【人物简介】

一、学习和工作简历 1993.9～1997.7：于西安交通大学电器专业攻读并获得学士学位； 1997.9～2000.4：于西安交通大学电器专业攻读并获得硕士学位； 2000.4～2004.6：于西安交通大学电器专业攻读并获得博士学位； 2004.7～2005.7：于西安交通大学电气工程学院任讲师； 2005.8：破格晋升为副教授； 2008.9：入选西安交通大学“青年骨干教师培养计划”； 2009.4～2009.7：美国加州大学Berkeley分校作访问学者 2011.1：晋升为教授 二、学术兼职 1、电力设备电气绝缘国家重点实验室 固定研究人员 2、特种电气技术教育部重点实验室（B类）秘书 管理委员会成员 3、国家自然科学基金委员会同行评议专家 4、IEEE会员 5、IEICE会员 三、指导研究生和本科生情况 1、每年招收本科毕业设计3-4名 2、每年招收硕士研究生2-3名（已毕业12名） 3、协助指导博士生10名（已毕业4名）

【研究方向】

1．真空电弧理论及其应用 2．大容量直流开断技术 3．放电等离子体及其应用

【研究成果】

发表论文70余篇，其中SCI检索39篇，EI检索25篇；获授权国家发明专利4项，软件著作权1项；主持及参与科研项目20余项，总经费400余万；获高等学校科学研究优秀成果奖自然科学奖一等奖1项，博士学位论文获全国百篇优秀博士学位论文提名奖。

【科研项目】

[1]国家自然科学基金，高速真空直流开断中的电弧特性及其控制机理，主持，2008.01～2010.12，21万，结题 [2]国家自然科学基金，环境友好SF6替代气体灭弧性能的实验研究，参加，2009.01～2011.12，35万，在研 [3]国家自然科学基金，液体中电弧放电制备碳纳米材料机理研究及其磁场控制，参加，2004.01～2006.12，24万，结题 [4]国家自然科学基金，非均匀纵向磁场对真空电弧集聚现象抑制机理的研究，参加，1999.01～2001.12，11万，优秀结题 [5]电力设备电气绝缘国家重点实验室，真空电弧除鳞技术中的电弧特性，主持，2009.1～2010.12，4万，优秀结题 [6]电力设备电气绝缘国家重点实验室，真空电弧阴极斑点群体特性的研究，主持，2005.4～2007.3，3万，优秀结题 [7]西安交通大学自然科学基金，真空电弧的阴极斑点在纵向磁场中的运动及其分布的研究，主持，2004.10～2006.10，2万，结题 [8]宝山钢铁股份有限公司，磁场作用下等离子体除鳞研究，主持，2011.3～2012.4，15.8万，在研 [9]上海电器科学研究所，直流开断装置的研制，共同主持，2007.4～2010.7，75万，结题 [10]中国船舶重工集团公司第七一二研究所，真空断路器虚拟样机技术研究，共同主持2010.09～2012.06，45万，在研 [11]法国施奈德公司，Influence of AMF distribution on high current vacuum arc in vacuum interrupter，共同主持，2006.04～2007.03，4万欧元，结题 [12]法国施奈德公司，Simulation of interaction between anode activity and arc column in vacuum arc，共同主持，2008.04～2009.03，3.3万欧元，结题 [13]教育部博士点基金，纵向磁场中真空电弧动态特性的研究，参加，2010.01～2012.12，6万，在研 [14]教育部博士点基金，真空电弧与阳极蒸汽相互作用的仿真与实验研究，参加，2009.01～2011.12，3.6万，在研 [15]上海电器科学研究所，直流开断技术研究，参加，2004.02～2006.02，30万，结题 [16]法国施奈德公司，Simulation of high current vacuum arc，参加，2006.04～2007.03，2万欧元，结题 [17]电力设备电气绝缘国家重点实验室，电爆炸金属丝放电等离子体及其应用，参加，2009.01～2011.12，50万，在研 [18]电力设备电气绝缘国家重点实验室，纵向磁场的分布对真空电弧阳极活动影响的研究，参加，2006.04～2008.04，4万，优秀结题 [19]电力设备电气绝缘国家重点实验室，大电流真空电弧阳极活动研究，参加，2004.05～2006.05，4万，优秀结题 [20]电力设备电气绝缘国家重点实验室，大电流真空电弧动态过程研究，参加，2007.05～2009.04，4万，优秀结题 [21]教育部“创新工程”研究生精品课程大讲堂“放电等离子体物理及其应用”，主要负责人，2005.7-2005.8，完成 [22]中国开放式教育资源组织MIT开放式课件《低温等离子体物理基础》，主要负责人，2004.11-2006.10，完成 [23]上海石化，发电机出口大容量断路器研究，参加，2003.09～2004.12，10万，结题

【论文著作】

[1]Xiaochuan Song, Zongqian Shi, Chang Liu, Hongyi Yang, Ming Ma, Shenli Jia, and Lijun Wang, “Experimental Investigation on the Characteristics of Drawn Vacuum Arc in Initial Expanding Stage and in Forced Current-zero Stage,” IEEE Trans. On Plasma Sci., Vol. 39, No. 6, 2011 (SCI源刊录用) [2]Shenli Jia, Xiaochuan Song, Zongqian Shi, Lijun Wang, and Xintao Huo, “Investigations on the Motion of High-Current Vacuum Arc Cathode Spots under Magnetic Field,” IEEE Trans. On Plasma Sci., Vol. 39, No. 6, 2011 (SCI源刊录用) [3]Shenli Jia, Xiaochuan Song, Xintao Huo, Zongqian Shi, and Lijun Wang, “Investigation of Vacuum Arc Voltage Characteristics Under Different Axial Magnetic Field Profiles,” Plasma Science and Technology, Vol. 12, No. 6, 2010: 729-733 (SCI：705WS) [4]S. L. Jia, D. G. Yang, X. T. Huo, X. C. Song, Z. Q. Shi, and L. J. Wang, “Investigation on the Inclination of Cathode Plasma Jets in High-Current Vacuum Arcs in Magnetic Field,” IEEE Trans. On Plasma Sci., Vol. 38, No. 10, 2010: 2914-2921 (SCI：670KV) [5]L J. Wang, L. H. Wang, S. L. Jia, Z. Q. Shi, D. G. Yang, and Y. Liu, “Experimental Study of Anode Activities in High Current Vacuum Arc Subjected to Axial Magnetic Fields Under Different Conditions,” IEEE Trans. On Plasma Sci., Vol. 38, No. 7, 2010: 1682-1691 (SCI：651YG) [6]L. J. Wang, S. L. Jia, Y. Liu, B. Chen, D. G. Yang, and Z. Q. Shi, “Modeling and simulation of anode melting pool flow under the action of high-current vacuum arc,” J. App. Phys., Vol. 107, No. 11, 2010: 113306 (SCI：612NU) [7]R. Li, X. W. Li, S. L. Jia, A. B. Murphy, and Z. Q. Shi, “Study of Different Models of the Wall Ablation Process in Capillary Discharge,” IEEE Trans. On Plasma Sci., Vol. 38, No. 4, 2010: 1033-1041 (SCI: 581ON) [8]Jian Zhang, Xingwen Li, Shenli Jia, Zongqian Shi, and Lijun Wang, “Influence of Shock Wave on Turbulence in SF6 Puffer Circuit Breaker,” Plasma Science and Technology, Vol. 12, No. 1, 2010: 76-80 (SCI：560WQ) [9]Yang Dingge, Wang Lijun, Jia Shenli, Wang Liuhuo, Shi Zongqian, Li Yao, “Experimental Investigation of Anode Activities in High-Current Vacuum Arcs”, IEEE Trans. On Plasma Sci., Vol. 38, No. 2, 2010: 206-213 (SCI: 553UB) [10]Wang Lijun, Jia Shenli, Liu Ke, Wang Liuhuo, Shi Zongqian, “Numerical simulation of high-current vacuum arc characteristics under combined action of axial magnetic field and external magnetic field from bus bar,” Physics of Plasmas, Vol. 16, No. 10, 2009: 103502 (SCI: 513YK) [11]Zongqian Shi, Shenli Jia, Xiaochuan Song, Zhigang Liu, Hong Dong, and Lijun Wang, “The influence of axial magnetic filed distribution on high-current vacuum arc,” IEEE Trans. On Plasma Sci., Vol. 37, No. 8, 2009: 1446-1451 (SCI：481PA) [12]Zongqian Shi, Shenli Jia, Hong Dong, Zhigang Liu, Xiaochuan Song, and Lijun Wang, “The Influence of Axial Magnetic Field Distribution on the Initial Expansion Process in Triggered Vacuum Arc,” IEEE Trans. On Plasma Sci., Vol. 37, No. 8, 2009: 1452-1457 (SCI：481PA) [13]Lijun Wang, Shenli Jia, Dingge Yang, Ke Liu, Guolei Su, and Zongqian Shi, “Modeling and simulation of anode activity in high-current vacuum arc,” Journal of Physics D: Applied Physics., 2009，42(14)：145203.（SCI：470AN） [14]Zongqian Shi, Zhigang Liu, Shenli Jia, Xiaochuan Song, and Lijun Wang, “Experimental Investigation on the Influence of Axial Magnetic Field Distribution on Resisting the Constriction of a High-Current Vacuum Arc,” Plasma Science and Technology, Vol. 11, No. 3, 2009: 290-292 (SCI：459GL) [15]Gang Xing, Shenli Jia, and Zongqian Shi, “Influence of magnetic field parallel to the arc on the formation of carbon nano-materials by arc discharge in water,” Carbon, Vol. 47, No. 8, 2009: 2131-2133 (SCI：456OG) [16]Dingge Yang, Lijun Wang, Shenli Jia, Xintao Huo, Ling Zhang, Ke Liu, and Zongqian Shi, Dynamic process of high-current vacuum arc with consideration of magnetic field delay: numerical simulation and comparisons with the experiments, J. Phys. D: Appl. Phys, 42, 2009 (SCI：413WU) [17]Jian Zhang, Shenli Jia, Xingwen Li, Zongqian Shi, and Lijun Wang, “Simulation of the Influences of the Pressure Ratio and Cu Vapour on SF6 Arc Characteristics,” Plasma Science and Technology, Vol. 11, No. 1, 2009: 52-56 (SCI：459GL) [18]Zongqian Shi, Shenli Jia, Lijun Wang, Qingjun Yuan, and Xiaochuan Song, “Experimental investigation on the motion of cathode spots in removing oxide film on metal surface by vacuum arc,” Journal of Physics D: Applied Physics, Vol. 41, No. 17, 2008: 5209-5212 (SCI：340YI) [19]Wang LJ, Jia SL, and Shi ZQ, “Influence of jet angle and ion density of cathode side on low current vacuum arc characteristics,” Plasma Science and Technology, Vol. 10, No. 2, 2008: 193-197 (SCI：290JX) [20]Wang LJ, Jia SL, Zhang L, Yang DG, Shi ZQ, Gentils F, and Jusselin B, “Current constriction of high-current vacuum arc in vacuum interrupters,” J. App. Phys., Vol. 103, No. 6, 2008: 063301 (SCI：281ZH) [21]Wang LJ, Jia, SL, Zhang L, Yang DG, and Shi ZQ, “Influence of arc currents and axial magnetic fields strength on high current vacuum arc,” European Physical Journal-Applied Physics, Vol. 41, No. 3, 2008: 243-249 (SCI：287LQ) [22]Zongqian Shi, Jia Xiao, Shenli Jia, Yue Zhang, and Lijun Wang, Statistical simulation on the random and retrograde motion of single cathode spot of vacuum arc,” Journal of the Vacuum Society of Japan, Vol. 50, No. 5, 2007: 337-340 (EI：073410770518) [23]Gang Xing, Shenli Jia, and Zongqian Shi, “Influence of transverse magnetic field on the formation of carbon nano-materials by arc discharge in liquid,” Carbon, Vol. 45, No. 13, 2007: 2584-2588 (SCI：232QG) [24]Gang Xing, Shenli Jia, and Zongqian Shi, “The production of carbon nano-materials by arc discharge under water or liquid nitrogen,” New Carbon Materials, Vol. 22, No. 4, 2007: 337-341 (SCI：246YJ) [25]Lijun Wang, Shenli Jia, Zongqian Shi, Ling Zhang, and Mingzhe Rong, “Numerical simulation of low current vacuum arc supersonic flow,” Plasma Science and Technology, Vol. 9, No. 6, 2007: 661-665（SCI：256DC） [26]Zongqian Shi, Shenli Jia, Lijun Wang, Xingwen Li, and Zheng Wang, “The Distribution of Cathode Spots in Vacuum Arc Under Nonuniform Axial Magnetic Fields,” Plasma Science and Technology, Vol. 9, No. 6, 2007: 666-669（SC：256DC） [27]Gang Xing, Shenli Jia, Jian Xing, Zongqian Shi, “Analysis of the carbon nano-structures formation in liquid arcing,” Plasma Science and Technology, Vol. 9, No. 6, 2007: 770-773（SCI：256DC） [28]Xingwen Li, Degui Chen, Hongwu Liu, Zongqian Shi, and Jianhua Wang, “Experimental study of the influence of gassing material on blow open force and arc motion,” Plasma Science and Technology, Vol. 9, No. 6, 2007: 657-660（SCI：256DC） [29]Zongqian Shi, Jia Xiao, Shenli Jia, Zhigang Liu, and Lijun Wang, “The influence of gap distance on the random walk of cathode spot in vacuum arc,” Journal of Physics D: Applied Physics, Vol. 40, No. 19, 2007: 5924-5928 (SCI：226QQ) [30]Lijun Wang, Shenli Jia, Ling Zhang, Zongqian Shi, Dingge Yang, Francois Gentils, and Benoit Jusselin, “Plasma backflow phenomenon in high-current vacuum arc,” Journal of Physics D: Applied Physics, Vol. 40, No. 19, 2007: 5953-5960 (SCI：226QQ) [31]Lijun Wang, Shenli Jia, Zongqian Shi, and Ling Zhang, “MHD simulation of high-current subsonic vacuum arc under different distributed axial magnetic fields,” Vacuum, Vol. 82, No. 1, 2007: 100-104 (SCI：216LN) [32]Zongqian Shi, Shenli Jia, Hong Dong, and Lijun Wang, “Simulation of the thermal process of anode in drawn vacuum arc,” IEEE Trans. On Plasma Sci., Vol. 35, No. 4, 2007: 920-924 (SCI：199MZ) [33]Lijun Wang, Shenli Jia, Zongqian Shi, and Mingzhe Rong, “High-current vacuum arc under axial magnetic field: numerical simulation and comparisons with experiments,” J. App. Phys., Vol. 100, No. 11, 2006: 113304 (SCI：117QG) [34]Zongqian shi, Shenli Jia, Lijun Wang, and Hong Dong, “Investigation On The Thermal Process Of Anode In Vacuum Arc,” IEICE Trans on Electronics, 89-C(8), 2006:1206-1209 (SCI：071DN) [35]Yongpeng Meng, Shenli Jia, Zongqian Shi, and Mingzhe Rong, “The Detection of the Closing Moments of a Vacuum Circuit Breaker by Vibration Analysis,” IEEE Trans. Power Delivery, Vol. 21, No.2, 2006: 652-658 (SCI: 028WJ) [36]Lijun Wang, Shenli Jia, Zongqian Shi, and Mingzhe Rong, “Numerical simulation of vacuum arc under different axial magnetic field,” J. Phys. D: App. Phys. March，2005: 1034-1041 (SCI：920HL) [37]Lijun Wang, Shenli Jia, Zongqian Shi, and Mingzhe Rong, “Simulation Research of Magnetic Constriction Effect and Controlling by Axial Magnetic Field of Vacuum Arc,” Plasma Science and Technology, Vol.7, No.1, Feb. 2005: 2686-2692 (SCI：896QU) [38]Shenli Jia, Zongqian Shi, Lijun Wang, Zheng Wang, and Mingzhe Rong, “Experimental Investigation of Vacuum Arcs in Non-uniform Axial Magnetic Fields,” IEEE Trans. On Plasma Sci. Vol. 32, No. 5, 2004: 2113-2117 (SCI：863NB) [39]Zongqian Shi, Shenli Jia, and Mingzhe Rong, “Numerical Analysis of Vacuum Arc Under Non-uniformly Distributed Axial Magnetic Fields,” IEEE Trans. On Plasma Sci.， Vol. 32, No. 2, 2004: 775-782 (SCI：832PF) [40]Zongqian Shi, Shenli Jia, Jun Fu, and Zheng Wang, “Axial Magnetic Field Contacts with Nonuniform Distributed Axial Magnetic Fields,” IEEE Trans. Plasma Sci., Vol. 31, No. 2, 2003: 289-294 (SCI：675JN)