Power transformer health prediction using machine learning
Abstract
Ensuring good conditions and functionalities of these power transformers, these units are
constantly monitored and maintained through the implementation of various conditionbased
maintenance activities. However, despite all of these preventive maintenance
practices in place, some transformer defects are still left undetected, especially at an early
stage. There is a lack of a holistic risk evaluation system in the power utility company to
support and guide the scheduling and prioritization of condition-based maintenance
activities. It is reported that there was a total of 20 power transformer failure cases during
the years 2005-2019. These failures led to higher operating expenses, arising from the cost
of repair and loss of revenues due to outages and downtime. As such, the outcome of this
research aims to fill in this gap in the preventive maintenance system currently in practice
in the power utility company by developing a transformer failure prediction system to
complement the existing maintenance testing activities that are performed routinely as a
part of condition-based maintenance in Malaysia. A Tier 1 to Tier 2 prediction algorithm is
developed in this project with the help of artificial intelligence to accelerate the availability
of Tier 2 electrical test results. This allows early assessment of the transformer's electrical
parameters. Thereafter, the predicted Tier 2 test results can be used in conjunction with
transformer age, loading, visual inspection as well as Tier 1 oil test results to predict failure
probability and fault type through the development of a lookup table. Overall, this algorithm
aims to speed up and improve the transformer health assessment to act as an early warning
system for future tripping and failure events. This allows condition-based maintenance
activities that are currently in practice to prioritize transformers that are undergoing more
severe deterioration before permanent irreversible damage occurs.