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SF_6自能膨胀式断路器开断大电流过程的数值模拟与分析 被引量:3

Simulation of Heavy Fault Current Interruption in an SF6 Auto-Expansion Circuit Breaker
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摘要 在建立喷口电弧与喷口烧蚀蒸气相互作用的数学模型基础上,应用有限元方法数值模拟了SF6自能膨胀式断路器开断大电流的过程,计算并分析介质恢复过程。研究结果表明:膨胀室内压力的建立与燃弧过程密切相关,第二个电流半波的燃弧过程,对压力的影响较第一个电弧电流半波的大,是压力建立的关键过程。电流过零后灭弧室气流特性主要为:由于膨胀室内气流的作用,喷口喉部内形成一滞止区,弧隙间的温度迅速下降,喷口下游气流逐渐发展成超音速流。介质强度恢复特性表现为迅速上升的过程,而后为缓慢上升的过程;开断电流减小,介质强度恢复的速度快,介质强度高。 Based on the mathematical model of the interaction between nozzle arc and ablated vapour, a heavy fault current interruption is numerically simulated on an SF6 auto-expansion circuit breaker by finite element method, and its recovery process of dielectric strength is analyzed. The results show that the pressurization in the expansion volume strongly depends on the arcing process. The crucial stage for the pressure established in the expansion volume is in the second half wave of arcing current, and its influences on the pressure are more serious than that of the first half wave of arcing current. The stagnation region is formed in the nozzle throat after current zero due to the gas flow from the expansion volume, and the temperature of the gap between moving contact and fixed contact is quickly decreased, and the supersonic flow is produced gradually at the downstream of the nozzle. The recovery characteristics of dielectric strength is rising quickly at the beginning stage of its recovery process and then increasing slowly along with time. There are higher dielectric strength and faster recovery process of dielectric strength when interrupting current decreasing.
作者 张俊民
机构地区 北京航空航天大学电气工程系
出处 《电工技术学报》 EI CSCD 北大核心 2004年第9期6-9,17,共5页 Transactions of China Electrotechnical Society
关键词 电弧动态数学模型 膨胀室 气流场 介质恢复强度 Arc dynamic mathematical model,expansion volume,gas flow field,dielectric strength
分类号 TM561 [电气工程—电器]
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参考文献6

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二级参考文献10

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共引文献26

同被引文献43

  • 1张长虹,杨旭,黎卫国,陈伟民,陈蔚,黄大为.断路器开断短路电流累积烧蚀效应研究[J].高压电器,2020,56(2):53-61. 被引量:9
  • 2张俊民.喷口电弧与喷口材料蒸气相互作用的数学模型[J].中国电机工程学报,2004,24(7):206-209. 被引量:20
  • 3FanJinglian(范景莲).粉末冶金工程,2003,13(2):9-9.
  • 4Amirjan M et al. Int Journal of Refractory Metals & Hard Materials [J], 2009 (27): 729.
  • 5Korthauer M et al. Theoretical and Applied Fracture Mechanics[J], 2006, 46: 219.
  • 6Shinhoo Kang et al. IEEE Trans on CHMT[J], 1989, 12(1): 32.
  • 7ZhaiGuofu(霍国富).中国电机工程学报,2009,29(9):118-118.
  • 8XiongWeihao(熊惟恰).华中科技大学学报,2008,4(36):80-80.
  • 9GuoFengyi(郭风仪).中国电机工程学报,2004,24(9):209-209.
  • 10CaiYixiang(蔡一湘).粉末冶金材料科学与工程,1997,2(1):11-11.

引证文献3

二级引证文献14

电工技术学报
2004年 第9期

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