Partial Discharge Localization in Oil Through Acoustic Emission Technique Utilizing Fuzzy Logic

Partial Discharge Localization in Oil Through Acoustic Emission Technique Utilizing Fuzzy Logic

This study presents an examination of partial discharge (PD) localization in oil based on acoustic emission technique utilizing fuzzy logic. First, the PD measurement and localization systems are developed. In total, 2 coordinates of needle-plane electrodes that represent the PD location and 336 aco...

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Bibliographic Details
Published in:IEEE transactions on dielectrics and electrical insulation Vol. 29; no. 2; pp. 623 - 630
Main Authors: Mohd Hashim, Ahmad Hafiz, Azis, Norhafiz, Jasni, Jasronita, Mohd Radzi, Mohd Amran, Kozako, Masahiro, Kamarol Mohd Jamil, Mohamad, Yaakub, Zaini
Format: Journal Article
Language:English
Published: New York IEEE 01-04-2022
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Acoustic emission
Acoustic emission testing
Acoustic impedance
Acoustics
Circuits
Dielectric barrier discharge
Discrete Wavelet Transform
Discrete wavelet transforms
Electrodes
Emission analysis
Errors
Fuzzy logic
Impedance matching
Localization
Location awareness
Mathematical analysis
oil
Oils
partial discharge (PD)
Partial discharges
Wavelet transforms
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Summary:This study presents an examination of partial discharge (PD) localization in oil based on acoustic emission technique utilizing fuzzy logic. First, the PD measurement and localization systems are developed. In total, 2 coordinates of needle-plane electrodes that represent the PD location and 336 acoustic emission sensor (AES) coordinates are examined. The electrical PD is measured through an impedance matching circuit (IMC). The acoustic PD is acquired through AES and its signal is boosted by a preamplifier gain unit. The acoustic and electrical PDs are collected once the voltage reaches 30 kV. The data are first preprocessed by discrete wavelet transform (DWT) whereby it will be further analyzed by time of arrival (TOA), fuzzy logic Mamdani (FLM), and fuzzy logic Takagi-Sugeno (FLTS) methods. The arrival of time and distance between PD and AES are calculated based on TOA to find the PD location. Next, TOA and distance to PD location are used to define the input and output membership functions for FLM and FLTS to determine the PD location. It is found that FLTS has a great potential to be used for localization of the PD in oil whereby it has the lowest errors between actual PD location and AES. The performance of FLM and TOA is inferior to FLTS whereby the errors between actual PD location and AES are quite high for both PD locations.
ISSN:1070-9878
1558-4135
DOI:10.1109/TDEI.2022.3157911