Abstract
The internal pressure of a vacuum interrupter (VI) is increased by arc heat, ceramic cracking, gas leakage, and manufacturing defects. Accordingly, the dielectric strength of VI rapidly decreases. To improve the reliability of power transmission, efficient maintenance through the real-time monitoring of the vacuum degree is essential. However, real-time monitoring of the vacuum degree is difficult, and related research is scarce. Additionally, due to the insulation problems of this technology, there are few commercially available products. Therefore, this paper proposes a method for real-time monitoring of the vacuum degree and an insulation supplement design for a distribution class VI. First, dielectric experiments were conducted to identify the section in which the dielectric strength of the VI rapidly decreased according to the vacuum degree. Second, for real-time monitoring of the VI, several factors were proposed through the partial discharge in the VI, while the capacitance characteristics of the VI were calculated to improve the signal of the internal partial discharge. Finally, to supplement the dielectric problems of the solid insulation high voltage apparatus that occur when real-time monitoring technology is applied, the insulation supplement design was performed through the finite element method (FEM).
Highlights
In the domestic and international electric power market, the research and development of renewable energy and distributed resources are ongoing [1,2,3,4]
It maintains a high vacuum degree of up to 10−7 torr and has excellent insulation performance. Both fixed and moving contacts are enclosed in the Vacuum Interrupter (VI), which performs the current interruption by causing the arc discharge to extinguish naturally in the vacuum
A dielectric total of 10 solid insulation high-voltage apparatus that occur when real-time monitoring technology is applied, the insulation supplement design was performed through the finite element method (FEM)
Summary
In the domestic and international electric power market, the research and development of renewable energy and distributed resources are ongoing [1,2,3,4]. The VI is installed inside the housing made by epoxy resin of solid insulation apparatus It maintains a high vacuum degree of up to 10−7 torr and has excellent insulation performance. Depending on onthe thevacuum vacuumdegree, degree,partial partialdischarge discharge occurs between internalpressure. Resulting dielectric problems cause electrical accidents in solid insulation high voltage apparatus apparatus of of the the VI. Real-time monitoring of installed inside solid insulation apparatus. In the Republic of Korea, real-time monitoring of VI installed insulation apparatus. Magnetron method has been adopted by some electric power companies in section in which the dielectric strength of the VI rapidly decreased according to the vacuum degree. Energies 2021, 14, 7891 occur when real-time monitoring technology is applied, the insulation supplement design was performed through the finite element method (FEM)
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