作者:聚创清华考研网-小厦老师 点击量: 466 发布时间: 2015-05-18 11:17 【微信号:扫码加咨询】
个人简介
姓 名: 曾 嵘
出生年月: 1971年11月
技术职务: 教授,博士生导师
办公电话: 010-62789626,010-62788811
Email地址: zengrong@tsinghua.edu.cn
清华大学电机系教授,系主任,国家杰出青年基金获得者,IET Fellow。
1995年7月于清华大学电机系本科毕业,获工学学士学位;1999年7月博士毕业,清华大学优秀博士毕业生,后留校任教。2005年教育部新世纪优秀人才,2006年清华大学副教授博导,2007年清华大学电机系教授,2012年获评IET Fellow、茅以升北京青年科技奖,2013年获国家杰出青年科学基金。期间多次赴斯坦福大学材料系、新加坡大学数学系、香港大学电机系开展访问与合作研究。目前主要从事超特高压交直流输电中的电磁暂态及其防护、电磁环境与电磁测量、直流电网及其关键装备等教学和研究工作。
学术兼职
☆电力系统及大型发电设备安全控制和仿真国家重点实验室副主任
☆ 全国高压直流输电设备标准化技术委员会委员
☆中国电机工程学会直流输电与电力电子专委会委员
☆中国电机工程学会高电压专委会委员
☆ 中国电机工程学会变电站电磁环境学组副主任委员
☆中国电机工程学会外绝缘学组副主任委员
☆特高压工程技术(昆明)国家工程实验室技术委员会委员
☆高压电气国家工程实验室技术委员会委员
☆ 《高电压技术》编委
☆ IET Fellow
☆CIGRE SC C3中国代表
☆ IEEE Senior Member
☆ CIGRE WG C 4.26 Workgroup秘书长,C4.410,C4.23工作组委员
☆IEC TC 22/ MT 15、TC 22 / WG 16委员
国际学术活动
☆ APL2015,TPC Co-Chair
☆ ICLP2014,TPC Chair
☆ ISPLC2012,TPC Co-Chair
☆ APL2011 Plenary report
☆APEMC2012, Session Chair
☆APEMC2010, Session Chair
☆PIERS2009, Session Chair
☆Gas Discharges 2013 国际会议 Local Organizing Committee member
教育教学
☆ 北京市教学成果一等奖
☆2004、2009、2012年度 “清华大学研究生良师益友”
☆清华大学青年教学优秀奖
学生情况
在读学生:陈赦、俞俊杰、周旋、王泽众、吕纲、陈振宇、汪海,刘翰波、张翔宇、肖凤女
毕业学生:牛犇、庄池杰、耿屹楠、王博、田丰、李志钊;章宇军、王凌、王小川、龚有军、张铮、李欢、周佩朋、杨方圆、王峰、沈晓丽、李谦、戴梦婷;张亚鹏、孙立时、胡波、刘靖国、张士然、程新风、梁东、李龙刚、彭筱虹、张金、何春红、秦红钢、朱全友
学生国际会议获奖
☆ Zhizhao Li, Rong Zeng,etc. “Research on the Characteristics of Upward Leader Emerging From the Transmission Lines Influenced by AC Operation Voltage” Asia-Pacific Lightning Protection, 2013(APL2013)Best Paper Award.
☆ She Chen, Rong Zeng, etc.“The Observation and 3D Modeling of Long Positive Streamers in Air”, 2013 International Symposium on High Voltage Engineering (ISH2013),Young Researcher Award.
☆Xuan Zhou, Rong Zeng etc. “Upward Leader Inception Criterion Considering Gas Kinetic Process and Heat Conduction”, International Conference on Lightning Protection (ICLP2014), Diploma for Young Scientists.
科研项目
团队近年开展的基金等课题:
☆ 2012,曾 嵘,973课题 “特高压长空气间隙放电机理研究”
☆ 2013,曾 嵘,国家杰出青年基金“长空气间隙放电机理及雷击防护”
☆ 2014,耿屹楠,国家自然科学基金“流注先导转化过程的实验观测与机理研究”
☆ 2014,余占清,国家自然科学基金“基于MEMS技术的直流合成电场传感器研究”
☆ 2013,曾 嵘,国家自然科学基金“放电先导发展速度测量及其影响规律研究”
☆ 2012,张 波,国家自然科学基金“土壤参数频变时变特性研究”
☆ 2011,庄池杰,国家自然科学基金“流注放电数值仿真方法及其验证”
☆ 2010,牛 犇,国家自然科学基金“光电集成时域强电场传感器研究”
☆ 2009,余占清,国家自然科学基金“特快速瞬态过电压测量及其传播特性研究”
☆ 2007,曾 嵘,国家自然科学基金“长间隙放电起始阶段空间电荷分布研究”
科研获奖
☆ 茅以升北京青年科技奖;
☆ 电力系统接地基础理论、关键技术及其工程应用,中国电力科技进步一等奖;
☆ 电网雷击防护关键技术与工程应用,中国电力科技进步一等奖;
☆ HVDC系统地中回流对交流系统影响的机理分析及防范措施研究,教育部科技进步二等奖;
☆ 光电集成强电场测量系统的研究开发及应用,中国电力科技进步二等奖;
☆ 改善变电所接地系统安全性能的研究,中国电力科技进步二等奖;
☆ 高海拔特高压直流线路电磁环境特性及抑制措施研究,中国电力科技进步二等奖;
☆ 500kV/220kV 同塔四回输电线路设计及应用,中国电力科技进步二等奖;
☆ 特高压工程技术(昆明)国家工程实验室建设关键技术研究,国家能源科技进步二等奖;
☆ 750kV输电关键技术研究,国家电网科技进步特等奖;
部分科研论文
Journal papers
[1] Rong Zeng, Junjie Yu, Bo Wang, Ben Niu, Yong Hua. Study of an integrated optical sensor with mono-shielding electrode for intense transient E-field measurement. Measurement 50 (2014) 356–362
[2] Zhizhao Li and Rong Zeng. Comparison of the Characteristics of Upward Leader Emerging From the Ground Wire and Conductor. IEEE Transactions on Power Delivery, 2014, 29(2), 708-715.
[3] Rong Zeng and She Chen. The dynamic velocity of long positive streamers observed using a multi-frame ICCD camera in a 57 cm air gap. J. Phys. D: Appl. Phys. 46 (2013) 485201 (10pp)
[4] She Chen, Rong Zeng and Chijie Zhuang. The diameters of long positive streamers in atmospheric air under lightning impulse voltage. J. Phys. D: Appl. Phys. 46 (2013) 375203 (10pp)
[5] She Chen, Rong Zeng, Chijie Zhuang, Zhanqing Yu and Jinliang He. Switching Impulse Breakdown Characteristics of Large Sphere-plane Air Gaps compared with Rod-plane Air Gap. IEEE Transactions on Dielectrics and Electrical Insulation, 20(3): 839-844.
[6] Zeng, R., Li, Z. ; Yu, Z. ; Zhuang, C. Study on the Influence of the DC Voltage on the Upward Leader Emerging From a Transmission Line. IEEE Transactions on Power Delivery, 2013, 28 (3): 1674-1681
[7] Rong Zeng, Chijie Zhuang, Ben Niu, The Measurement of Transient Electric Fields in Air Gap Discharge by Integrated Electro-Optic Sensor, IEEE Transactions on Plasma Science, 2013, vol 41, no 4, pp. 955-960
[8] Zhizhao Li, Rong Zeng, Zhanqing Yu, etc. Research on the upward leader emerging from transmission line by laboratory Experiments. Electric Power Systems Research, 2013, 94 (1):64-70
[9] Wang, B; Zeng, R; Niu, B; Shen, XL; Shen, XK; Cao, SC; Zhang, ZM. E-field measurement of a pulse line ion accelerator. CHINESE PHYSICS C, 2013, 37: 1674-1137
[10] Chijie Zhuang, Rong Zeng. A local discontinuous Galerkin method for 1.5-dimensional streamer discharge simulations. Applied Mathematics and Computation , 2013, 219(19):9925-9934
[11] Chijie Zhuang, Rong Zeng, Bo Zhang, et al. 2-D discontinuous Galerkin method for streamer discharge simulations in nitrogen. IEEE Transactions on Magnetics, 2013, 49(5):1929-1932
[12] Zhanqing Yu, Qian Li, Rong Zeng, Calculation of Surface electric field on UHV transmission lines under lightning stroke. Electric Power System Research, 2013, 94:79-85
[13] Zhizhao Li, Rong Zeng, Zhanqing Yu, She Chen, Yongli Liao, Ruihai Li, Research on the upward leader emerging from transmission line by laboratory Experiments. Electric Power Systems Research, 2013, 94, 64-70
[14] Rong Zeng, Chijie Zhuang, Zhanqing Yu, Yinan Geng, Ben Niu. Electric field step in air gap streamer discharges. Applied Physics Letters, 2011, 99 (22)
[15] Rong Zeng, Bo Wang, Zhanqing Yu and Weiyuan Chen. Design and Application of an Integrated Electro-optic Sensor for Intensive Electric Field Measurement. IEEE Transactions on Dielectrics and Electrical Insulation, 2011, vol. 18, no 1, pp. 312-319
[16] Rong Zeng, Bo Wang, Zhanqing Yu, Ben Niu, Yong Hua. Integrated optical E-field sensor based on balanced Mach–Zehnder interferometer. Optical Engineering, 2011, 50 (11)
[17] Rong Zeng, Zhanqing Yu, Jinliang He, Bo Zhang, Ben Niu. Study on RestrainingDCneutral current of Transformer during HVDC monopolar operation. IEEE Transactions on Power Delivery, vol.26, no.4, pp.2785-2791, Oct.2011
[18] Chijie Zhuang, Rong Zeng, Bo Zhang, Shuiming Chen, Jinliang He. Accelerating the Convergence of Algebraic Multigrid for Quadratic Finite Element Method by Using Grid Information and p-Multigrid. IEEE Transactions on Magnetics, vol.47, no.5, pp.1198-1201, May 2011
[19] Jinliang He, Shanqiang Gu, Rong Zeng, Zhanqing Yu, Bo Zhang. Simulation Models for Motion Processes of Long AC Arcs on Overhead Lines. Electric Power Systems Research, vol.81, no.12, pp.2066-2073, Dec. 2011
[20] Chijie Zhuang, Rong Zeng, Bo Zhang, Puxuan Zhu, Jinliang HE. The Optimization of Entering Route for Live Working on 750kVTransmissionTowersby Space Electric Field Analysis. IEEE Transactions on Power Delivery, vol.52, no.2, April, 2010, pp.987-994
[21] Rong Zeng, Xuehai Gong, Jinliang He, et al. Lightning Impulse Performances of Grounding Grids for Substations Considering Soil Ionization. IEEE Transactions on Power Delivery. 2008, 23(2): 667-675
[22] Bo Zhang, Rong Zeng, Jinliang He, et al. Numerical Analysis of Potential Distribution Between Ground Electrodes of HVDC System Considering the Effect of Deep Earth Layers. IET Generation, Transmission & Distribution. 2008, 2(2): 185-191
[23] Rong Zeng, Yun Zhang and Weiyuan Chen, et al. Measurement of electric field distribution along composite insulators by integrated optical electric field sensor. IEEE Transactions on Dielectrics and Electrical Insulation. 2008, 15(1): 302-310
[24] Shanqiang Gu, Jinliang He and Rong Zeng, et al. Motion Characteristics of Long AC Arcs in Atmospheric Air. Applied Physics Letters. 2007, 90(5): Art. No. 051501
[25] Jian Tang, Rong Zeng and Hongbin Ma, et al. Analysis of Electromagnetic Interference on DC Line from Parallel AC Line in Close Proximity. IEEE Transactions on Power Delivery. 2007, 22(4): 2401-2408
[26] Rong Zeng, Jinliang He and Bo Zhang, et al. Lightning Electromagnetic Field Generated by Grounding Electrode Considering Soil Ionization. Progress in Natural Science. 2006, 16(9): 1002-1006
[27] Rong Zeng, Jinliang He and Zhicheng Guan. Novel Measurement System for Grounding Impedance of Substation. IEEE Transactions on Power Delivery. 2006, 21(2): 719-725
[28] Youping Tu, Jinliang He and Rong Zeng. Lightning Impulse Performances of Grounding Devices Covered with Low-Resistivity-Materials. IEEE Transactions on Power Delivery. 2006, 21(3): 1706-1713
[29] Rong Zeng, Peng Kang and Jinliang He, et al. Lightning Transient Performances Analysis of Substation Based on Complete Transmission Line Model of Power Network and Grounding Systems. IEEE Transactions on Magnetics. 2006, 42(4): 875-878
[30] Rong Zeng, Jinliang He and Jaebok Lee, et al. Influence of Overhead Transmission Line on Grounding Impedance Measurement of Substation. IEEE Transactions on Power Delivery. 2005, 20(2): 1226-1234
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