Abstract
Early detection of power transformer fault is important because it can reduce the maintenance cost of the transformer and it can ensure continuous electricity supply in power systems. Dissolved Gas Analysis (DGA) technique is commonly used to identify oil-filled power transformer fault type but utilisation of artificial intelligence method with optimisation methods has shown convincing results. In this work, a hybrid support vector machine (SVM) with modified evolutionary particle swarm optimisation (EPSO) algorithm was proposed to determine the transformer fault type. The superiority of the modified PSO technique with SVM was evaluated by comparing the results with the actual fault diagnosis, unoptimised SVM and previous reported works. Data reduction was also applied using stepwise regression prior to the training process of SVM to reduce the training time. It was found that the proposed hybrid SVM-Modified EPSO (MEPSO)-Time Varying Acceleration Coefficient (TVAC) technique results in the highest correct identification percentage of faults in a power transformer compared to other PSO algorithms. Thus, the proposed technique can be one of the potential solutions to identify the transformer fault type based on DGA data on site.
Highlights
Power transformer is a vital component in power system networks
The accuracy of the support vector machine (SVM) was calculated based on the percentage of correct fault type identification
Hybrid support vector machine (SVM) with modified particle swarm optimisation (PSO) algorithms has been successfully proposed in optimising the SVM performance
Summary
Power transformer is a vital component in power system networks. Failure of power transformers can interrupt power system network operation. Any fault in a transformer should be detected early. Electrical fault in a transformer occurs at high voltage and will eventually cause physical damage to the conductor and insulator of the transformer, leading to the reduction of power quality, blackouts and fire, causing a substantial propriety loss. Early detection of transformer fault is imperative in the operation and maintenance process of power system networks. This is to ensure correct transformer oil maintenance, cost reduction and good quality of electricity supply to power systems
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