Enhanced fault detection in zig-zag transformers: Insights from dissolved gas analysis and transient current analysis

Enhanced fault detection in zig-zag transformers: Insights from dissolved gas analysis and transient current analysis

This research article investigates the performance and fault detection capabilities of 35 zig-zag transformers connected to solar power plants in the medium voltage busbar, focusing on “dissolved gas analysis” (DGA) and fault diagnostics. Despite the absence of sudden disconnections, the transformer...

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Bibliographic Details
Main Authors: Ricardo Manuel Arias Velásquez, Renato Fabricio Arias Velásquez
Format: Article
Language:English
Published: Elsevier 2025-03-01
Series:Results in Engineering
Subjects:
DGA
Oil
Transformer
Zig-zag
Online Access:http://www.sciencedirect.com/science/article/pii/S2590123025002543
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Summary:This research article investigates the performance and fault detection capabilities of 35 zig-zag transformers connected to solar power plants in the medium voltage busbar, focusing on “dissolved gas analysis” (DGA) and fault diagnostics. Despite the absence of sudden disconnections, the transformers exhibited evolving failure modes. The study details the protection mechanisms employed, including overcurrent, overvoltage, and mechanical protections, integrated with a master trip system. Revealing significant deviations from normal levels before faults. Elevated hydrogen and methane levels, along with increased acetylene concentrations, indicated severe arcing and overheating, while treated oil samples showed a notable reduction in gas concentrations, underscoring the effectiveness of oil treatment in managing thermal and electrical stresses. This paper highlights the evolution of fault modes, including partial discharges, thermal faults, and arc faults, with specific diagnostic markers for each. The analysis of transient currents during faults indicated internal short circuits, leading to substantial mechanical and thermal damage, including core misalignment and tank deformation. The efficiency increases from 85.71 % in the detection with DGA to 91.43 % based on the combined analysis for DGA, comtrade and overcurrent analysis in the complete fleet.
ISSN:2590-1230

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