Computational Investigation of Arcing Phenomena in 245 kV Hybrid Circuit Breaker
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概要
- 論文の詳細を見る
In this study, the computation analysis of the arc behavior in a 245 kV class 40 kA rated hybrid gas circuit breaker model has been performed. The model includes radiation transport, poly(tetrafluoroethylene) (PTFE) nozzle ablation, contact movement and turbulence-enhanced momentum and energy transport processes. It has been found that the ablated PTFE vapor from the nozzle in the breaker is mainly responsible for the high pressure buildup inside the thermal expansion chamber. This high pressure buildup helps in the strong blowing of the arc in the arcing chamber during the second current zero period.
- Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
- 2007-04-15
著者
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Song Ki
Advanced Power Apparatus Group Keri
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Park Kyong
Advanced Power Apparatus Group Keri
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Lee Byeong
Advanced Power Apparatus Group Keri
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LIAU Vui
Advanced Power Apparatus Group, KERI
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Park Kyong
Advanced Power Apparatus Group, KERI, P.O. Box 20, Changwon 641-600, Korea
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Liau Vui
Advanced Power Apparatus Group, KERI, P.O. Box 20, Changwon 641-600, Korea
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Lee Byeong
Advanced Power Apparatus Group, KERI, P.O. Box 20, Changwon 641-600, Korea
関連論文
- Analysis of Dielectric Recovery for SF_6 Gas-Blast Arc
- Computational Investigation of Arcing Phenomena in 245kV Hybrid Circuit Breaker
- Analysis of Thermal Recovery for SF6 Gas-Blast Arc within Laval Nozzle
- Computational Investigation of Arcing Phenomena in 245 kV Hybrid Circuit Breaker
- Flow Field Computation for Simplified High Voltage Gas Circuit Breaker Model by Upwind Meshfree Method