Sensor fault-tolerant control of wind turbine systems

2014 5th Conference on Thermal Power Plants (CTPP) Pub Date : 2014-06-10 DOI:10.1109/CTPP.2014.7040693
Amir Saberi, F. R. Salmasi, T. A. Najafabadi
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引用次数: 6

Abstract

In this paper, an H∞ method based controller is designed to achieve high performance in extreme wind speed profile and tolerate possible actuator faults. This controller uses generator and rotor speed measurements and blade pitch actuator as control input. Moreover, a sliding mode fault detection and isolation (FDI) system is applied to reconstruct and compensate wind turbine's sensor faults. The controller parameters is obtained by solving a bi-linear matrix inequality. Designed controller uses the FDI output to regulate the wind turbine power in faulty condition and above rated wind speed. Closed loop performance is assessed through implementation of FDI and proposed controller, on a 5-MW benchmark wind turbine simulator, emulating realistic operation condition.
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风力发电系统的传感器容错控制
本文设计了一种基于H∞方法的控制器,既能在极端风速剖面下保持高性能,又能容忍执行器可能出现的故障。该控制器使用发电机和转子转速测量和桨距致动器作为控制输入。此外,采用滑模故障检测与隔离(FDI)系统对风力发电机组传感器故障进行重构和补偿。通过求解双线性矩阵不等式得到控制器参数。所设计的控制器利用FDI输出来调节风机在故障状态和额定风速以上的功率。在模拟实际运行条件的5mw基准风力发电机模拟器上,通过实施FDI和所提出的控制器对闭环性能进行了评估。
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2014 5th Conference on Thermal Power Plants (CTPP)
2014 5th Conference on Thermal Power Plants (CTPP)
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