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高压电器  2015 

弓网电弧温度场研究综述

, PP. 173-177

Keywords: 弓网电弧, 温度场, 电弧模型, 电弧能量

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Abstract:

从弓网电弧的电弧模型、电弧能量、电弧的辐射特性等角度,笔者综述了国内外弓网电弧和弓网电弧温度场的研究进展。介绍了电弧模型及其特性的研究现状,论述了弓网电弧能量对弓网系统的影响及其辐射特性,最后指出了弓网电弧温度场研究面临的诸多问题,如电弧处于多场耦合的复杂环境、建立新的电弧模型、流体计算难等。

References

[1]  SCHADE E. Numerical simulation of high-current vacuum arcs with an external axial magnetic field[J]. IEEE Transactions on Plasma Science,2003,31(5): 890-901.
[2]  张婧琳,孙乐民,胡道春,等. 电弧能量对C/C复合材料的载流摩擦磨损行为的影响[J]. 润滑与密封,2009,34(12):27-29. ZHANG Jinglin SUN Lemin HU Daochun,et al.Influence of arc energy on the friction and wear behaviors of C/C composites[J]. Lubrication Engineering,2009,34(12):27-29.
[3]  刘敬超,王 旭.铜基粉末冶金载流摩擦磨损微观型貌分析[J]. 润滑与密封, 2009,34(7):14-17. LIU Jingchao,WANG Xu.Analysis on electrical sliding wear morphology of cu-base powder metallurgy[J]. Lubrication Engineering, 2009,34(7):14-17.
[4]  KUBO S, KATO K. Effect of arc discharge on the wear rate and wear mode transition of a copper-impregnated metallized carbon contact strip sliding against a copper disk[J]. Tribology International,1999,32(7):367-378.
[5]  马行驰,何国求,何大海. 铜石墨合金材料在载流条件下的摩擦磨损行为研究[J]. 摩擦学学报,2008,28(2):167-172. MA Xingchi, HE Guoqiu, HE Dahai, et al.Friction and wear behavior of copper-graphite material under electrical current[J]. Tribology,2008,28(2):167-172.
[6]  BOUCHOUCHA A, ZAIDI H, KADIRI E K,et al.Influence of electric fields in the tribological behaviour of electro- dynamical copper/steel contacts[J]. Wear,1997(203/204):434-441.
[7]  KUBO S, KATO K. Effect of arc discharge on wear rate of Cu-impregnated carbon strip in unlubricated sliding against Cu trol-ley under electric current[J]. Wear,1998(216):172-178.
[8]  周 玮,臧春艳,何俊佳. 电气参数和机械参数对继电器直流电弧的影响[J]. 中国电机工程学报,2006,26(19):151-155. ZHOU Wei, ZANG Chunyan, HE Junjia.Influence of electric and mechanism parameters on DC arc in relays[J].Proceedings of the CSEE,2006,26(19):151-155.
[9]  王伟宗. 空气开关电弧仿真技术及其应用的研究[J]. 低压电器,2010(5):7-10. WANG Weizong.Research of simulation technique of electric arc in air switch and its applications[J]. Low Voltage Electrical,2010(5):7-10.
[10]  AUBRECHTT V. LOWKE J J. Calculations of radiation transfer in SF6 plasmas as using the method of partial characteristics[J]. Journal of Physics D:Applied Physics,1994,27(10):2066-2073.
[11]  曹云东,纪腾飞,刘晓明.高压SF6断路器三维动态电弧仿真[J]. 中国电机工程学报,2010,30(32): 342-346. CAO Yundong,JI Tengfei,LIU Xiaoming.Three dimensional dynamic arc simulation for high-voltage SF6 circuit breaker[J]. Proceedings of the CSEE,2010,30(32): 342-346.
[12]  杨 茜,荣命哲.低压断路器中空气电弧运动的仿真及实验研究[J]. 中国电机工程学报,2006,26(15):89-94. YANG Qian,RONG Mingzhe. Simulation and experimental research on air arc motion in low-voltage circuit breaker[J]. Proceedings of the CSEE,2006,26(15):89-94.
[13]  吴积钦. 受电弓和接触网系统[M]. 成都:西南交通大学出版社,2010.
[14]  高宗宝,吴广宁,吕 玮,等. 高速电气化铁路中的弓网电弧现象研究综述[J]. 高压电器,2009,45(3):104-108. GAO Zongbao,WU Guangning,LYU Wei,et al.Research review of arc phenomenon between pantograph and catenary in high-speed electrified railway[J]. High Voltage Apparatus,2009,45(3):104-108.
[15]  吴积钦,钱清泉. 弓网系统电弧侵蚀接触线时的热分析[J]. 铁道学报,2008,30(3):31-34. WU Jiqin,QIAN Qingquan.Thermal analysis of arc erosion of contact wire of the pantograph & catenary system[J].Journal of The China Railway Society,2008,30(3):31-34.
[16]  郭艳玲,王洪涤,孙树朴. 牵引电网过电压产生机理及测试研究[J]. 电工技术杂志,2002(9):25-27. GUO Yanling,WANG Hongti,SUN Shupu. Research on the reasons and tests of overvoltage arising interaction power supply system[J]. Electrical Engineering,2002(9):25-27.
[17]  BURM A T K, GOEDHEER J W, SCHRAM C D. Plasma expansion in the preshock region[J]. Journal of Applied Physics,2001,90(5):2162-2168.
[18]  SWIERCZYNSKI B, GONZALEA J J,TEULET P,et al.Advance in low voltage circuit breaker modeling[J]. Journal of Physics D:Applied Physics,2004,37(4):595-609.
[19]  BERNARDI D,COLOMBO V,GHEDINI E,et al.Three dimensional time-dependent modeling of magnetically deflected transferred arc[J]. IEEE Transactions on Plasma Science,2005,33(2): 428-429.
[20]  LIU X M, CAO Y D,WANG E Z. Numerical analyses on the interaction of arc and flow field for SF6 circuit breaker[J].IEEE Transactions on Magnetics,2006, 42(4): 1047-1050.
[21]  ZHU P, LOWKE J J, MORROW R.A unified theory of free burning arc,cathode sheaths and cathodes[J]. Journal of Physics D:Applied Physics,1992,25(8):1221-1230.
[22]  LOWKE J J,KOVITYA P, SCHMIDT H P. Theory of free burning arc columns including the influence of the cathode[J]. Journal of Physics D:Applied Physics,1992,25(11):1600-1606.
[23]  ZHANG J F,FANG M T C. Theoretical investigation of a 2 kA DC nitrogen arc in a supersonic nozzle[J]. Journal of Physics D:Applied Physics,1987(20):366-379.
[24]  DERON C,RIVIERE P,PERRIN M Y,et al.Modeling radiative properties of LTE air atmospheric plasmas[C]//15th International Conference on Gas Discharges and Their Applications. Toulouse:IEEE,2004:145-148.
[25]  CASSIA A M. Theorie novelle des arc de rupture et de larigidite des circuit [C]// CIGRE.[S.l.]:IEEE,1939:102.
[26]  MAYR O.Theorie des statibchen and des dynailischen lichtbogens[J]. Arehivf,EIektmtechnik,1943(12):588.
[27]  COWLEY M D.Integral method of arc analysis[J]. Application of Physics,1974(7):2218-2222.
[28]  SWANSON B W,ROICLT R M.Boundary layer analysis of an SF6 circuit breaker arc[J]. IEEE Transactions on Power Apparatus and Systems,1971,5(3):1086.
[29]  HERMANN W,RAGALLER K.Theoretical description of the current interruption in HV gas blast breakers[J]. IEEE Transactions on Power Apparatus and Systems,1977,96(5): 1546-1555.
[30]  LOWKE J J,LOCKI H C.A simple model for high current arc stabilized by forced convection[J]. Application of Physics,1975(46):3325-3329.
[31]  CASYE M T.FANG D B.A current zero arc model based on forced convection[J]. IEEE Trans.on Plasma Science,1979,7(4):217-229.
[32]  KARETTA F. Simulation of the gas dynamic and electromagnetic processes in low voltage switching arcs[J]. IEEE Transactions on Components,Packaging, and Manufacturing Technology,1998,21(1): 96-103 .

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