3.8 Article

Vibration State Monitoring of Mechanical Equipment Based on Wireless Sensor Network Technology

Journal

ELECTRICA
Volume 22, Issue 3, Pages 428-437

Publisher

AVES
DOI: 10.5152/electrica.2022.22051

Keywords

Condition monitoring; power transformer; vibration analysis method; wireless sensing; ZigBee

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The rapid development of smart grid in my country is crucial for the national economy and stable life of the people. A wireless vibration sensor based on MEMS was designed by the author, which can be applied in online monitoring of power transformers.
In recent years, my country's smart grid has developed rapidly and is safe and stable operation of the power grid system; it is related to the healthy development of the national economy and stable life of the people. Most of the current vibration monitoring systems use wired ICP piezoelectric acceleration sensors to collect the vibration of the transformer tank wall, on-site live monitoring, and safety, but there are many inconveniences and problems. The author designed a vibration-sensing element based on the latest Micro-electromechanical systems (MEMS), a vibration sensor for wireless communication with ZigBee, applied in the online monitoring of a 110 kV three-phase power transformer in operation, and adopted wired and wireless sensor modes, respectively, to monitor and compare waveforms. The wired sensor used in the test is an ICP sensor, and its sensitivity is 500 mV/g. It can be used in a multi-vibration measuring point wireless network to monitor the surface vibration of the power transformer tank. In the waveform graph collected by wireless sensor, it can be observed that the waveform presents a periodic law, and it can be observed from the spectrogram that the energy is concentrated on the frequency multiplier of 50 Hz, which conforms to the vibration law of the transformer.

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