王茜博士于2018年10月毕业于丹麦奥尔堡大学，师从国际著名电力系统及高电压工程技术专家Claus Leth Bak教授（国际大电网（CIGRE）丹麦委员会主席）。曾任奥尔堡大学能源技术系助理教授。现为武汉理工大学自动化学院特设副教授、硕士生导师，湖北省高层次创新人才。

王茜博士近10年来一直从事电力设备绝缘和电力电子可靠性相关的研究工作，研究课题紧扣国际前沿，既有站位很高的学术理论价值，又有实实在在的工业应用前景。先后在中国，丹麦著名学府从事科研，教学和管理工作，取得多项国际领先的科研成果和关键核心技术。

王博士于2022年5月加入自动化学院-湖北省新能源动力电池工程技术研究中心，围绕湖北省重点科技和产业发展方向“绿色船舶”和“新型储能”，开展“绿色船舶动力电池绝缘可靠性”方面的科研攻关。研究成果吸引了诸多国际企业，并得到百万项目资金资助。近年来，王茜博士在国内外顶级学术期刊发表论文四十余篇。在新能源、电力电子系统可靠性领域取得了很多世界一流的研究成果。

　 欢迎数学基础扎实、实际动手能力强、好学肯钻研有志向的优秀学子报读硕士，从事电气工程和新能源相关领域的深造提升。研究团队将为你们提供良好的研究环境、高水平的研究指导以及出国交流的机会。

[1] 国家自然科学基金青年项目 - 高频变压器绝缘可靠性设计中考虑电-热-老化耦合的场强估计方法研究， 2024-2027

[2] 企业项目 - 基于多场景通用化应用的标准化电池包技术研究，2024-2025

[3] 企业项目 - 2022年安阳地区新能源规划与消纳监测预警试点示范， 2022-2023　  

[1] B. Yao, G. Zhu, Q. Wang* and H. Wang, "A Non-invasive Online Evaluation Method for Core Temperature of Aluminum Electrolytic Capacitors," in IEEE Transactions on Power Electronics,(一区，通讯作者，待检索)

[2] J. Kang, W. Wei, Q. Wang*, Jing V. Wang and G. Zhu, "An empirical parameter identification method considering hysteresis effects for LiFePO4 battery's electrochemical model" (一区，通讯作者，待检索)

[3] B. Yao, H. Wang, Q. Wang* and H. Wang, "A Unified Capacitor Stress Emulation Method for High Power Converter Applications," in IEEE Transactions on Power Electronics, doi: 10.1109/TPEL.2023.3268733. (一区，通讯作者，待检索)

[4] K.Yin, M.Ghomi, H. Zhang, C. L.h Bak, F. F. Silva, Q. Wang*, “Lightning transient response of bifurcation structure pylon and its empirical expression with high accuracy”, International Journal of Electrical Power & Energy Systems,Volume 148,2023,108967, ISSN 0142-0615,https://doi.org/10.1016/j.ijepes.2023.108967. (一区，通讯作者，已检索)

[5] C. Zheng, Q. Wang*, Z. Shen, C. L. Bak, F. F. Da Silva and H. Wang, "Influence of pressure on the PD and induced aging behavior of polyimide insulation under repetitive pulse voltage," in IEEE Transactions on Dielectrics and Electrical Insulation, doi: 10.1109/TDEI.2023.3236595. (一区，通讯作者，已发表待检索)

[6] G. Zhu, O. Wu, Q. Wang*,J. Kang and J. V. Wang. “The Modeling and SOC Estimation of a LiFePO4 Battery Considering the Relaxation and Overshoot of Polarization Voltage”. Batteries 2023, 9(7), 369.(二区，通讯作者，已检索)

[7] X.Yue, G. Zhu, J.V. Wang, X. Deng, Q. Wang*. “PCB Rogowski Coils for Capacitors Current Measurement in System Stability Enhancement,” Electronics 2023, 12(5), 1099. (三区，通讯作者，已检索)

[8] B. Yao, Q. Wang*, H. Wang, K. Hasegawa, and H. Wang.  “A Robust Testing Method for DC and AC     Capacitors with Minimum Required Power Supply,” in IEEE Transactions on Power Electronics, doi: 10.1109/TPEL.2021.3130085. (一区，通讯作者，已检索)

[9] Y. Peng, Q. Wang*, H. Wang, and H. Wang. “An On-line Calibration Method for TSEP-based Junction Temperature Estimation,” IEEE Trans. on Industrial Electronics, vol(69), no.12: 13616 - 13624,2022.  (一区，通讯作者，已检索)

[10] H. Zhang, Q. Wang, F. F. Silva, C. L. Bak, K. Yin, and H. Skouboe. “Backflashover Performance Evaluation of the Partially Grounded Scheme of Overhead Lines with fully Composite Pylons,” IEEE Transactions on Power Delivery, accepted/in press, 2021. (一区，导师，已检索)

[11] H. Wang, S. Huang, D. Kumar, Q. Wang, X. Deng, and H.Wang. “Lifetime Prediction of DC-link Capacitors in Multiple Drives System Based on Simplified Analytical Modeling,” IEEE Transactions on Power Electronics, vol:36, no:1, pages:844-860, 2021. (一区，已检索)

[12] Q. Wang, B. Luo*, J. Wang, Z. Kong, and F. Liu. “A Novel Inductor for Stabilizing the DC Link of Adjustable Speed Drive,” Electronics, vol:10, no. 19: 2401, 2021. (三区，一作者，已检索)

[13] Z. Wu, Q. Wang*, S. Yang, J. Wang, and J. Kang. “Study on Adaptive Cycle Life Extension Method of Li-Ion Battery Based on Differential Thermal Voltammetry Parameter Decoupling,” Energies, vol (14), no.19:6239, 2021. ( 三区，通讯作者，已检索) 

[14] C. Zheng, Q. Wang*, H. Wang, Z. Shen, and C. L. Bak. “Electrical Stress on the Medium Voltage Medium Frequency Transformer,” Energies, vol: 14, no.16: 5136, 2021. (三区，通讯作者，已检索)

[15] S. Baburajan, H. Wang, D. Kumar, Q. Wang*, and F. Blaabjerg. 2021. “DC-Link Current Harmonic Mitigation via Phase-Shifting of Carrier Waves in Paralleled Inverter Systems,” Energies, no. 14:4229, 2021. （三区，通讯作者，已检索）

[16] K. Yin, J. Yan, H. Zhang, Q. Duan, Q. Wang, C. Zheng, Z. Zhang, and Q. Xie “The effect of gradient conductivity of doped BiFeO3 as filler on the surface insulation performance of epoxy composite, ” Journal of Physics D: Applied Physics, vol:53, 2020.

[17] Q. Wang*, T. Jahangiri, C. L. Bak, F. F. Silva, and H. Skouboe. “Investigation on Shielding Failure of A Novel 400 kV Double-Circuit Composite Tower,” IEEE Transactions on Power Delivery, vol:33, no: 2, pages: 752-760, 2018. (一区，一作者，已检索)

[18] M. Kliem, J. Høgsberg, Q. Wang, and M. Dannemann. “Characterization of clay-modified thermoset polymers under various environment conditions for use in high voltage power pylons,” Advances in Mechanical Engineering, vol: 9, no: 5, 2017.

[19] T. Jahangiri, Q. Wang, C. L. Bak, F. F. Silva and H. Skouboe. “Electric stress computation for designing a novel unibody composite cross-arm using finite element method,” IEEE Transactions on Dielectric and Electric Insulation, vol:2, no: 6, pages: 3567-3577, 2017. (一区，已检索)

[20] X.Yang, J. Huang, Z.Li, J.Liu, Q. Wang, and M.Hasegawa. “The Preceding Voltage Pulse and Separation Welding Mechanism of Electrical Contacts,” IEEE Transactions on Components, Packaging and Manufacturing Technology, vol:6, no:6, pages: 846-853, 2016. 

学术专著

[1] Jahangiri, Tohid, Q. Wang, F. F. Silva and C. L. Bak. “Electrical Design of a 400 KV Composite Tower”. Springer, vol:557, ISBN: 978-3-030-17842-0, 2020.