Abstract
Lamb waves are used to locate any damage in the stator insulation structure of large generators. However, it is difficult to extract the features of Lamb wave signals in a strong background noise environment, thus significantly reducing the accuracy with which the damage is located. This paper proposes a method based on variational mode decomposition (VMD) and wavelet transform to enhance and extract the location features of stator insulation damage signals of large motors. First, considering that the characteristics of VMD are sensitive to noise, the Lamb wave detection signal is decomposed, denoised, and reconstructed; the reconstructed signal is then wavelet-transformed to extract the time of flight (TOF) of the damage-scattered wave as the damage location feature; finally, the damage location is determined using the TOF features. The proposed method is experimentally tested and verified under various noise environments. The results show that the VMD and wavelet transform methods can significantly improve the signal-to-noise ratio of Lamb wave detection signals and the accuracy with which the damage is located under strong background noise. This study extends the applicability of Lamb wave-based non-destructive detection of stator insulation damage in complex environments.
Highlights
Stator winding is a core component of large generators
Based on the theory of non-destructive testing using Lamb waves, this paper proposes a method for enhancing and extracting the time of flight (TOF) features from stator insulation damage signals of large motors based on variational mode decomposition (VMD) and wavelet transform
This paper proposes a method for enhancing and extracting the damage localization features based on VMD and wavelet transform
Summary
Stator winding is a core component of large generators. The insulation condition of the stator largely determines the life and operating reliability of such generators. To locate the damage in a stator insulation structure, it is important to accurately extract the time of flight (TOF) features of the Lamb wave [9,16]. Has multi-resolution characteristics, can acquire the local features of a signal, and is suitable for the extraction of TOF location features This method has good application potential for TOF feature extraction from the stator insulation damage signals of large motors. Based on the theory of non-destructive testing using Lamb waves, this paper proposes a method for enhancing and extracting the TOF features from stator insulation damage signals of large motors based on VMD and wavelet transform.
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