杨江涛

一、个人简介

   杨江涛,男,博士,四川雅安人,现为太阳城副教授,博士生导师,2024年湖南省湖湘青年英才(荷尖),湖南大学岳麓学者,电气工程系副主任。


二、学习工作经历

[1] 2023.1——至今    湖南大学,电气与信息工程学院,副教授

[2] 2019.7——2022.12 湖南大学,电气与信息工程学院,助理教授

[3] 2014.9——2019.6  华中科技大学,电气工程,博士

[4] 2010.9——2014.6  武汉理工大学,电气工程及其自动化,学士


三、科研情况

   围绕特种装备的发电/电驱系统设计及控制技术开展研究,主要方向包括:

[1] 高速永磁电机设计及控制技术

[2] 高速飞轮储能系统设计及控制技术

[3] 脉冲发电机设计及控制技术

[4] 高转矩密度电机设计及控制技术

[5] 航空电源系统用高功率密度高速超导发电机设计技术

[6] 大型水轮/燃气轮发电机多物理场分析

   主持国家部委项目课题、国家重点研发计划项目子课题、国家自然科学基金和校企合作项目等10余项,与中国航发、中国兵器、上海电气、中国核电、国电投、中国科学院等建立了紧密合作关系,完成了包括数十MJ、MW级高速储能电机、数十W级高速微特电机等多款电机系统的开发并小批量产业化。

   主持的代表性科研项目:

[1] 国家自然科学基金面上项目:定转子励磁性可变磁通高速永磁储能电机系统研究,2025-2028,主持

[2] 国家部委项目课题:XXXX研究与研制,2024-2025,主持 

[3] 国家部委项目课题:XXXX技术研究,2023-2025,主持

[4] 国家重点研发计划项目子课题:变流控制复杂激励下发电机损耗高精度计算方法及分布特征研究,2024-2027,主持 

[5] 国家重点研发计划项目子课题:高效大功率电驱动系统多物理场协同优化设计,2023-2025,主持

[6] 国家自然科学基金青年项目:飞轮储能用机械调磁永磁感应子电机研究,2021-2023,主持

    其它省级、企业合作项目等。

   

    本人接下来三年每年招收博士生指标有1-2名,硕士生指标4名,亲自指导。

    在科学研究方面,本研究小组有解决当前企事业单位需求的项目,也有一些前沿牵引科技项目,可根据学生的兴趣及发展方向来灵活选择。

    在学术成果方面,以项目为牵引,本人与研究生一起挖掘关键问题进行研究,项目完成同时也形成了论文及专利成果(目前本人指导学生都是这样)。

    在小组氛围方面,坚持以人为本,身体健康第一位,充实快乐完成研究生生活(据我所知,目前研究生中没有后悔跟我一起做科研的)。

    在科研津贴方面,除了学校发放的基本补助外,每月会按时发放一定数额科研津贴(14个月),外加学术成果及项目补贴。

    在培养支持方面,如毕业后想去企事业单位,则着重培养企事业单位需要的能力;如想读博等,则全力提供学术成果支持。

    

    热忱欢迎电气工程、能源动力、机械等专业方向的研究生、本科生联系交流。

    邮箱:yangjiangtao*index58.com (*换成@)


四、代表性论文

      在本科学领域发表学术论文50余篇。

[1] J. Yu, J. Yang*, Q. Li, et al., "A Two-terminal Hybrid Parallel Connection Method for Simultaneously Enhancing the Output Performance and Fault Tolerance of Dual Three-Phase Machines,"IEEE Transactions on Industrial Electronics, accept in 2024.

[2]J. Yu, J. Yang*, Q. Li, et al., "Analysis of Two-terminal Hybrid Connection Method for Reducing Armature MMF Space Harmonics of Six phase Electric Machine", IEEE Transactions on Industry Applicationsaccept in 2024.

[3]Q. Li, J. Yang*, J. Yu, P. Zhang, X. Zhao and S. Huang, "Investigation and Suppression of Electromagnetic Vibration of Permanent Magnet Homopolar Inductor Machine,"  IEEE Transactions on Industrial Electronicsaccept in 2024. 

[4] H. Liu, J. Yang*, J. Yu, C. Gao and S. Huang, "Influence of Stator Core Manufacturing Displacement on the Electromagnetic Performance of Modular Permanent Magnet Machine," IEEE Transactions on Magneticsvol. 60, no. 9, pp. 1-6, Sept. 2024. 

[5] Y. Pan, J. Yang*, Q. Li, S. Huang, C. Gao and J. Ma, "Investigation and Suppression of External Alternating Field of HTS Excitation Coil in Homopolar Inductor Machine," IEEE Transactions on Magnetics,  vol. 60, no. 9, pp. 1-6, Sept. 2024. 

[6] Y. Pan, J. Yang*, et al., "Design of HTS Excitation Coil for Homopolar Inductor Machine Considering Critical Current Reduction of Local Turn,"  IEEE Transactions on Industry Applicationsvol. 60, no. 4, pp. 6124-6132, July-Aug. 2024.

[7]  J. Yang, S. Dai, et al., "Influence of Rotor Eccentricity on Electromagnetic Performance of Rotational Symmetrical Slotless PM Brushless Motor," IEEE Transactions on Transportation Electrification, vol. 10, no. 2, pp. 3888-3901, June 2024.

[8]  Q. Li, J. Yang*, J. Yu, Y. Pan and S. Huang, "Cogging Torque Suppression of Permanent Magnet Homopolar Inductor Machine Based on Tooth Combination Method,"  IEEE Transactions on Transportation Electrification, vol. 10, no. 2, pp. 2817-2829, June 2024. 

[9] Y. Pan, J. Yang*, X. Luo, H. Xiao and J. Ma, "A Method for Calculating Critical Current of High Temperature Superconducting Machine Based on Magnetic Vector Potential," IEEE Transactions on Applied Superconductivity, vol. 34, no. 5, pp. 1-6, Aug. 2024. 

[10]  J. Yu,J. Yang*, et al., "Investigation on Performance of Multiple Three-Phase Electrical Machine With Star–Delta Windings," IEEE Transactions on Industrial Electronics, vol. 71, no. 8, pp. 8362-8372, Aug. 2024. 

[11] Q. Li,  J. Yang*, Y, Pan, et al, "Investigation and Suppression of Cogging Torque of Permanent Magnet Homopolar Inductor Machine, " IEEE Transactions on Industrial Electronics, vol. 71, no. 3, pp. 2253-2264, March 2024, 

[12] S. Dai, J. Yang*, Z. Wang, et al, "Investigation on the Influence of Eccentricity on the AC Copper Loss of High Speed Slotless Permanent Magnet Motor,IEEE Transactions on Magnetics,  vol. 59, no. 11, pp. 1-6, Nov. 2023. 

[13] J. Yang, Q. Li, C. Deng, et al,“Investigation on the Method for Reducing the Time Constant of Exciting Winding of Homopolar Inductor Machine,” IEEE Transactions on Transportation Electrificationvol. 9, no. 2, pp. 3255-3267, Jun. 2023.

[14]Q. Li, J. Yang*, S. Zhou, Y. Feng, S. Huang and C. Guo, "A Simplified Analysis Method of Permanent Magnet Homopolar Inductor Machine with Three-dimensional Magnetic Field Distribution," IEEE Transactions on Transportation Electrification, vol. 9, no. 1, pp. 737-747, Mar. 2023. 

[15] C. Ye, C. Deng, J. Yang*, et al, “Study on a Novel Hybrid Thermal Network of Homopolar Inductor Machine," IEEE Transactions on Transportation Electrification, vol. 9, no. 1, pp. 549-560, Mar. 2023.

[16] J. Yang*, Z. Wang. “A Simple and Accurate Method for Estimating the Stator Winding Real-Time Temperature of Air-Cooled Hydrogenerator”, Thermal Science, accepted in 2022.

[17] Q. Li, J. Yang*, S. Huang, “Analysis of a Novel Mechanically Adjusted Variable Flux Permanent Magnet Homopolar Inductor Machine with Rotating Magnetic Poles for Flywheel Energy Storage System”, CES Transactions on Electrical Machines and Systems, vol. 6, no. 3, pp. 315-323, Sep. 2022.

[18] Z. Wang, J. Yang*, S. Dai, et al, "Novel Dual-Rotor Single-Stator Coreless Permanent Magnet Machine With Dual-Flywheel," IEEE Transactions on Magnetics, vol. 58, no. 8, pp. 1-6, Aug. 2022.

[19] J. Yang, Q. Li, Y. Feng, Ping Liu, et al, "Simulation and Experimental Analysis of a Mechanical Flux Modulated Permanent Magnet Homopolar Inductor Machine," IEEE Transactions on Transportation Electrification, vol. 8, no. 2, pp. 2629-2639, June 2022.

[20] J. Yang, Q. Li, S. Huang, et al.,“Design and Analysis of a Novel Permanent Magnet Homopolar Inductor Machine with Mechanical Flux Modulator for Flywheel Energy Storage System,” IEEE Transactions on Industrial Electronics, vol. 69, no. 8, pp. 7744-7755, Aug. 2022.

[21] Q. Li, J. Yang*, S. Huang, et al. “No-load Electromagnetic Performance Analysis of a Mechanically Modulated Permanent Magnet Homopolar Inductor Machine,” IEEE Transactions on Transportation Electrification, vol. 8, no. 1, pp. 1168-1181, March 2022.

[22] J. Yang, C. Ye* and S. Huang, “Development and Analysis of an Outer Rotor Homopolar Inductor Machine for Flywheel Energy Storage System,” IEEE Transactions on Industrial Electronics, vol. 68, no. 8, pp. 6504-6515, Aug. 2021.

[23] C. Ye, W. Li, J. Yang*, et al., “Development and Analysis of a Novel Cascaded Brushless Self-Excited Air-core Compensated Pulsed Alternator with Squirrel-Cage Rotor Winding,” IEEE Transactions on Industrial Electronics, vol. 68, no. 7, pp. 5571-5581, July 2021.

[24] J. Yang, P. Liu, C. Ye*, L. Wang, X. Zhang, and S. Huang, “Multidisciplinary Design of High-Speed Solid Rotor Homopolar Inductor Machine for Flywheel Energy Storage System,” IEEE Transactions on Transportation Electrification, vol. 7, no. 2, pp. 485-496, June 2021.

[25] M. He, W. Li, J. Peng and J. Yang*, "Multi-layer quasi three-dimensional equivalent model of axial-flux permanent magnet synchronous machine," CES Transactions on Electrical Machines and Systems, vol. 5, no. 1, pp. 3-12, Mar. 2021.

[26] J. Yang, C. Ye*, S. Huang, et al., "Analysis of the Electromagnetic Performance of Homopolar Inductor Machine through Nonlinear Magnetic Equivalent Circuit and Air-gap Permeance Function," IEEE Transactions on Industry Applications, vol. 56, no. 1, pp. 267-276, Jan./Feb. 2020.

[27]C. Ye, J. Yang*, F. Xiong and Z. Q. Zhu, “Relationship between homopolar inductor machine and wound-field synchronous machine,” IEEE Transactions on Industrial Electronics,vol. 67, no. 2, pp. 919-930, Feb. 2020.

[28] C. Ye,J. Yang*, X. Liang, et al., “Investigation of a high-frequency pulsed alternator integrating motor and alternator,” IEEE Transactions on Industrial Electronics, vol. 66, no. 4, pp. 2592-2602, Apr. 2019.

[29] J. Yang, C. Ye*, et al, “Study of a novel high speed compensated pulsed alternator with multistage stator cores,” IEEE Transactions on Plasma Sciencevol. 47, no. 5, pp. 2376-2381, May 2019.

[30]C. Ye, X. Liang, J. Yang*, Y. Xiang, “Feasibility Analysis of a Multi-disk Axial Flux Compensated Pulsed Alternator”, IEEE Transactions on Plasma Science, vol. 47, no. 5, pp. 2412-2418, May 2019.

[31] J. Yang, C. Ye*, X. Liang, et al.,“Investigation of a two-dimensional analytical model of the homopolar inductor alternator,” IEEE Transactions on Applied Superconductivity, vol. 28, no. 3, pp. 1-5, Apr. 2018.

[32]C. Ye, J. Yang*, W. Xu, et al., “A novel multi-unit out-rotor homopolar inductor machine for flywheel energy storage system,” IEEE Transactions on Magnetics, vol. 54, no. 11, pp. 1-5, Nov. 2018.

[33]J. Yang, C. Ye*, G. Liu, et al., “Research on the no-load rotor eddy loss of a high-speed pulsed alternator,” IEEE Transactions on Plasma Science, vol. 45, no. 7, pp. 1213-1219, July 2017.

[34]C. Ye, J. Yang, X. Liang and W. Xu*, “Design and research of a high-speed and high-frequency pulsed alternator,” IEEE Transactions on Plasma Science, vol. 45, no. 7, pp. 1512-1518, Jul. 2017.

[35]杨江涛,王镇宇,冯垚径,黄守道,“高速永磁电机转子过盈方式对转子应力的影响”,电工技术学报,2023,38(16):4263-4273.


五、受理/授权发明专利

[1]一种机械调磁永磁同性极式感应子电机. 专利号:ZL201911138950X.

[2]一种多频率的一体化同步磁阻电机. 专利号:ZL201610996812.5.

[3]一种轴向多单元定子电励磁双极性感应子电机. 专利号:ZL201710916406.8.

[4] 一种车载混合励磁发电机. 专利号:ZL201810389806.2.

[5]一种低损耗高速一体化飞轮储能电机. 专利号:ZL201710789907.4.

[6]一种轴向磁通无刷混合励磁电机. 专利号:ZL201710580550.9.

[7] 一种分区定子盘式双凸极电机. 申请号:201710507116.8.

[8]一种永磁轴向磁通变频风机. 申请号:201710524816.8.

[9] 一种开关磁阻电机驱动方法及装置. 申请号:201710886480. X.


六、主讲课程

电机设计(本科)、微特电机(本科)、电机学(本科)、新型电机电器技术(研究生).


七、学生培养及获奖情况

1、学生培养

指导博士生和硕士生多名,已毕业硕士生2名。

2、获奖情况

2021级入学研究生均获得研究生国家奖学金,其中两人先后获得湖南大学优秀研究生标兵(获奖当年全院硕士研究生唯一)。

指导研究生获2023年第十届中国研究生能源装备创新设计大赛全国一等奖,2023年第二届【太阳城娱乐】中国青年碳中和创新创业大赛华中赛区金奖。