Fractal-based autonomous partial discharge pattern recognition method for MV motors
Fractal-based autonomous partial discharge pattern recognition method for MV motors
On-line partial discharge (PD) monitoring is being increasingly adopted to improve the asset management and maintenance of medium-voltage (MV) motors. This study presents a novel method for autonomous analysis and classification of motor PD patterns in situations where a phase-reference voltage waveform is not available. The main contributions include a polar PD (PPD) pattern and a fractal theory-based autonomous PD recognition method. PPD pattern that is applied to convert the traditional phase-resolved PD pattern into a circular form addresses the lack of phase information in on-line PD monitoring system. The fractal theory is then presented in detail to address the task of discrimination of 6 kinds of single source and 15 kinds of multi-source PD patterns related to motors, as outlined in IEC 60034. The classification of known and unknown defects is calculated by a method known as centre score. Validation of the proposed method is demonstrated using data from laboratory experiments on three typical PD geometries. This study also discusses the application of the proposed techniques with 24 sets of on-site PD measurement data from 4 motors in 2 nuclear power stations. The results show that the proposed method performs effectively in recognising not only the single-source PD but also multi-source PDs.
103-114
Ma, Zhuo
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Yang, Yang
4536a0bd-283a-4ddb-b1b3-1e3fcbccbd0f
Kearns, Martin
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Cowan, Kevin
08caebb3-d19b-4525-9bb0-74f9ca8ebb1f
Yi, Huajie
9af48b7f-12bb-407d-83e0-d2339ff9d1ac
Hepburn, Donald M.
9bbf4eb2-7f24-4d3f-a2dc-436a036fe659
Zhou, Chengke
6f9f211f-126f-443a-9a97-ddc3ae504a34
1 June 2018
Ma, Zhuo
22c1a0f3-c12c-44bf-aa91-f3a69e3b0fbd
Yang, Yang
4536a0bd-283a-4ddb-b1b3-1e3fcbccbd0f
Kearns, Martin
d3a8392b-39b4-46aa-8c5e-94a2a26a520b
Cowan, Kevin
08caebb3-d19b-4525-9bb0-74f9ca8ebb1f
Yi, Huajie
9af48b7f-12bb-407d-83e0-d2339ff9d1ac
Hepburn, Donald M.
9bbf4eb2-7f24-4d3f-a2dc-436a036fe659
Zhou, Chengke
6f9f211f-126f-443a-9a97-ddc3ae504a34
Ma, Zhuo, Yang, Yang, Kearns, Martin, Cowan, Kevin, Yi, Huajie, Hepburn, Donald M. and Zhou, Chengke
(2018)
Fractal-based autonomous partial discharge pattern recognition method for MV motors.
High Voltage, 3 (2), .
(doi:10.1049/hve.2017.0109).
Abstract
On-line partial discharge (PD) monitoring is being increasingly adopted to improve the asset management and maintenance of medium-voltage (MV) motors. This study presents a novel method for autonomous analysis and classification of motor PD patterns in situations where a phase-reference voltage waveform is not available. The main contributions include a polar PD (PPD) pattern and a fractal theory-based autonomous PD recognition method. PPD pattern that is applied to convert the traditional phase-resolved PD pattern into a circular form addresses the lack of phase information in on-line PD monitoring system. The fractal theory is then presented in detail to address the task of discrimination of 6 kinds of single source and 15 kinds of multi-source PD patterns related to motors, as outlined in IEC 60034. The classification of known and unknown defects is calculated by a method known as centre score. Validation of the proposed method is demonstrated using data from laboratory experiments on three typical PD geometries. This study also discusses the application of the proposed techniques with 24 sets of on-site PD measurement data from 4 motors in 2 nuclear power stations. The results show that the proposed method performs effectively in recognising not only the single-source PD but also multi-source PDs.
Text
High Voltage - 2018 - Ma - Fractal‐based autonomous partial discharge pattern recognition method for MV motors
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Accepted/In Press date: 22 November 2017
Published date: 1 June 2018
Identifiers
Local EPrints ID: 498567
URI: http://eprints.soton.ac.uk/id/eprint/498567
ISSN: 2397-7264
PURE UUID: 9e308454-115c-4e2a-a62d-d0996ee3b31c
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Date deposited: 21 Feb 2025 17:32
Last modified: 22 Aug 2025 02:38
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Contributors
Author:
Zhuo Ma
Author:
Yang Yang
Author:
Martin Kearns
Author:
Kevin Cowan
Author:
Huajie Yi
Author:
Donald M. Hepburn
Author:
Chengke Zhou
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