Pitch controller modeling for wind turbine power regulation using feed forward control strategies

2015 IEEE PES Asia-Pacific Power and Energy Engineering Conference (APPEEC) Pub Date : 2015-11-01 DOI:10.1109/APPEEC.2015.7381018

K. Konara, M. Kolhe

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引用次数: 9

Abstract

In this work, pitch controlled power regulation of a horizontal axis wind turbine coupled with a fixed speed asynchronous generator is studied using SimulationX®. Wind turbines need to be operated as per specified power output vs wind speed characteristics of it. If the wind speed is between the cut-in wind speed and the rated wind speed, then the wind turbine needs to be operated constant Cp. If wind speed is between the rated speed and the cut-off wind speed, then the wind turbine needs to be operated for constant rated power. To extract rated power above rated wind speed a proper controller strategy is required. This work provides a simulation model for power regulation of a horizontal axis wind turbine system. In this work, power regulation using PID is implemented for the pitch control as well as the torque control along with the feed forward control strategies, when the wind speed is higher than the rated wind speed. This system consists of four models namely the wind profiles, energy extraction and torque generation model, gear system and the control system. The power regulation performance with proposed pitch controlling are presented for a selected wind profile.

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采用前馈控制策略的风电机组功率调节桨距控制器建模

在这项工作中，利用SimulationX®研究了与固定转速异步发电机耦合的水平轴风力涡轮机的螺距控制功率调节。风力涡轮机需要按照指定的功率输出和风速特性进行操作。如果风速在切断风速和额定风速之间，则风机需要恒定Cp运行。如果风速在额定风速和切断风速之间，则风机需要恒定额定功率运行。为了在额定风速以上提取额定功率，需要适当的控制策略。本文为水平轴风力发电系统的功率调节提供了仿真模型。本文在风速大于额定风速时，采用前馈控制策略，利用PID对桨距控制和转矩控制进行功率调节。该系统由风廓线、能量提取和扭矩产生模型、齿轮系统和控制系统四个模型组成。给出了所提出的螺距控制对选定风廓线的功率调节性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 IEEE PES Asia-Pacific Power and Energy Engineering Conference (APPEEC)

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