Abstract
When DC GIL in operation endures the lightning impulse voltage, the charge accumulation at the gas-solid interface area will seriously affect the insulation performance of the spacer. Considering that gas side conduction is one of the important factors affecting charge accumulation, for the purpose of clarifying of the insulation characteristics of gaseous medium in the flashover process of gas-solid interface, an experimental platform for simulating the working conditions of the spacer is built. The spacer flashover tests were carried out with and without aluminum particle in SF6, 4% C3F7CN /96% CO2 and 20% SF6/80% N2 gas mixture. The measurement and analysis of surface potential distribution behavior of the spacer was conducted. The experiment results show that the gas dielectric is not the factor which dominate the potential distribution process without aluminum particle, and there is little difference in potential distribution with various gaseous conditions. When the linear aluminum particle appears on the surface of the insulator, it will cause severe electric potential distortion and these potential distorted areas are located around the end of the metal particle near the central conductor, and along with flashover pathway. It has also demonstrated that the gaseous dielectric has influence on the surface charge accumulation behavior especially with metallic particle adhere to spacer surface. Under the C3F7CN/CO2 gas mixture, the surface flashover voltage decrease percentage is about 16.82% and may be lower. Besides, the insulation strength of the gaseous dielectric itself is also a key factor affecting flashover.
Highlights
Due to the development of electrical power system, there is an increasing demand for high-voltage direct current (HVDC) systems
In the case of before flashover, we can see that the charge distribution pattern is substantially centrally symmetric and the overall potential is basically positive and decreases along the radial gradient by comparing the potential distribution of the insulator surface in these three kinds of insulating gas mixture
Following conclusions can be summarized from the experiment results: The basic mode of charge accumulation on the spacer surface does not change significantly in different gas insulating medium
Summary
Due to the development of electrical power system, there is an increasing demand for high-voltage direct current (HVDC) systems. The DC gas-insulated transmission line (DC GIL) shows great potential to be applied in actual engineering due to its outcomes of large transmission capacity, high voltage level, and excellent operational reliability [1]. Surface charge accumulation [2], [3], and the other is the problem of metal particles [4] When these two defects exist at the same time, the insulation strength of the interface of the gas-solid insulation material will be notably decreased, and the surface flashover phenomenon of the insulator may be induced [5]. The SF6 alternative gas represented by the SF6/N2 mixture and the
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