A novel artificial neural network approach for residual life estimation of paper insulation in oil‐immersed power transformers

Md. Manzar Nezami; Md. Danish Equbal; Md. Fahim Ansari; Majed A. Alotaibi; Hasmat Malik; Fausto Pedro García Márquez; Mohammad Asef Hossaini

doi:10.1049/elp2.12407

IET Electric Power Applications (Apr 2024)

A novel artificial neural network approach for residual life estimation of paper insulation in oil‐immersed power transformers

Md. Manzar Nezami,
Md. Danish Equbal,
Md. Fahim Ansari,
Majed A. Alotaibi,
Hasmat Malik,
Fausto Pedro García Márquez,
Mohammad Asef Hossaini

Affiliations

Md. Manzar Nezami: Department of Electronics and Communication Engineering GLA University Mathura India
Md. Danish Equbal: Department of Electrical Engineering Galgotias College of Engineering and Technology Greater Noida India
Md. Fahim Ansari: Department of Electrical Engineering Graphic Era Deemed to be University Dehradun India
Majed A. Alotaibi: Department of Electrical Engineering College of Engineering King Saud University Riyadh Saudi Arabia
Hasmat Malik: Department of Electrical Engineering Graphic Era Deemed to be University Dehradun India
Fausto Pedro García Márquez: Ingenium Research Group Universidad Castilla‐La Mancha Ciudad Real Spain
Mohammad Asef Hossaini: Department of Physics Badghis University Dozak Darrah Badghis Afghanistan

DOI: https://doi.org/10.1049/elp2.12407
Journal volume & issue: Vol. 18, no. 4
pp. 477 – 488

Abstract

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Abstract Avoiding financial losses requires preventing catastrophic oil‐filled power transformer breakdowns. Continuous online transformer monitoring is needed. The authors use paper insulation to evaluate transformer health for continuous online transformer monitoring. The study suggests a new artificial intelligence method for estimating paper insulation residual life in oil‐immersed power transformers. The four artificial intelligence models use backpropagation‐based neural networks to predict paper insulation lifespan. Four primary transformer insulating paper failure indices—degree of polymerisation, 2‐furfuraldehyde, carbon monoxide, and carbon dioxide—form the basis of these models. Each model, including the backpropagation‐based neural networks, estimates paper insulation life using one failure index, along with moisture and temperature data. Optimisation techniques enhance hidden layer neurons and epoch count for improved performance. Results are validated against literature‐based life models, establishing a precise input–output correlation. This method accurately predicts the remaining useable life of power transformer paper insulation, enabling utilities to take proactive measures for safe and efficient transformer operation.

Published in IET Electric Power Applications

ISSN: 1751-8660 (Print); 1751-8679 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Applications of electric power
Website: https://ietresearch.onlinelibrary.wiley.com/journal/17518679

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