The implementation of a cost‐efficient damped AC testing methodology for transmission cables based on DC–AC conversion and distributed partial discharge detection

Yuxin Lu; Hongjie Li; Yu Zhang; Jing Hu; Lin Yin; Weisheng He; Nianping Yan; Tangbing Li; Jianzhang Zou; Yuan Yan; Longwu Zhou

doi:10.1049/gtd2.13272

IET Generation, Transmission & Distribution (Oct 2024)

The implementation of a cost‐efficient damped AC testing methodology for transmission cables based on DC–AC conversion and distributed partial discharge detection

Yuxin Lu,
Hongjie Li,
Yu Zhang,
Jing Hu,
Lin Yin,
Weisheng He,
Nianping Yan,
Tangbing Li,
Jianzhang Zou,
Yuan Yan,
Longwu Zhou

Affiliations

Yuxin Lu: Jiangxi Electric Power Research Institute, State GridNanchangChina
Hongjie Li: State Key Laboratory of Electrical Insulation and Power EquipmentXi'an Jiaotong UniversityXi'anChina
Yu Zhang: Jiangxi Electric Power Research Institute, State GridNanchangChina
Jing Hu: Jiangxi Electric Power Research Institute, State GridNanchangChina
Lin Yin: Jiangxi Electric Power Company, State GridNanchangChina
Weisheng He: Chongqing Key Laboratory of Operation and Detection of Power Source, Network, Load and StorageChongqing University of Posts and TelecommunicationsChongqingChina
Nianping Yan: Jiangxi Electric Power Research Institute, State GridNanchangChina
Tangbing Li: Jiangxi Electric Power Research Institute, State GridNanchangChina
Jianzhang Zou: Jiangxi Electric Power Research Institute, State GridNanchangChina
Yuan Yan: State Key Laboratory of Electrical Insulation and Power EquipmentXi'an Jiaotong UniversityXi'anChina
Longwu Zhou: Jiangxi Electric Power Research Institute, State GridNanchangChina

DOI: https://doi.org/10.1049/gtd2.13272
Journal volume & issue: Vol. 18, no. 20
pp. 3278 – 3288

Abstract

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Abstract This research introduces a novel damped alternating current (DAC) testing methodology, which integrates an enhanced DAC generator with a pulse‐based distributed partial discharge (PD) detection technique. The advanced DAC generator is designed without the need for high voltage (HV) solid‐state switches, thereby offering a cost‐effective solution for field‐testing voltage generation through a direct current–alternating current conversion approach. To meet the demand for high instantaneous power, a capacitor bank is employed as the power supply. Furthermore, the implementation of a distributed PD detection technique enhances sensitivity and eliminates limitations associated with cable length. To minimize the construction costs of the distributed PD‐detection system, a pulse synchronization technique has been employed. Efforts to reduce the system's weight were informed by simulations, resulting in the design and development of a prototype weighing 850 kg for a 64/110 kV power cable. The reduction in the number of HV solid‐state switches contributes to significant cost savings, amounting to tens of thousands of dollars, when compared to conventional DAC generators. Laboratory and field tests validated the effectiveness of the cost‐efficient DAC testing methodology.

Published in IET Generation, Transmission & Distribution

ISSN: 1751-8687 (Print); 1751-8695 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Distribution or transmission of electric power; Technology: Electrical engineering. Electronics. Nuclear engineering: Production of electric energy or power. Powerplants. Central stations
Website: https://ietresearch.onlinelibrary.wiley.com/journal/17518695

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