高气压下环保型C4F7N/CO2混合气体工频击穿特性

doi:10.19595/j.cnki.1000-6753.tces.L80379

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摘要全氟异丁腈（C₄F₇N）及其混合气体是近年来被广泛关注的可能替代六氟化硫（SF₆）的新型环保绝缘气体。为了探究C₄F₇N/CO₂混合气体应用于高气压电气设备的潜力,利用气体绝缘特性实验平台对C₄F₇N/CO₂混合气体在不同混合比、不同气压下的工频击穿特性进行了实验研究,并与相同条件下的SF₆进行了对比,同时结合饱和蒸气压特性探讨了C₄F₇N/CO₂混合气体应用于工程实际时的混合比选取范围。研究发现,C₄F₇N/CO₂混合气体的击穿电压随气压和混合比的升高呈饱和增长趋势,C₄F₇N体积分数分别为10%和20%的C₄F₇N/CO₂混合气体可以达到相同条件下SF₆绝缘水平的80%和95%以上,C₄F₇N与CO₂气体之间存在协同效应。综合工频击穿强度、液化温度等因素,体积分数4%~12%的混合气体具备应用于高气压（0.4~0.6MPa）气体绝缘设备的潜力。

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关键词 ： C₄F₇N/CO₂混合气体, 液化温度, 工频击穿特性, 新型环保绝缘气体

Abstract：Perfluoroisobutyronitrile(C₄F₇N) and its gas mixtures are new environmental-friendly insulating medium that have received extensive attention in recent years and may replace sulfur hexafluoride (SF₆). In this paper ,in order to explore the potential of C₄F₇N/CO₂ gas mixtures applied to highpressureelectrical equipment,the power frequency breakdown characteristics of C₄F₇N/CO₂ gas mixtures at different mixing ratios and pressures were studied and compared with SF6 under the same conditionsthrough the gas insulated test platform and the mixing ratio range of C4F7N/CO₂ gas mixtures applied in engineering practice was discussed in combination with the saturated vapor pressure characteristics. The results show that the breakdownvoltages of C₄F₇N/CO₂ gas mixtures show saturated growth trend with the increase of pressure and mixing ratio in the experimental interval. The C₄F₇N/CO₂ gas mixtures with C₄F₇N content of 10% and 20% can reach 80% and more than 95% of the SF6 insulation level under the same conditions, respectively, and there is a synergistic effect between C4F7N and CO₂ gas. Considering factors such as power frequency breakdown strength and liquefaction temperature, the gas mixtures with C₄F₇N content of 4% to 12% have the potential to be applied to highpressure（0.4MPa~0.6MPa）gasinsulated equipment.

Key words： C₄F₇N/CO₂gasmixtures liquefaction temperature power frequency breakdown characteristics new environmental-friendly insulating gas

收稿日期: 2018-07-01 出版日期: 2019-07-17

PACS:

TM835

基金资助:基金：南方电网公司重点科技资助项目（ZBKJXM20170090）

通讯作者: 张晓星,男,1972年生,博士,教授,博士生导师,研究方向为电气设备在线监测与故障、绝缘状态评估、新型传感器技术以及SF₆环保替代气体等。E-mail：xiaoxing.zhang@outlook.com

作者简介: 陈琪,男,1995年生,硕士研究生,研究方向为气体绝缘电气设备在线监测和SF6环保替代气体等。E-mail：chenqi95@whu.edu.cn

引用本文:

张晓星, 陈琪, 张季李, 祎肖淞. 高气压下环保型C₄F₇N/CO₂混合气体工频击穿特性[J]. 电工技术学报, 2019, 34(13): 2839-2845. Zhang Xiaoxing, Chen Qi, Zhang JiLi, Yi Xiao Song. Power Frequency Breakdown Characteristics of Environmental-Friendly C₄F₇N/CO₂ Gas Mixtures under High Pressure Conditions. Transactions of China Electrotechnical Society, 2019, 34(13): 2839-2845.

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[1] Rabie M, Franck C M.Assessment of eco-friendly gases for electrical insulation to replace the most potent industrial greenhouse gas SF₆[J]. Environmental Science & Technology, 2018, 52(2): 369-380.
[2] 张晓星, 田双双, 肖淞, 等. SF₆替代气体研究现状综述[J]. 电工技术学报, 2018, 33(12): 2883-2893.
Zhang Xiaoxing, TianShuangshuang, Xiao Song, et al. A review study of SF₆ substitute gases[J]. Transactions of China Electrotechnical Society, 2018, 33(12): 2883-2893.
[3] Zhang Xiaoxing, Xiao Hanyan, Tang Ju, et al.Recent advances in decomposition of the most potent greenhouse gas SF₆[J]. Critical Reviews in Environmental Science & Technology, 2017, 47(18): 1763-1782.
[4] 李鑫涛, 林莘, 徐建源, 等. SF₆/N₂混合气体电击穿特性仿真及实验[J]. 电工技术学报, 2017, 32(20): 42-52.
Li Xintao, Lin Xin, XuJianyuan, et al. Simulations and experiments of dielectric breakdown characteristics in SF₆/N₂ gas mixtures[J]. Transactions of China Electrotechnical Society, 2017, 32(20): 42-52.
[5] 邓云坤, 马仪, 赵谡, 等. 基于电子输运参数的 CF₃I及CF₃I-N₂混合气体绝缘性能分析[J]. 电工技术学报, 2018, 33(7): 1641-1651.
Deng Yunkun, Ma Yi, Zhao Su, et al.Analysis of the insulation properties of CF₃I and CF₃I-N₂ gas mixtures from electron transport parameters[J]. Transactions of China Electrotechnical Society, 2018, 33(7): 1641-1651.
[6] Hyrenbach M, Zache S.Alternative insulation gas for medium-voltage switchgear[C]//Petroleum and Chemical Industry Conference Europe, Berlin, Germany, 2016: 1-9.
[7] Romero A, Rácz L, Mátrai A, et al.A review of sulfur-hexafluoride reduction by dielectric coatings and alternative gases[C]//2017 6th International Youth Conference on Energy(IYCE), Budapest, Hungary, 2017: 1-5.
[8] Owens J G.Greenhouse gas emission reductions through use of a sustainable alternative to SF₆[C]//IEEE Electrical Insulation Conference(EIC), Montreal, Canada, 2016: 535-538.
[9] Kieffel Y, Biquez F.SF₆ alternative development for high voltage switchgears[C]//IEEE Electrical InsulationConference(EIC), Seattle, America, 2015: 379-383.
[10] 李兴文, 邓云坤, 姜旭, 等. 环保气体C₄F₇N和C₅F₁₀O与CO₂混合气体的绝缘性能及其应用[J]. 高电压技术, 2017, 43(3): 708-714.
Li Xingwen, Deng Yunkun, Jiang Xu, et al.Insulation performance and application of enviroment-friendly gases mixtures of C₄F₇N and C₅F₁₀O with CO₂[J]. High Voltage Engineering, 2017, 43(3): 708-714.
[11] Nechmi H E, Beroual A, Girodet A, et al.Effective ionization coefficients and limiting field strength of fluoronitriles-CO₂mixtures[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2017, 24(2): 886-892.
[12] Kieffel Y, Irwin T, Ponchon P, et al.Green gas to replace SF₆ in electrical grids[J]. IEEE Power and Energy Magazine, 2016, 14(2): 32-39.
[13] 肖登明, 阎究敦. 气体绝缘输电线路(GIL)的应用及发展[J]. 高电压技术, 2017, 43(3): 699-707.
Xiao Dengming, Yan Jiudun.Application and development of gas insulated transmission line (GIL)[J]. High Voltage Engineering, 2017, 43(3): 699-707.
[14] 邓云坤, 马仪, 陈先富, 等. CF₃I-N₂混合气体在稍不均匀和极不均匀电场中的工频击穿特性[J]. 高电压技术, 2017, 43(3): 754-764.
Deng Yunkun, Ma Yi, Chen Xianfu, et al.AC breakdown characteristics of CF₃I-N₂ gas mixtures in condition of quasi-homogeneous and extremely non-uniform electric field[J]. High Voltage Engineering, 2017, 43(3): 754-764.
[15] 马沛生. 化工数据教程[M]. 天津: 天津大学出版社, 2008.
[16] Li Yi, Zhang Xiaoxing, Chen Qi, et al.Study on the dielectric properties of C₄F₇N/N₂ mixture under highly non-uniform electric field[J]. IEEE Access, 2018, 6: 42868-42876.
[17] 赵智大. 高电压技术[M]. 2版. 北京: 中国电力出版社, 2006.
[18] 杨津基. 气体放电[M]. 北京: 科学出版社, 1983.
[19] Kieffel Y.Characteristics of g³-an alternative to SF₆[C]//2016 IEEE International Conference on Dielectrics (ICD), Montpellier, Canada, 2016, 2: 880-884.
[20] 焦俊韬, 肖登明, 赵谡, 等. 低比例CF₃I的CF₃I-CO₂混合气体在极不均匀电场中的绝缘特性[J]. 高电压技术, 2017, 43(3): 772-779.
Jiao Juntao, Xiao Dengming, Zhao Su, et al.Insulation characteristics for CF₃I-CO₂ gas mixtures with low proportion of CF₃I in extreme non-uniform electric field[J]. High Voltage Engineering, 2017, 43(3): 772-779.
[21] 肖淞, 张晓星, 韩晔飞, 等. 不均匀电场下CF₃I/N₂混合气体工频击穿特性实验[J]. 电工技术学报, 2016, 31(20): 228-236.
Xiao Song, Zhang Xiaoxing, Han Yefei, et al.Experiment on power frequency puncture of CF₃I/N₂ gas mixtures in non-uniform electric fields[J]. Transactions of China Electrotechnical Society, 2016, 31(20): 228-236.