Research of Single Component Shock Methods in Wind Turbine Fault Diagnosis

Ning Jia; Tian Xia Zhang; Yuan Sheng Li; Tao Zhang

doi:10.4028/www.scientific.net/AMR.805-806.303

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 805-806Research of Single Component Shock Methods in Wind...

Research of Single Component Shock Methods in Wind Turbine Fault Diagnosis

Abstract:

The structure of the wind turbine generator system is complex and it is difficult to identify the fault signals because of fault frequency aliasing on the vibration characteristics. The wind turbine fault diagnosis method is raised on single component shock to solve the vibration signal feature extraction during the wind turbines operating. Based on the principle of Hilbert envelope demodulation, this envelope demodulation method is presented for the single IMF component which contains shock fault characteristic frequency to solve the possible problem which fault Frequency is difficult to identify when the original signal is directly asked to envelope. This method has been applied and verified when a wind farm CSC-855W wind turbine vibration monitoring device was presented. The results show that compared with the traditional envelope demodulation method, by this method wind turbine fault characteristic can be more effectively and directly extracted and the accuracy of fault diagnosis can be improved. It is of great practical value.