王 政

时间:2016-01-25浏览:27890

王政

职称:  教授、博士生导师

研究方向: 电机驱动及应用、新能源与分布式发电

Email: zwang@seu.edu.cn




王政,教授、博士生导师。2000年和2003年于东南大学电气工程学院分别获得学士学位和硕士学位,2008年于香港大学电机及电子工程学系获得博士学位,2008年至2009年于加拿大Ryerson大学电气及计算机工程系从事博士后工作。研究方向为电机驱动及应用、新能源与分布式发电。发表SCI/EI论文80余篇,授权发明专利11项。出版英文专著1部《Chaos in Electric Drive Systems: Analysis, Control and Application》(Wiley-IEEE出版社,2011);中文专著1部《混沌电机驱动及应用》(科学出版社,2009);机械工业出版社译著3部《风力发电系统的功率变换与控制》(2012)、《光伏与风力发电并网变换器》(2012)、《分布式发电接入电力系统》(2015);英文专著章节2Induction motor drivesEncyclopedia of Automotive Engineering》、Vehicle -to-Grid Power Interface ―Energy Systems for Electric and Hybrid Electric Vehicles。主持国家自然科学基金、英国工程和自然科学研究委员会EPSRC项目、教育部博士点基金、教育部留学回国人员基金、航空科学基金、企业研发等项目20项,作为核心成员参与国家科技部973课题、国家自然科学基金重点项目等10余项。

作为第一完成人:获英国EPSRC Power Electronics Research Center Researcher Exchange Scheme项目(2016)资助、江苏省科学技术奖(三等奖,基础研究类,2014)、IEEE PES Chapter Outstanding Engineer Award2014)、IEEE电机与系统学术会议(ICEMSBest paper award2014)、江苏省教育厅“青蓝工程”青年骨干教师(2014)、IEEE电机与系统学术会议(ICEMSOutstanding Paper Award2013)、IEEE工业电子学术年会(IECONBest Session Paper Award2013)、第十届南京市自然科学优秀学术论文(二等奖,2013)、东南大学优秀青年教师(2010)等荣誉。


代表项目:

1. 国家自然科学基金面上项目,51577027,基于双定子多相复合永磁电机的高速电梯牵引驱动系统,2016/01-2019/12,主持。

2. 英国工程和自然科学研究委员会Power Electronics Research Center Researcher Exchange Scheme项目,RES.EX ZWangAdvanced control of multilevel multiphase drives for high-power high-reliability applications2017/01-2017/12,主持。

3. 香港生产力促进局(HKPC),PO:45000086197.7 KW Wireless Charging Power Conversions for Electric Vehicles2017/01-2017/10,主持。

4. 航空科学基金,20142869014,多通道定子混合励磁型飞机起动机/发电机系统的研究,2014/10-2016/09,主持。

5. 江苏省教育厅高校“青蓝工程”1116000195,多通道四象限电机系统研究及其工业应用,2014/06-2017/06,主持。

6. 韩国乐金(LG)电子上海研发中心,85160007841.5KW低成本家电驱动控制系统关键技术的进一步研发,2017/1-2017/06,主持。

7. 国家自然科学基金重点项目子课题,51137001,多相定子永磁型风力发电机及其功率变换器的控制研究(子课题),2012/01-2016/12,主持。

8. 科技部973计划重点基础研究计划,2013CB035603,电机系统高可靠性设计与容错控制,2013/01-2017/12,研究骨干。

9. 香港研究资助局项目(GRF),17200614Development of Novel Magnetless Gearless In-wheel Motor Drives For Electric Vehicles (用于电动车的无永磁直驱轮毂电机驱动系统)2014/09-2017/12,内地负责人。

10. 国家自然科学基金青年项目,51007008,集成超导磁储能的大功率电流源型风能变换系统的研究,2011/01-2013/12,主持。

11. 教育部博士点基金,20100092120043,基于电流源型变频器的集成超导磁储能型风能变换系统及其控制,2011/01-2013/12,主持。

12. 教育部留学归国人员科研启动基金,6816000004,工业节能用大功率多模块电流源型变频驱动系统研究,2011/01-2013/12,主持。

13. 北京金风科创风电设备有限公司,8516000159,变流器先进技术信息收集与研究,2010/11-2011/03,主持。

14. 加拿大自然科学工程研究理事会 / 罗克韦尔自动化,High-power Converters and Applications(大功率变换器及应用)2008/11-2009/10,主持。

15. 香港研究资助局项目(RGC)HKU7154/04EChaotification of Advanced Motor Drives and Its Application (混沌化高级电机驱动及应用)2004/01-2007/06,研究骨干。


代表论文:


A. 电机驱动及应用

[1] Zheng Wang*, Yibo Wang, Jian Chen, Ming Cheng, Yihua Hu, Fault Tolerant Control of NPC Three-level Inverters Fed Double-Stator-Winding PMSM Drives Based on Vector Space Decomposition, IEEE Trans. on Industrial Electronics, Paper No. 16-TIE-2063.R2, 2017, accepted.

[2] Zheng Wang*, Xueqing Wang, Jiawei Cao, Ming Cheng, Yihua Hu, Direct Torque Control of T-NPC Inverters Fed Double-Stator-Winding PMSM Drives With SVM, IEEE Trans. on Power Electronics, DOI:10.1109/TPEL.2017.2689008, 2017, in press.

[3] Xueqing Wang, Zheng Wang*, Ming Cheng, Yihua Hu, Remedial Strategies of T-NPC Three-Level Asymmetric Six-phase PMSM Drives Based on SVM-DTC, IEEE Trans. on Industrial Electronics, DOI:10.1109/TIE.2017.2682796, 2017, in press.

[4] Zheng Wang*, J. Chen, M. Cheng, and K. T. Chau, Field-Oriented Control and Direct Torque Control for Paralleled VSIs fed PMSM Drives with Variable Switching Frequencies, IEEE Trans. on Power Electronics, 2016, 31(3):2417-2428.

[5] Zheng Wang*, J. Chen, M. Cheng, and Y. Zheng, Fault Tolerant Control of Paralleled Voltage-Source Inverters Fed PMSM Drives, IEEE Trans. on Industrial Electronics, 2015, 61(8):4749-4760.

[6] Zheng Wang*, B. Wu, D. Xu, and N.R. Zargari, A Current Source Converter Based High-Power High-Speed PMSM Drive with 420-Hz Switching Frequency, IEEE Trans. on Industrial Electronics, 2012,59(7):2970-2981.

[7] Zheng Wang*, B. Wu, D. Xu, and N.R. Zargari, Hybrid PWM for High Power Current Source Inverter Fed Drives with Low Switching Frequency, IEEE Trans. on Power Electronics, 2011,26(6):1754-1764.

[8] Zheng Wang* and K.T. Chau, “Design, Analysis, and Experimentation of Chaotic Permanent Magnet DC Motor Drives for Electric Compaction,” IEEE Tran. on Circuits and Systems II, 2009,56(3): 245-249.

[9] Zheng Wang*, Y. Zheng, Z. Zou, and M. Cheng, Position Sensorless Control of Interleaved CSI Fed PMSM Drive With Extended Kalman Filter, IEEE Trans. on Magnetics, 2012,48(11):3688-3691.

[10] Zheng Wang*, K.T. Chau and Chunhua Liu, “Improvement of Electromagnetic Compatibility of Motor Drives Using Chaotic PWM,” IEEE Transactions on Magnetics, 2007,43:2612-2614.


B. 新能源与分布式发电

[1] Zheng Wang*, Bin Wu, Dewei Xu, Ming Cheng, and L. Xu, DC-Link Current Ripple Mitigation for Current-Source Grid-Connected Converters Under Unbalanced Grid Conditions, IEEE Trans. On Industrial Electronics, 2016, 63(8): 4967-4977.

[2] Zheng Wang*, B. Yuwen, Y. Lang, and M. Cheng, Improvement of Operating Performance for the Wind Farm With a Novel CSC Type Wind Turbine-SMES Hybrid System, IEEE Trans. on Power Delivery, 2013, 28(2): 693-703.

[3] Z. Zou, Zheng Wang*, and M. Cheng, Modeling, Analysis, and Design of Multi-Function Grid-Interfaced Inverters with Output LCL Filters, IEEE Trans. on Power Electronics, 2014,29(7):3830-3839.

[4] Zheng Wang*, Y. Zheng, M. Cheng, and S. Fan, Unified Control for a Wind Turbine-Superconducting Magnetic Energy Storage Hybrid System Based on Current Source Converters, IEEE Trans. on Magnetics, 2012,48(11),3973-3976.

[5] Zheng Wang*, S. Fan, Y. Zheng, and M. Cheng, Design and Analysis of a CHB Converter Based PV-battery Hybrid System for Better Electromagnetic Compatibility, IEEE Trans. on Magnetics, 2012,48(11):4530-4533.

[6] Zheng Wang*, K.T. Chau, Z. Zhang, and F. Li, Power Compensation and Power Quality Improvement Based on Multiple Channel Current Source Converter fed HT SMES, IEEE Trans. on Applied Superconductivity, 2012,22(3):5701204(1-4).

[7] Z. Zou, Zheng Wang*, and M. Cheng, Design and Analysis of Operating Strategies for a Generalized Voltage-Source Power Supply Based on Internal Model Principle, IET Power Electronics, 2014,7(2):330-339.

[8] Zheng Wang*, L. Jiang, Z. Zou, and M. Cheng, Operation of SMES for the Current Source Inverter Fed Distributed Power System Under Islanding Mode, IEEE Trans. on Applied Superconductivity, 2013,23(3):5700404(1-4).

[9] Zheng Wang*, Z. Zou, and Y. Zheng, Design and Control of a Photovoltaic Energy and SMES Hybrid System With Current-Source Grid Inverter, IEEE Trans. on Applied Superconductivity, 2013,23(3):5701505(1-4).

[10] Z. Zou, K. Zhou, Zheng Wang*, M. Cheng, Frequency Adaptive Fractional Order Repetitive Control of Shunt Active Power Filters, IEEE Trans. on Industrial Electronics, 2015, 62(3): 1659-1668.