Fundamental Insulation Characteristics and Impulse Ratio of CO₂ Gas

Abstract

SF₆ gas has been used as an excellent insulating and arc-quenching gas for electric power apparatus such as SF₆ gas insulated switchgear (GIS). However, since SF₆ gas was specified to be a greenhouse gas because of its high global warming potential (GWP), environmental-friendly gases or gas mixtures alternative to SF₆ gas are strongly required to be developed. Especially, the development of insulation gases without SF₆ gas is an important task for the future electric power system.
We focused our research on CO₂ gas and CO₂-based gas mixtures such as CO₂/O₂, CO₂/N₂ with small GWP as SF₆ substitutes, and investigated partial discharge (PD) and breakdown (BD) characteristics under lightning impulse and ac voltage applications. In this paper, PD inception electric field (PDIE), BD electric field (BDE) and the impulse ratio were obtained in CO₂, N₂, SF₆ gases and CO₂-based gas mixtures, and discharge mechanisms of CO₂ gas were discussed. Experimental results revealed that impulse ratio in CO₂ gas was higher than those in SF₆ and N₂ gases, and dielectric-coating effect in CO₂ gas was higher than that in SF₆ gas. These results were attributed to the lower generation probability of initial electrons in CO₂ gas.