Fault diagnosis of low‐speed rolling bearing based on weighted reconstruction of vibration envelopes

Author:

Huang Yukun1ORCID,Zhang Wanyang1,Wang Kun1,Zhang Baoqiang1,Zhang Fanghong2,Luo Huageng1ORCID

Affiliation:

1. Xiamen University Xiamen Fujian China

2. Chongqing Normal University Chongqing China

Abstract

AbstractThe main bearing supports the rotation of the main shaft of a wind turbine. It bears heavy dead weights as well as variable speed dynamic loading during operations; thus, it is a vulnerable part in a wind turbine drive train. Because of the low speed and time‐varying operations of the main bearing, vibrations generated by bearing faults are often weak in response amplitudes, low in frequency range, and smeared in damage feature energy. As a result, the applicability of the conventional acceleration envelope analysis (AEA) technique, a traditionally effective technology for bearing fault diagnosis, is limited in such cases. In order to resolve this, a modified AEA method specially designed for bearings with low and variable speed operation is proposed in this paper. First, the structural response is decomposed by means of variational mode decomposition (VMD) for the low frequency components to form a series of band‐limited intrinsic mode functions (BLIMFs). Next, weighting factors are determined for the BLIMFs by defined energy ratios. Finally, a new envelope is reconstructed by weighting the envelopes of each BLIMF for bearing fault diagnosis. The effectiveness and practicality of the proposed method for the diagnosis of main bearing faults in wind turbines is verified through the analysis of measured data from a wind turbine in the field. The proposed method provides an effective way for bearing fault diagnosis at low and variable rotational speeds.

Publisher

Wiley

Subject

Renewable Energy, Sustainability and the Environment

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