个人简介
教育经历2012.09-2017.06 华中科技大学 电气工程专业,获博士学位 2008.09-2012.07 西安交通大学 电气工程与自动化专业,获学士学位 工作经历 2017.07~至今,西安交通大学电气工程学院, 讲师 2017.07~至今,西安交通大学电气工程博士后流动站, 博士后
研究领域
1.磁场调制永磁及磁阻电机的理论与设计研究; 2.大功率低速直驱风力发电机、舰船推进电机及轨道交通用牵引电机的设计及应用研究; 3.新能源汽车驱动电机、轮毂电机系统研究; 4.航空起动发电系统用新型无刷电励磁电机研究。
近期论文
查看导师新发文章
(温馨提示:请注意重名现象,建议点开原文通过作者单位确认)
1. Shaofeng Jia, D. Liang, W. Kong, R. Qu, Z. Yu, D. Li, and P. Kou, “A high torque density concentrated winding vernier reluctance machine with DC-biased current,” IEEE Transactions on Magnetics, 2018, accepted. 2. Shaofeng Jia, R. Qu, J. Li, and D. Li, “Flux modulation principles of DC-biased sinusoidal current vernier reluctance machines,” IEEE Trans. Ind. App., Early access, 2018. 3. Shaofeng Jia, R. Qu, W. Kong, D. Li, J. Li, Z. Yu, and H Fang, “Hybrid excitation stator PM vernier machines with novel DC-biased sinusoidal armature current,” IEEE Transactions on Industry Applications. Vol. 54, No.2, Mach/April, pp:1339-1348, 2018. 4. Shaofeng Jia, R. Qu, J. Li, and D. Li, “Principles of stator DC winding excited vernier reluctance machines,” IEEE Transactions on Energy Conversion. Vol.31, No.3, Sep., pp:935-946, 2016 (SCI, WOS: 000383177100011); 5. Shaofeng Jia, R. Qu, J. Li, D. Li, and H. Fang, “A novel vernier reluctance fully superconducting direct drive synchronous generator with concentrated windings for wind power application,” IEEE Transactions on Applied Superconducting.Vol.26, No.7, Oct., pp:5207205, 2016 ( SCI,WOS:000379756000001); 6. Shaofeng Jia, R. Qu, J. Li, X. Gang, and M. Zhang, “Study of direct-drive permanent magnet synchronous generators with solid rotor back-iron and different windings,”IEEE Transactions on Industry Applications. Vol.52, No.2, Mach/April, pp:1369-1379, 2016,( SCI, WOS:000372986600029); 7. Shaofeng Jia, R. Qu, and J. Li, “Analysis of the power factor of stator DC-excited vernier reluctance machines,” IEEE Transactions on Magnetics. Vol.51, No.11, Nov, pp: 8207704. 2015,( SCI,WOS:000364770500542); 8. Shaofeng Jia, R. Qu, J. Li, D. Li, and H. Lu,“Design considerations of stator DC-winding excited vernier reluctance machines based on the magnetic gear effect,” IEEE Transactions on Industry Applications, Vol. 53, No. 2, pp: 1028-1037, 2017.( SCI,WOS:000398745400023); 9. Shaofeng Jia, R. Qu, J. Li, D. Li, and H. Lu, “Comparison of stator DC current excited vernier reluctance machines with different field winding configurations,” IEEE Transactions on Magnetics. Vol. 53, No. 6, pp: 8103504, 2017. 10. Shaofeng Jia, R. Qu, D. Li, J. Li, and W. Kong, “Improved torque capacity for flux modulated machines by injecting DC currents into the armature windings,” IEEE Transactions on Magnetics. Vol. 53, No. 6, pp: 8102205, 2017. 11. Shaofeng Jia, R. Qu, J. Li, D. Li, and W. Kong, “A stator-PM consequent-pole vernier machine with hybrid excitation and DC-biased sinusoidal current,” IEEE Transactions on Magnetics. Vol. 53, No. 6, pp: 8105404, 2017. 12. J. Ma, R. Qu, J. Li, and Shaofeng Jia, “Structural optimization of a permanent-magnet direct-drive generator considering eccentric electromagnetic force,”IEEE Transactions on Magnetics. Vol.51, No.3, Mar. 2015,; 13. N. Duan, W. Xu, S. Wang, J. Zhu, R. Qu, and Shaofeng Jia “A temperature-dependent hysteresis model for soft ferrites,” IEEE Transactions on Magnetics. Vol. 53, No. 6, pp: 2001304, 2017.