Abstract

This article reports the use of fiber Bragg grating (FBG) sensors for electric machines' in-service bearing condition monitoring. The proposed method enables simultaneous extraction of thermal and mechanical information on the bearing operational status for health monitoring and fault diagnosis purposes. The work first reports the instrumentation, calibration and the measurements interpretation methods of an FBG array sensor fitted to the drive-end bearing of an operating inverter driven induction motor. Experimental tests are then undertaken on a purpose build test rig to evaluate the proposed in-situ sensing scheme's performance under healthy and faulted bearing conditions. The results demonstrate that the measurements acquired by individual FBG sensors fitted in the bearing architecture contain concurrent thermal and mechanical information, which can be clearly differentiated to enable understanding of the examined motor bearing's thermal only and mechanical only operating conditions. Furthermore the in-situ measurements obtained in fault conditions are shown to contain clearly defined time and frequency domains fault signatures, which can enable unambiguous fault diagnosis and trending.

Highlights

  • B EARINGS are vital enablers of the electro-mechanical energy conversion process in electric machines

  • The consistently higher readings of fiber Bragg grating (FBG) sensors compared to TC-EC are explained by respective sensor positions, as the TC-EC measurement is affected by the bearing housing temperature

  • This paper explores a novel technique for electric machine healthy and faulted bearing condition monitoring utilising in-situ multi-physical fibre optic sensors

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Summary

Introduction

B EARINGS are vital enablers of the electro-mechanical energy conversion process in electric machines. They are recognized to be the component with one of major failure rates in in-service machinery [1]. Undetected bearing failures will result in loss of availability, and are often accompanied by irreversible damage and/or high maintenance cost. Machine bearing structure monitoring is important to ensure their reliability and availability [2]. The root causes of bearing failure are found in the mechanical and thermal stresses imposed on their structure during operation and in contemporary inverteddriven machinery in particular increasingly include electrical.

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