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Abstract
Ability to organize data spatially while conserving the topological relation between data features makes the Self Organizing Map (SOM) a very useful tool for analysis and visualization of high dimensional data such as a power transformer's Dissolved Gas Analysis (DGA). Past SOM application required large historical data for its training and has limited fault detection sensitivity. In this paper, the effects of input features and data normalization are studied to enhance SOM's clustering. SOM is trained using DGA results extracted from actual faulted transformers. Combination of input features and data normalization methods are tested on SOM before the best SOM is identified. Validation is conducted using several datasets i.e. the IEC Technical Committee 10 database. Compared with past SOM applications, the proposed SOM required lesser training data, improved SOM's sensitivity in incipient fault detection and has good diagnosis accuracy. The proposed SOM is also compared with other AI-based DGA interpretation method i.e. Support Vector Machine (SVM) for benchmarking.
Highlights
Power transformers must always be kept healthy and operational to maintain a reliable and efficient electrical network
Both Self Organizing Map (SOM) were trained using the same set of data [30] and the topological error recorded are 0.006 and 0.004 respectively
If the results were evaluated based on the main types of fault, the diagnosis accuracy of the proposed SOM on Dissolved Gas Analysis (DGA) extracted from transformers without communicating on-load tap changer (OLTC) and with communicating OLTC areto 100% and 95.5% respectively
Summary
Power transformers must always be kept healthy and operational to maintain a reliable and efficient electrical network. Comparison with past SOM applications and other AI-based DGA interpretation method is presented and the proposed method showed good diagnosis accuracy. DGA INTERPRETATION METHOD BASED ON THE IEC 60599 Events such as overloading, switching and faults, release thermal energy inside the power transformer, causing the insulating oil to degrade.
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