非圆柱形电极下纯氮气气体绝缘性能试验研究
陆军,马飞
(江苏南瑞帕威尔电气有限公司,江苏 南京 211100)
摘 要:因氮气物理化学性能稳定,作为环保型气体绝缘介质在气体绝缘开关柜领域受到了重点关注。在目前气体绝缘开关柜常用的非圆柱形电极下对纯氮气分别进行了工频耐压和雷电冲击耐压试验,并对试验结果进行多角度分析,通过曲线拟合得到了较低压力下氮气击穿电压(Ub)与气压和放电距离的乘积(p×d)关系经验公式,研究结果对氮气绝缘开关设备研发具有一定的指导意义。
关键词:气体绝缘开关柜;环保气体;氮气;绝缘性能
中图分类号:TM853 文献标识码:A 文章编号:1007-3175(2019)10-0047-04
Experimental Research on Insulation Performance of Pure N2 Gas in Non-Columniform Electrodes
LU Jun, MA Fei
(Jiangsu Nari Power Electric Co., Ltd, Nanjing 2111 00, China)
Abstract: As an environmentally friendly gas, Nitrogen gas has received close attention recently in the field of gas insulated switchgear due to its stable physical and chemical properties. The power frequency voltage withstand test and lighting impulse voltage withstand test were conducted in lower pressure for the pure N2 gas in non-columniforn electrodes which was commonly used in gas insulated switchgear, and the test result underwent a multi-angled analysis.The curve-fitting method was used to obtain the experiential formula of the relationship between breakdown voltage Ub and p×d in lower pressure. The research result is significant in guiding the research and development of nitrogen
insulated switchgear.
Key words: gas insulated switchgear; environmentally friendly gase; N2; insulation performance
参考文献
[1] 赵虎,李兴文,贾申利.300 K下不同比例CF3I-N2和CF3I-CO2混合气体绝缘特性的计算分析[J]. 高电压技术,2013,39(7):1692-1697.
[2] 肖登明. 环保型绝缘气体的发展前景[J]. 高电压技术,2016,42(4):1035-1046.
[3] 李兴文,赵虎. SF6替代气体的研究进展综述[J]. 高电压技术,2016,42(6):1695-1701.
[4] 吴振跃. 低压力N2 的绝缘特性研究[D]. 上海:上海交通大学,2015.
[5] LIM Dong-Young, BAE Sung-woo. Study on oxygen/nitrogen gas mixtures for the surface insulation performance in gas insulated switchgear[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2015,22(3):1567-1576.
[6] 钱立骁,陈慎言.12~24 kV氮气绝缘环网柜的研制[J]. 高电压技术,2014,40(12):3717-3724.
[7] 崔文军,张交锁. 无SF6气体绝缘开关设备中干燥空气作为绝缘介质的使用[J]. 高压电器,2016,52(12):221-226.
[8] ISMAILOGLU H, KALENDERLI O, OZKAYA M, et al. Breakdown in compressed N2 under impulse voltages[C]//IEEE 1997 Annual Report Conference on Electrical Insulation and Dielectric Phenomena,1997:604-607.
[9] SAITOH H, MORITA K, KIKKAWA T, et al. Impulse partial discharge and breakdown characteristics of rod–plane gaps in air and N2 gases[J]. Electrical Engineering in Japan,2004,148(3):36-43.
[10] 蔡新景,邹晓兵,王新新. 氮气短间隙的耐受电压和气体密度恢复特性[J]. 高电压技术,2011,37(6):1471-1478.
[11] 张红. 高电压技术[M].2 版. 北京:中国电力出版社,2009.
[12] 张京业,戴少涛,施飞,等. HTS电力技术应用中低温氮气的绝缘特性研究[J]. 低温与超导,2015,43(4):13-16.
