摘要
CF3I is a potential SF6 alternative gas.In order to study the insulation properties and synergistic effects of CF3I/N2 and CF3I/CO2 gas mixtures,two-term approximate Boltzmann equations were used to obtain the ionization coefficient α,attachment coefficient η and the critical equivalent electrical field strength(E/N)(cr).The results show that the(E/N)(cr)of CF3I gas at 300 K is 1.2 times that of SF6 gas,and CF3I/N2 and CF3I/CO2 gas mixtures both have synergistic effect occurred.The synergistic effect coefficient of CF3I/CO2 gas mixture was higher than that of CF3I/N2 gas mixture.But the(E/N)(cr)of CF3I/N2 is higher than that of CF3I/CO2 under the same conditions.When the content of CF3I exceeds 20%,the (E/N)(cr) of CF3I/N2 and CF3I/CO2 gas mixture increase linearly with the increasing of CF3I gas content.The breakdown voltage of CF3I/N2 gas mixture is also higher than that of CF3I/CO2 gas mixture in slightly non-uniform electrical field under power frequency voltage,but the synergistic effect coefficients of the two gas mixtures are basically the same.
CF3I is a potential SF6 alternative gas.In order to study the insulation properties and synergistic effects of CF3I/N2 and CF3I/CO2 gas mixtures,two-term approximate Boltzmann equations were used to obtain the ionization coefficient α,attachment coefficient η and the critical equivalent electrical field strength(E/N)(cr).The results show that the(E/N)(cr)of CF3I gas at 300 K is 1.2 times that of SF6 gas,and CF3I/N2 and CF3I/CO2 gas mixtures both have synergistic effect occurred.The synergistic effect coefficient of CF3I/CO2 gas mixture was higher than that of CF3I/N2 gas mixture.But the(E/N)(cr)of CF3I/N2 is higher than that of CF3I/CO2 under the same conditions.When the content of CF3I exceeds 20%,the (E/N)(cr) of CF3I/N2 and CF3I/CO2 gas mixture increase linearly with the increasing of CF3I gas content.The breakdown voltage of CF3I/N2 gas mixture is also higher than that of CF3I/CO2 gas mixture in slightly non-uniform electrical field under power frequency voltage,but the synergistic effect coefficients of the two gas mixtures are basically the same.
作者
Su ZHAO
Yunkun DENG
Yuhao GAO
Dengming XlAO
赵谡;邓云坤;高于皓;肖登明(Department of Electrical Engineering,Shanghai Jiao Tong University,Shanghai 200030,People's Republic of China;Postdoctoral Workstation on Yunnan Power Grid Corporation,Kunming 650217,People's Republic of China;School of Electrical and Electronic Engineering,Hubei University of Technology,Wuhan 430068,People's Republic of China)
基金
supported by National Natural Science Foundation of China (Grant No.51337006)
China Postdoctoral Science Foundation (2016M602728)
the Science and Technology Project of SGCC ‘Research on SF_6 Alternative Gas for Insulation and Arc Quenching Application’
