Insulation Characteristics of CO{sub}2 Gas for Nonstandard Lightning Impulse Oscillations: Evaluation Method of Nonstandard Lightning Impulse Waveform for CO{sub}2 Gas Insulation

摘要

SF{sub}6 gas is widely used in electric power apparatus such as gas-insulated switchgears (GIS), because of its superior dielectric properties; However, it has been identified as a greenhouse gas at COP3 in 1997, and alternative insulation gases to SF{sub}6 have recently been investigated. One of the candidates is CO{sub}2 gas, which has lower global warming potential (GWP). However, CO{sub}2 gas has a lower withstand voltage level than SF{sub}6 gas; therefore, it is necessary to rationalize the equipment insulation level and reexamine the insulating test voltage for electric power apparatus as low as possible. From our previous investigation, in SF{sub}6 gas insulation system, we obtained that the insulation requirements of the real surges (called nonstandard lightning impulse waveform) are not as severe as those of the standard lightning impulse waveform. This paper describes the evaluation method for real surges, based on insulation characteristics of CO{sub}2 gas gaps. Furthermore, the method was applied to typical field overvoltage waveform in the lightning surge time region for 500-kV systems and it is obtained that the equivalent peak value of the standard lightning impulse waveform is possibly reduced by 10 to 15%.