Characteristics of the Partial Discharge in the Development of Conductive Particle-Initiated Flashover of a GIS Insulator

Characteristics of the Partial Discharge in the Development of Conductive Particle-Initiated Flashover of a GIS Insulator

Conductive particles are one of the most important defects which can greatly degrade the performance of gas-insulated metal-enclosed switchgear (GIS). Many efforts have been made to clarify the influence on the withstand voltage, understand the flashover mechanism, and build a comprehensive model to...

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Bibliographic Details
Published in:Energies (Basel) Vol. 13; no. 10; p. 2481
Main Authors: Zhao, Junping, An, Zhengjie, Lv, Bin, Wu, Zhicheng, Zhang, Qiaogen
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-05-2020
Subjects:
Data acquisition
Data collection
Electric potential
Flashover
insulation defect
partial discharge
photomultiplier tube
Photomultiplier tubes
PRPD pattern
Pulse amplitude
Pulse duration
Switchgear
Voltage
Waveforms
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Summary:Conductive particles are one of the most important defects which can greatly degrade the performance of gas-insulated metal-enclosed switchgear (GIS). Many efforts have been made to clarify the influence on the withstand voltage, understand the flashover mechanism, and build a comprehensive model to describe the particle-initiated flashover. In this study, a partial discharge (PD) signal detected through a photomultiplier (PMT) and recorded by a high-speed data acquisition (DAQ) system was used to analyze the discharge development of a conductive particle-contaminated GIS insulator under constant high AC voltage. An additional PMT was used as a reference to eliminate the dark count of the PMT and the data collection method of a DAQ system was optimized to capture the pulse waveform of each PD to obtain detailed physical information. Spectra of the PD pulse amplitude over pulse width, PD counts within various amplitude ranges over time and phase resolved partial discharge (PRPD) patterns of the PDs in different stages are obtained through the captured PD waveforms. Characteristics of the PDs from the application of the high AC voltage up to the flashover of the insulator were then analyzed, and it was found that the features of the PDs in the near-flashover stage were significantly different to the previous stages.
ISSN:1996-1073
1996-1073
DOI:10.3390/en13102481