Abstract
In high-voltage (HV) insulation, electrical trees are an important degradation phenomenon strongly linked to partial discharge (PD) activity. Their initiation and development have attracted the attention of the research community and better understanding and characterization of the phenomenon are needed. They are very damaging and develop through the insulation material forming a discharge conduction path. Therefore, it is important to adequately measure and characterize tree growth before it can lead to complete failure of the system. In this paper, the Gaussian mixture model (GMM) has been applied to cluster and classify the different growth stages of electrical trees in epoxy resin insulation. First, tree growth experiments were conducted, and PD data captured from the initial to breakdown stage of the tree growth in epoxy resin insulation. Second, the GMM was applied to categorize the different electrical tree stages into clusters. The results show that PD dynamics vary with different stress voltages and tree growth stages. The electrical tree patterns with shorter breakdown times had identical clusters throughout the degradation stages. The breakdown time can be a key factor in determining the degradation levels of PD patterns emanating from trees in epoxy resin. This is important in order to determine the severity of electrical treeing degradation, and, therefore, to perform efficient asset management. The novelty of the work presented in this paper is that for the first time the GMM has been applied for electrical tree growth classification and the optimal values for the hyperparameters, i.e., the number of clusters and the appropriate covariance structure, have been determined for the different electrical tree clusters.
Highlights
Electrical treeing is a key degradation phenomenon of high-voltage polymeric insulation [1]
The Gaussian mixture model (GMM) algorithm produces the cluster centers based on the shape of the phase-resolved PD (PRPD) pattern and the partial discharge (PD) activity and plots confidence ellipsoids with a 99% probability threshold as specified in the MATLAB program
The GMM has been utilized for clustering and classification applications in electrical trees emanating from epoxy resin insulation
Summary
Electrical treeing is a key degradation phenomenon of high-voltage polymeric insulation [1]. When electrical trees are initiated, they grow until they bridge the entire insulation material, resulting in catastrophic failure of the power system plant. Electrical trees are strongly related to partial discharge (PD) activity, which is usually characterized using techniques such as phase-resolved PD (PRPD) patterns [2,3], and, to a lesser extent, pulse sequence analysis (PSA) [4], pulse waveform analysis [5], and nonlinear time series analysis [6,7]. When PD activity is severe, there is higher dissipation of energy and greater PD amplitudes, resulting in tree growth, and serious degradation [8,9]. Understanding the tree phenomenon is crucial in determining the remaining lifetime of an electrical asset
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