摘要
通过安托万方程和拉乌尔定律,研究了不同混合方案下SF_(6)/N_(2)混合气体的液化温度,结合混合气体全球变暖潜能值(GWP)研究结果,分析混合气体的理化特性。文中搭建混合气体绝缘特性试验平台,测试不同混合方案下SF_(6)/N_(2)混合气体的工频击穿电压和直流击穿电压,分析了混合气体中SF_(6)含量对混合气体绝缘性能和理化性能的影响规律。研究表明,在气压为0.5 MPa、SF_(6)含量为30%时,液化温度为-59.8℃,比纯SF_(6)气体下降了30℃,GWP下降了31%,混合气体的绝缘性能基本达到相同压强下纯SF_(6)的80%,在一些严寒地区可替代纯SF_(6)气体在气体绝缘输电线路(GIL)中使用。
Based on Antoine equation and Raoult′s law,the liquefaction temperature of SF_(6)/N_(2) gas mixture under different mixing schemes is studied,and combined with the research results of global warming potential(GWP)of the gas mixture,its physical and chemical properties are analyzed.The power frequency breakdown voltage and DC breakdown voltage of SF_(6)/N_(2) gas mixture under different mixing schemes are tested,and the influence of SF_(6) content on the insulation performance and physicochemical properties of SF_(6)/N_(2) gas mixture is analyzed.The results show that when the gas pressure is 0.5 MPa and SF_(6) accounts for 30%,the liquefaction temperature is-59.8℃,GWP decreases by 30%,and the insulation performance of the mixed gas reaches 80%of pure SF_(6) under the same pressure.In some cold regions,it can replace pure SF_(6) in gas insulated line(GIL).
作者
贾程乾
夏亚龙
倪源
谢施君
张晨萌
JIA Chengqian;XIA Yalong;NI Yuan;XIE Shijun;ZHANG Chenmeng(School of Electrical Engineering, Chongqing University, Chongqing 400044, China;State Grid Sichuan Electric Power Research Insititute, Chengdu 610041, Sichuan, China)
出处
《四川电力技术》
2022年第2期33-37,共5页
Sichuan Electric Power Technology
关键词
SF_(6)/N_(2)混合气体
液化温度
GWP
绝缘特性
SF_(6)/N_(2)gas mixture
liquefaction temperature
global warming potential(GWP)
insulation characteristics
