Abstract
The most common method for inspection of insulators is to measure the change of electrical characteristics such as electric resistance and partial discharge. However, even if there is no physical damage, these values vary depending on the temperature, humidity, and chloride content of the atmosphere. In this respect, an alternative to such methods can be the impact response test, and a frequency response function (FRF) obtained from the test has been widely used as a tool for damage detection. In this study the FRF was applied to identify the cap damage of porcelain insulators. In addition, to solve the danger of high voltage and poor field accessibility near the insulator, a device with high field applicability was developed to measure FRF from a long distance using an auto impact hammer and Micro Electro Mechanical Systems (MEMS) technology. Even though the FRF is most suitable for inspection of porcelain insulators, dynamic characteristics such as natural frequencies may vary depending on manufacturing errors, installation conditions, etc., which may cause difficulties in damage identification. To overcome this limitation, the machine learning (ML) method was applied in this study to provide a diagnostic method that ensured consistent and accurate judgment. As a result of predicting the normal and the cap damage data using the support vector machine (SVM), bagging, k-nearest neighbor (kNN), and discriminant analysis (DA) methods, the overall F1 score was over 87% and the bagging method achieved the highest accuracy. In this study, the frequency range and dynamic characteristics that are sensitive to the physical damage of the insulator were derived and, based on this, the optimum ML methods with improved equipment could provide analysis with higher accuracy and consistency than general analysis using the FRF.
Highlights
Electricity demand is increasing rapidly owing to modern industrial development, mechanical system automation, global warming, and increasing demand for electric vehicles
Analysis was carried out to determine whether the normal and damaged caps were distinguishable for the cristobalite material
Similar waveforms appeared in other normal specimens, and it was confirmed that no peak other than those waveforms appeared in other normal specimens, and it was confirmed that no peak other than those
Summary
Electricity demand is increasing rapidly owing to modern industrial development, mechanical system automation, global warming, and increasing demand for electric vehicles. To reliably supply such a large amount of power, high transmission voltage is required, and a transmission line with high insulation is required. The insulator mechanically fixes the transmission line to the transmission. Sci. 2020, 10, x FOR PEER REVIEW such a large amount of power, high transmission voltage is required, and a transmission line. Sci. 2020, 10, 2820 with high insulation is required. In Korea, a significant amounttower of effort has electrical insulation
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