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耿伟伟

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硕士生导师
  • 目前就职: 自动化学院
  • 导师类型/类别:   硕士生导师
  • 个人主页:

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  • 联系电话: 15850724704
  • 电子邮箱: gww@njust.edu.cn
  • 邮编: 210094
  • 工作单位:
  • 通讯地址: 南京市玄武区孝陵卫200号,南京理工大学
  • 个人信息
  • 指导学科
  • 社会、学会及学术
  • 出版专著和教材
  • 科研创新
  • 教学活动
  • 发表论文
  • 指导学生情况
  • 其他信息
  • 获奖、荣誉称号

教育经历

20079~20116南京农业大学农业电气化及其自动化  学士学位

20119~20144南京航空航天大学电力电子与电力传动  硕士学位

20144~201812南京航空航天大学电力电子与电力传动  博士学位

20191~至今南京理工大学电力电子与电力传动讲师

2014.05年至2018.12在苏交科集团从事电机方面研发工作,担任技术总监职位,连续开发10余款永磁电机系列化产品


工作经历

2015.05年至2018.12在苏交科集团从事电机方面研发工作,担任技术总监职位,连续开发10余款永磁电机系列化产品,目前在南京理工大学从事电机技术方面的教学和科研工作。研制成功的高功率密度集中绕组永磁电机成功在我国首款定型军用分布式车辆上应用,研制成功的高转矩密度集成轮毂电机在我国分布式军用车研发中起到了关键技术支撑。

指导学科

电气工程&能源与动力——电机与电力传动


长期致力于全电推进与牵引系统高功率密度永磁电机、特种运载装备分布式驱动及其轮毂电机技术研究。重点研究高功率密度永磁电机设计、新型轴向磁场永磁电机、分布式驱动轮毂电机及其分布式驱动控制,在新能源汽车、特种军用运载装备、军用无人战车、新型电推进航空器等应用方面取得了较为系统的创新成果,实现了新型电机及其控制技术的工程实践,取得了很好的军事和经济效益。


社会、学会及学术兼职

某军工企业高级技术顾问

电工技术学会会员;

IEEE TIE5SCI期刊等国内外重要期刊和国际会议审稿人。


出版专著和教材

科研创新

[1]      一种集成绕组自悬浮永磁电机和控制系统及控制方法,专利授权号:201610368843 .6

[2]      一种高强度Halbach永磁阵列转子结构,专利授权号:ZL.201910011009.5

[3]      一种定子无铁心永磁同步电机驱动系统及其控制方法,专利授权号:ZL.201610331326.1

[4]      定子无铁心Halbach永磁阵列轴向磁通电机,专利授权号: ZL.201510691742.8

[5]      一种可切换绕组的永磁同步电机驱动系统,专利授权号:ZL.201310581305.1

[6]      一种定子永磁V形或U形永磁体磁通切换型双凸极,专利授权号:ZL201420626521.3

[7]      一种并列式混合励磁无刷直流电机,,专利授权号:ZL.201210329653.5

[8]      一种并列式混合励磁无刷直流容错电机,专利授权号:ZL.201210329652.0

[9]      一种模块化的轴向磁通永磁电机,专利申请号:201910921336.4

[10]   一种鼓式分布绕组轴向混合励磁电机,专利申请号:201910921314.8

[11]   一种高强度表贴式永磁盘式电机双转子盘,201911286316.0

[12]   一种轴向磁通集中绕组型混合励磁电机,201910683071.9 

[13]   一种轴向磁场永磁电机组合充磁型永磁体内置式转子,申请中

[14]   一种轴向磁场混合励磁直驱轮毂电机,申请中

[15]   一种径/轴向混合磁路无框永磁电机,申请中

[16]   一种双定子单转子轴向磁场混合励磁电机,申请中


科研项目

军工企业委托研发项目

分布式驱动装甲车辆轴XXXXX永磁轮毂电机

2016/12-2018/4

项目负责人

军工企业委托研发项目

高功率密度XXX电机研究及其工程化

2019/09-2022/09

项目负责人

国内知名企业委托研发项目

XXXX电机技术

2019/7-2020/12

项目负责人

国内知名企业委托研发项目

XXXX性能提升与工艺研究

2021/3-2022/12

项目负责

国防创新特区项目

轴向磁通轮毂电机技术

2020/11-2021/11

项目负责人

航天预研基金项目

轴向磁通无框永磁伺服电机技术

2020/01-2021/12

项目负责人

军工研究所委托研制项目

轴向磁通YASA电机技术

2020/7-2022/12

项目负责人

装备发展部“慧眼行动”成果转化项目

装备电气化XXXXXXXX技术

2021/6-2023/12

项目负责人


教学活动

主讲本科生专业选修课《电机设计》和研究生选修课《永磁电机及其控制技术》

发表论文

[1]      Weiwei Geng, Zhuoran Zhang. Analysis and implementation of new ironless stator axial-flux permanent magnet machine with concentrated non-overlapping windings. IEEE Transactions on Energy Conversion, 2018, 33(3):1274-1284.

[2]      W. Geng, T. Zhu, Q. Li and Z. Zhang. Windings Indirect Liquid Cooling Method for a Compact Outer-Rotor PM Starter/Generator with Concentrated Windings. IEEE Transactions on Energy Conversion.

[3]      Electromagnetic analysis and efficiency improvement of axial-flux permanent magnet motor with yokeless stator by using Grain-oriented silicon steel material, IEEE Transactions on Industrial Electronics 已发表.

[4]      3-D Equivalent magnetic network modeling and FEA-verification of a novel axial-flux hybrid-excitation In-wheel motor, IEEE Transactions on Magnetics, 2021,已发表.

[5]      Topological principle and electromagnetic performance of a novel axial-flux hybrid-excitation in-wheel motor, EPE’21 ECCE Europe conference, 已发表.

[6]      Rotor air-friction loss and thermal analysis of high-speed rotor for axial flux PM motor, EPE’21 ECCE Europe conference, 已发表.

[7]      A New Flux-Concentrating Rotor of Permanent Magnet Motor for Electric Vehicle Application, IEEE Transactions on Industrial Electronics, 2021, 已发表.

[8]      Design and analysis of oil-immersed cooling stator with non-overlapping concentrated winding for high-power ironless stator axial-flux permanent magnet machines, IEEE Transactions on Industrial Electronics, 2021,

[9]      Electromagnetic analysis and efficiency improvement of axial-flux permanent magnet motor with yokeless stator by using Grain-oriented silicon steel material, IEEE Transactions on Industrial Electronics

[10]   Topological principle and electromagnetic performance of a novel axial-flux hybrid-excitation in-wheel motor, EPE’21 ECCE Europe conference.

[11]   Rotor air-friction loss and thermal analysis of high-speed rotor for axial flux PM motor, EPE’21 ECCE Europe conference.

[12]   A New Flux-Concentrating Rotor of Permanent Magnet Motor for Electric Vehicle Application, IEEE Transactions on Industrial Electronics, 2021.

[13]   W. Geng, J. Hou and Q. Li. Electromagnetic Analysis and Efficiency Improvement of Axial-Flux Permanent Magnet Motor with Yokeless Stator by Using Grain-oriented Silicon Steel. IEEE Transactions on Magnetics.

[14]   J. Hou, W. Geng, Q. Li and Z. Zhang. 3-D Equivalent Magnetic Network Modeling and FEA Verification of a Novel Axial-Flux Hybrid-Excitation In-wheel Motor. IEEE Transactions on Magnetics, 2021, 57(7):1-12.

[15]   W. Geng, Z. Zhang and Q. Li. Analysis and Experimental Verification of a Conventional Inverter with Output LC Filter to Drive Ironless Stator Axial-Flux PM Motor. IEEE Transactions on Transportation Electrification.

[16]   Weiwei Geng, Zhuoran Zhang. Investigation of a New Ironless-Stator Self-Bearing Axial Flux Permanent Magnet Motor[J], IEEE Transactions on Magnetics, 2016, 52(7).

[17]   Geng Weiwei, Zhang Zhuoran, Li Qiang. High Torque Density Fractional-Slot Concentrated-Winding Axial-Flux Permanent-Magnet Machine with Modular SMC Stator. Early Access Article, IEEE Transactions on Industry Applications, 2020.

[18]   Weiwei Geng, Zhuoran Zhang, Kui Jiang. A New Control Strategy of Ironless Stator Axial-Flux PM Motors Fed by Inverters with Output LC Filter. IECON, Yokohama, Japan, 2015:2264-2269.

[19]   Weiwei Geng, Zhuoran Zhang, Chen Wang. Mechanical design considerations of Halbach-array rotor for a new ironless stator axial-flux PM machine. 2017 20th International Conference on Electrical Machines and Systems (ICEMS), Sydney Australia, 2017:1-6.

[20]   Huamin Gao, Zhuoran Zhang, Chen Wang, Weiwei Geng, et al. Analysis of end effect in ironless stator AFPM machine via MEC model[J]. IET Electric Power Applications, 2020, 14(1): 147-156.

[21]   Weiwei Geng, Zhuoran Zhang, Qiang Li. Concept and electromagnetic design of a new axial flux hybrid excitation motor for in-wheel motor driven electric vehicle[C]. Proceedings of 2019 22nd International Conference on Electrical Machines and Systems (ICEMS 2019). Harbin, China: IEEE, 2019: 1-6.

[22]   Ye Liu, Zhuoran Zhang, Chen Wang, Weiwei Geng, et al. Design and analysis of oil-immersed cooling stator with non-overlapping concentrated winding for high-power ironless stator AFPM machines[J]. IEEE Transactions on Industrial Electronics, 2020.

[23]   Chen Wang, Zhuoran Zhang, Ye Liu, Weiwei Geng, et al. Effect of slot-pole combination on the electromagnetic performance of ironless stator AFPM machine with concentrated windings[J]. IEEE Transactions on Energy Conversion, 2020.

[24]   Chen Wang, Weiwei Geng, Zhuoran Zhang. Design and experiment verification of OR-PM machine with rectangular shaped magnets for integrated power generation[J]. IET Electric Power Applications, 2020, 14(4): 638-647.

[25]   Zhuoran Zhang, Chen Wang, Weiwei Geng. Design and optimization of halbach-array PM rotor for high-speed axial-flux permanent magnet machine with ironless stator[J]. IEEE Transactions on Industrial Electronics, 2019.

[26]   Zhuoran Zhang, Weiwei Geng, Ye Liu, et al. Feasibility of a new ironless-stator axial flux permanent magnet machine for aircraft electric propulsion application[J]. CES Transactions on Electrical Machines and Systems, 2019, 3(1): 30-38.

[27]   Weiwei Geng, Zhuoran Zhang, Qiang Li. High torque density fractional-slot concentrated-winding axial-flux permanent-magnet machine with modular SMC stator[C]. Proceedings of 2019 IEEE Energy Conversion Congress and Exposition (ECCE). Baltimore, USA: IEEE, 2019: 2991-2995.

[28]   张卓然,耿伟伟,陆嘉伟. 定子无铁心永磁电机技术研究现状与发展,中国电机工程学报, 2018, 38(2):582-600.

[29]   Ye Liu, Zhuoran Zhang, Weiwei Geng, Jincai Li. A simplified finite-element model of hybrid excitation synchronous machines with radial/axial flux paths via magnetic equivalent circuit. IEEE Transactions on Magnetics, 2017, 53(11).

[30]   Ye Liu, Zhuoran Zhang, Chen Wang, Weiwei Geng, et al. Design and analysis of oil-immersed cooling stator with non-overlapping concentrated winding for high-power ironless stator AFPM machines[J]. IEEE Transactions on Industrial Electronics, 2020.

[31]   Chen Wang, Zhuoran Zhang, Ye Liu, Weiwei Geng, et al. Effect of slot-pole combination on the electromagnetic performance of ironless stator AFPM machine with concentrated windings[J]. IEEE Transactions on Energy Conversion, 2020.

[32]   Zhuoran Zhang, Chen Wang, Weiwei Geng. Design and optimization of halbach-array PM rotor for high-speed axial-flux permanent magnet machine with ironless stator[J]. IEEE Transactions on Industrial Electronics, 2019.

[33]   Zhuoran Zhang, Weiwei Geng, Ye Liu, et al. Feasibility of a new ironless-stator axial flux permanent magnet machine for aircraft electric propulsion application[J]. CES Transactions on Electrical Machines and Systems, 2019, 3(1): 30-38.

[34]   Weiwei Geng, Zhuoran Zhang, Qiang Li. High torque density fractional-slot concentrated-winding axial-flux permanent-magnet machine with modular SMC stator[C]. Proceedings of 2019 IEEE Energy Conversion Congress and Exposition (ECCE). Baltimore, USA: IEEE, 2019: 2991-2995.

[35]   Weiwei Geng, Zhuoran Zhang, Chen Wang. Mechanical design considerations of halbach-array rotor for a new ironless stator axial-flux PM machine[C]. Proceedings of 2017 20th International Conference on Electrical Machines and Systems (ICEMS 2017). Sydney, Australia: IEEE, 2017: 1-6.


指导学生情况

目前硕士研究生4名,协助指导博士研究生1名,已毕业硕士生2名(均推荐华为技术有限公司工作)。

欢迎感兴趣新能源汽车驱动系统、军用电气化电力传动方向研究生报考课题组。


其他信息

获奖、荣誉称号

博士研究生国家奖学金,2016

江苏省技术发明一等奖(排名第三),2020

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