Abstract
Health index has been widely accepted as a powerful tool for monitoring the condition of power transformer insulation system based on various diagnostic parameters. While this approach has been extensively discussed in the literature, not much attention was given to provide effective solutions to the uncertainty in the used data. According to CIGRE 761, data quality issues may arise due to measurement accuracy as well as incompleteness and unavailability of the required data. Therefore, this article presents the implementation and evaluation of a certainty level model for transformer insulation system health index to deal with data uncertainty. The impact of data unavailability on the health index results is also investigated. Certainty level of the health index is determined by the criticality level of available data, and is reported along with the health index result. A method to handle unavailable data by predicting the oil interfacial tension (IFT) using Random Forest approach is also presented. The proposed certainty level model is designed to accommodate the predicted value of missed data into the health index model while considering its prediction accuracy. The robustness of the developed model is validated through its application in assessing the health condition of six in-service power transformers. The results indicate that by including the proposed certainty level and the prediction approach to eliminate the issue of uncertain and missed diagnostic data, an asset management decision can be taken on operating power transformer fleets with high level of confidence.
Highlights
IntroductionTo ensure a power system operates safely and reliably, proper condition monitoring and evaluation schemes for network assets is necessary [1]
Power transformers are costly and vital equipment in power system electricity grids
The results show that 47 transformers are in a very good condition, 22 in a good condition, 42 are in a concerning condition and need attention while 41 transformers are in a poor condition
Summary
To ensure a power system operates safely and reliably, proper condition monitoring and evaluation schemes for network assets is necessary [1]. This can be done through measuring specific diagnostic parameters for each asset in regular basis to assess the overall health condition of the asset by integrating all diagnostic parameters into one index, which is often called health index. This index can be used to sort the transformers according to their failure probabilities. It is important that the impact of unavailable data on the overall health index to be understood as this may result in false diagnoses
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