|
|
|
| External Axial Magnetic Field Excitation System in Intermediate-frequency Current Interruption Experiment |
| Jiang Yuan, Wu Jianwen, Tang Wei |
| School of Automation Science and Electrical Engineering Beihang University Beijing 100191 China |
|
|
|
|
Abstract An external axial magnetic field (AMF) excitation system applied in the intermediate-frequency current interruption experiment is designed.In the system,an intermediate-frequency current transformer (CT) is designed to induct the current in the main circuit and the secondary current is used to excite the Helmholtz coil.So that the AMF which is synchronous with the primary current and regulated by the transformation ratio is generated in axes center of the Helmholtz coil.In this way,the axial magnetic field generated by the contact coil in the current breaker can be simulated.Firstly,the relationship between the inducted magnetic intensity in the axes center of the Helmholtz coil and secondary current is theoretically established.And the designing process for the essential parameters is introduced in detail.Secondly,the equivalent circuit is simplified based on the high magnetic permeability and low leakage inductance of CT.It is proved by calculation that the iron core would not reach saturation when the current root mean square (RMS) value in the circuit is maximal.The phase-difference between the primary current and the secondary current is also verified to be in a reasonable range.Finally,the experiment is implemented to test the excitation system.The magnetic induction intensity is calculated according to the supposed mathematic model of the circuit and the experimental data in the AC experiment.The calculation result of B/I turns out to be consistent with that of the theoretical value,which verifies the effectiveness of this excitation system.
|
|
Received: 03 December 2014
Published: 22 May 2015
|
|
|
|
|
|
[1] 张冠生.电器学[M].北京:机械工业出版社,1979.
[2] Schellekens H.High-current vacuum arc in an axial magnetic field:an experimental investigation[J].Journal of Physics,1983,54(1):144-149.
[3] Shi Zongqian,Jia Shenli,Fu Jun,et al.Axial magnetic field contacts with nonuniform distributed axial magnetic fields[J].IEEE Transactions on Plasma Science,2003,31(2):289-294.
[4] Liu Zhiyuan,Cheng Shaoyong,Zheng Yuesheng,et al.Comparison of vacuum arc behaviors between axial-magnetic-field contacts[J].IEEE Transactions on Plasma Science,2008,36(1):200-207.
[5] Ma Qiang,Rong Mingzhe,Murphy Anthony,et al.Simulation and experimental study of arc motion in a low-voltage circuit breaker considering wall ablation[J].IEICE Transactions on Electronics,2008,91(8):1240-1248.
[6] 王立军,贾申利,刘宇,等.纵磁下真空电弧阳极热过程的仿真[J].电工技术学报,2011,26(3):65-73.
Wang Lijun,Jia Shenli,Liu Yu,et al.Simulation of anode thermal process in vacuum arc under axial magnetic field[J].Transactions of China Electrotechnical Society,2011,26(3):65-73.
[7] 王立军,胡丽兰,周鑫,等.大尺寸电极条件下大电流真空电弧特性的仿真[J].电工技术学报,2013,28(2):163-170.
Wang Lijun,Hu Lilan,Zhou Xin,et al.Simulation of high-current vacuum arc characteristics with big-size electrode conditions[J].Transactions of China Electrotechnical Society,2013,28(2):163-170.
[8] Foosnaes J A,Rondeel W G J.Vacuum arc subjected to an axial magnetic field[J].Journal of Physics D:Applied Physics,1979,12(11):1867-1871.
[9] 孔国威.真空灭弧室阳极斑点临界电流与触头立体角和纵向磁感应强度的关系研究[D].西安:西安交通大学,2013.
[10]Sekikawa Junya,Kubono Takayoshi.Motion of break arcs driven by external magnetic field in a DC42V resistive circuit[J].IEICE Transactions on Electronics,2008,91(8):1255-1259.
[11]Matsui Yoshihiko,Sano Akira,Komatsu Hideki,et al.Vacuum arc phenomena under various axial magnetic field and anode melting[C].24th International Symposium on Discharge and Electrical Insulation in Vacuum,Braunschweig,2010:324-327.
[12]翟国富,周学,杨文英.纵向与横向磁场作用下分断直流感性负载时的电弧特性实验[J].电工技术学报,2011,26(1):68-74.
Zhai Guofu,Zhou Xue,Yang Wenying.Experiment on DC inductive arcs driven by axial and transverse magnetic fields[J].Transactions of China Electrotechnical Society,2011,26(1):68-74.
[13]吴百诗.大学物理[M].北京:科学出版社,2001.
[14]石荣章,谭魏.电流互感器的选用及误差校验[J].电气应用,2011,30(11):64-66.
Shi Rongzhang,Tan Wei.Selection and error checking of current transformer[J].Electrotechnical Application,2011,30(11):64-66.
[15]贾昌奇,叶丽,马全喜.继电保护中电流互感器的选择计算和研究[J].电气应用,2010,29(24):36-38.
Jia Changqi,Ye Li,Ma Quanxi.Selection calculation and research of current transformer in relay protection[J].Electrotechnical Application,2010,29(24):36-38.
[16]丛伟,孙允,路庆东,等.电压互感器励磁特性曲线拟合的复合解法[J].电力系统保护与控制,2013,41(12):60-64.
Cong Wei,Sun Yun,Lu Qingdong,et al.Comprehensive solving method for the fitting of electromagnetic PT excitation characteristic[J].Power System Protection and Control,2013,41(12):60-64.
[17]陈丽,李佳琦,贾清泉,等.一种电流互感器饱和误差补偿算法研究[J].电力系统保护与控制,2009,37(4):41-44.
Chen Li,Li Jiaqi,Jia Qingquan,et al.An error compensation algorithm for saturated current transformer[J].Power System Protection and Control,2009,37(4):41-44.
[18]王一清,阮江军,杨志强.一种基于广义逆的电流互感器励磁特性分析方法[J].电力系统保护与控制,2011,39(6):90-94.
Wang Yiqing,Ruan Jiangjun,Yang Zhiqiang.A method to analyze the excitation characteristics of current transformer based on Moore-Penrose inverse algorithm[J].Power System Protection and Control,2011,39(6):90-94.
[19]于旭东.电流互感器二次开路分析及解决方案[J].电气应用,2010,29(13):60-63.
Yu Xudong.Analysis and solution of secondary circuit in current transformer[J].Electrotechnical Application,2010,29(13):60-63. |
|
|
|
2015, Vol. 30 
