨距角控制对风电场中的所有运行区域进行风力涡轮发电机的输出功率均衡
5. Impact of increased penetration of DFIG based wind turbine generators on rotor angle stability of power systems. [D] . Gautam, Durga. 2010

机译：基于DFIG的风力涡轮发电机的穿透力增加对电力系统转子角稳定性的影响。
6. LPV Control for the Full Region Operation of a Wind Turbine Integrated with Synchronous Generator [O] . Guoyan Cao, Karolos M. Grigoriadis, Yaw D. Nyanteh 2015

机译：集成有同步发电机的风力发电机全区域运行的LPV控制
7. Output Power Leveling of Wind Turbine Generators using Pitch Angle Control for All Operating Regions in Wind Farm [O] . Tomonobu Senjyu, Ryosei Sakamoto, Naomitsu Urasaki, 2005

机译：风力涡轮发电机的输出功率调平，用于风电场所有操作区域的俯仰角度控制
8. Investigation of a Method to Control the Output from a Wind Power Induction Generator by Using a Pulse Controlled Resistance Connected to the Rotor Circuit [R] . Zweygbergk, S., Carlsson, O., Karlsson, R. 1984

机译：利用连接转子电路的脉冲控制电阻控制风电感应发电机输出的方法研究

Output Power Leveling of Wind Turbine Generator for All Operating Regions by Pitch Angle Control

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