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Multichannel Discharge Characteristics of Gas Switch Gap in SF_6-N_2 or SF_6-Ar Gas Mixtures Under Nanosecond Triggering Pulses
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作者 常家森 王虎 +1 位作者 张乔根 邱爱慈 《Plasma Science and Technology》 SCIE EI CAS CSCD 2011年第6期719-723,共5页
Experiments were carried out to ascertain multichannel discharge characteristics in a self-designed coaxial field-distortion gas switch filled with SFa-N2 or SF6-Ar gas mixtures of different mixing ratios. In these ex... Experiments were carried out to ascertain multichannel discharge characteristics in a self-designed coaxial field-distortion gas switch filled with SFa-N2 or SF6-Ar gas mixtures of different mixing ratios. In these experiments, the pressure varied from 0.1 MPa to 0.2 MPa, the voltage pulse peak applied to the switch was in the range from 40 kV to 78 kV, and the pulse rise time was 11 ns. The static breakdown strength of the gas switch gap in the switch was also measured. The results show that in general the average number of discharge channels for SF6-Ar or SF6-N2 gas mixture which contains less SFa is larger than that for gas mixture which contains more SF6, however, the average number of channels almost keeps constant as the gas mixing ratio varies when the pulse rise rate is high enough. The static breakdown strength of the gas switch gap decreases slightly as the content of argon or nitrogen increases. 展开更多
关键词 multichannel discharge gas dielectric strength sfB-n2 sf6-Ar mixing ratio
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基于SF_(6)混合气体绝缘性能的设备补气策略研究 被引量:7
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作者 周倩 柯锟 +3 位作者 张晓星 田双双 胡军台 王波 《电力工程技术》 北大核心 2021年第4期175-181,共7页
随着电力需求的增长和环境保护要求的提高,SF_(6)气体的使用逐渐受到限制。SF_(6)混合气体在一定程度上减少了SF_(6)气体用量,目前已经在电气设备中应用。文中针对SF_(6)混合气体在220 kV气体绝缘组合电器(GIS)中发生泄漏引起的绝缘变... 随着电力需求的增长和环境保护要求的提高,SF_(6)气体的使用逐渐受到限制。SF_(6)混合气体在一定程度上减少了SF_(6)气体用量,目前已经在电气设备中应用。文中针对SF_(6)混合气体在220 kV气体绝缘组合电器(GIS)中发生泄漏引起的绝缘变化展开研究,通过改变微量的气压值和混合比,探究混合气体的绝缘性能变化,分析气压、混合比因素对工频击穿电压的影响规律,获取各气压下各比例混合气体的绝缘强度曲线图,从而得到保证设备安全稳定运行的补气策略。研究发现,混合气体击穿电压的变化规律呈现出随着压强和混合比的提高,非线性程度增大的特点,并且得到了设备安全运行的混合比和气压的边界值。文中的研究可以为SF_(6)/N_(2)混合气体绝缘设备提供运维规程和技术标准,同时为制定混合气体的检测技术标准奠定基础。 展开更多
关键词 气体绝缘组合电器(GIS)运维技术 sf_(6)/n_(2)混合气体 击穿电压 替代气体 补气策略
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