教師介紹
教師姓名 | 夏能弘 |
|
教師性别 | 男 | |
職 稱 | 教授 | |
職 務 | 科研處副處長 | |
所在院系 | 電氣工程學院 | |
所屬學科 | 電氣工程 | |
研究方向 | 電磁理論與計算、電力電子變壓器及新能源電力系統、無線電能傳輸 | |
電子郵箱 | xia_nh@shiep.edu.cn |
個人簡介
夏能弘,bevictor伟德官网教授,碩士生導師。2013年10月畢業于香港理工大學,電氣工程專業,獲博士學位。同年12月加入bevictor伟德官网,獲聘為“光明學者”特聘教授。現任中國電機工程學會電工理論與新技術專業委員會第八屆委員會委員、高等學校電磁場教學與教材研究會第七屆理事會常務理事。
主要研究方向:電磁場數值分析,無線電能傳輸,電力系統電磁兼容、電力電子變壓器及新能源電力系統等。主持和承擔了國家自然科學基金青年項目、面上項目各1項,主持上海市自然科學基金面上項目2項,主持其它省部級重點項目1項,主持産學研合作項目多項。近年來在國際主流學術期刊和學術會議上發表論文62篇,其中SCI收錄18篇, EI收錄24篇,中文核心多篇,以第一作者申請專利9項,已授權2項。
主講專業基礎課《電磁場》等多門課程,先後主持完成上海市重點課程建設以及其它相關教研教改項目,發表教育教改論文多篇,開發了大量在線教輔資源,受益學生覆蓋電氣工程及其自動化專業本科學生。指導研究生獲 “研究生國家獎學金”、優秀畢業生等榮譽。派遣研究生參加國内國際學術會議,促進學生學術交流,開闊學生視野。
代表性論著:
[1] Nenghong, Xia*, Xike Mao, Shuang Yan, Huaqi Ma, Mengqi Chen, Quad‐active‐bridge converter with flexible power flow based on LC series resonance decoupling for renewable energy charging stations, IET Power Electronics, 2024.
[2] Nenghong, Xia*, Mengqi Chen, Xike Mao, Shuang Yan, Huaqi Ma, A Composite Core Laminated of Nanocrystalline-Ferrite with High Saturation Magnetic Flux Density Used in High Frequency Transformer, Journal of Power Electronics, 2024.
[3] Nenghong, Xia*, Shuang Yan, Huaqi Ma, Xike Mao, Mengqi Chen, Double B-type Magnetic Integrated Transformer Based Input-Parallel Output-Parallel LLC Resonant Converter Modules, Frontiers in Energy Research, 2024.
[4] Xia, Nenghong*, Chen, Mengqi, Zhu, Yimin, A Dynamic Wireless Charging System Based on Transmitter Module Composed of Coplanar Double Bipolar Pads with Hybrid Compensation Topology, Journal of Electrical Engineering and Technology, 2023
[5] Xia, N.*, Xu, X., Zhang, F., Zhu, Y., Huang, C., Lin, J., The mechanism and optimization method of the capacitance team used in double-sided LCC compensation topology, in IET Power Electronics, vol. 16, no. 1, pp. 92-101, Jul 18, 2022.
[6] 夏能弘,唐文濤,李懷慎,黃琛,許肖穎,李峰,馬骅祺.地鐵軌道局部絕緣損壞下動态雜散電流及地電位梯度建模與分析[J].電力系統保護與控制,2023,51(04):53-61.
[7] Huang, Chen; Xia, Nenghong*; Mao, Xike; Hua, Chengchao; Xu, Xiaoying; Yuan, Zhipeng, Design of Integrated Coil Structure for Simultaneous Wireless Information and Power Transfer Applied to Electric Power Inspection Robot, The Proceedings of 2022 International Conference on Wireless Power Transfer, ICWPT 2022, Chongqing, China, vol. 1018 LNEE, pp. 531-542, 2022.
[8] N. Xia*, Z. Yuan, Y. Zhu and Y. Wang, Integrated receiver with high misalignment tolerance used in dynamic wireless charging, in IET Electric Power Applications, vol. 14, no. 10, pp. 1918-1924, 10 2020.
[9] 夏能弘,朱益民,程志遠.基于垂直中繼線圈結構的L形無線充電裝置設計與優化[J].電工技術學報,2019,34(13):2671-2678.
[10] L. Heng, X. Nenghong*, T. Jianlin and Q. Chao, Modeling of Offshore Wind Turbine Under Lightning Stroke and Analysis of Impact Factors on Transient Overvoltage, 2019 11th Asia-Pacific International Conference on Lightning (APL), Hong Kong, China, 2019, pp. 1-6.
[11] X. Nenghong*, L. Heng and Q. Chao, The Integrated Electromagnetic Transient Model of Wind Turbine Considering the Grounding Environment in Intertidal Zone, 2019 IEEE 2nd International Conference on Electronic Information and Communication Technology (ICEICT), Harbin, China, 2019, pp. 820-825.
[12] N. Xia*, Y. Zhu and Z. Cheng, Optimization and Analysis of Coplanar Double-Repeater Used in Dynamic Wireless Charging, 2018 IEEE Wireless Power Transfer Conference (WPTC), Montreal, QC, Canada, 2018, pp. 1-4.
[13] Xia, N.*; Tian, Menglin; Lian, Haisheng; Zhu, Yimin. Analysis of effective transmission distance of double transmitters in magnetic coupled resonant WPT system, (LSMS 2017 & ICSEE 2017), Shanghai, PEOPLES R CHINA , vol.762, pp.686-694, 2017.
[14] N. Xia*, M. Tian, Y. Fu, Q. Zhou and J. Guo, A Hybrid Meshing Technique for Ferromagnetic Structure Based on PEEC Method, in IEEE Transactions on Magnetics, vol. 51, no. 11, pp. 1-4, Nov. 2015.
[15] N. Xia and Y. Du, An Efficient Modeling Method for 3-D Magnetic Plates in Magnetic Shielding, in IEEE Transactions on Electromagnetic Compatibility, vol. 56, no. 3, pp. 608-614, June 2014.
[16] N. Xia and Y. Du, Reduction of PEEC Unknowns for 3D Metallic Plates in Magnetic Shielding, in IEEE Transactions on Magnetics, vol. 49, no. 5, pp. 2001-2004, May 2013.
[17] Y. Du, N. Xia and M. Chen, Joint Modeling for Conductive Plates in Low-Frequency Magnetic Shielding, in IEEE Transactions on Magnetics, vol. 49, no. 5, pp. 2005-2008, May 2013.
[18] N. Xia and Y. Du, Volume and surface elements-based PEEC for magnetic plate shielding at low frequency, International Symposium on Electromagnetic Compatibility - EMC EUROPE, Rome, Italy, 2012, pp. 1-4
發明專利:
[1] 夏能弘; 朱益民; 用于雙極無線充電系統的組合式中繼線圈及其設計方法, 2021-12-7, 中國, ZL201810961219.6 (授權)
[2] 夏能弘; 王躍躍; 應用于無線電能傳輸系統的兩級異物定位檢測方法, 2023-5-5, 中國, ZL201910858752.4 (授權)
[3] 夏能弘; 陳夢琪; 一種納米晶和鐵氧體交錯疊壓的複合磁芯結構及其優化方法, 2024-1-31, 中國, 202410136791.4
[4] 夏能弘; 毛熙科; 一種四端口隔離型直流變換器的控制方法, 2023-12-27, 中國, 202311827063.X
[5] 夏能弘; 許肖穎; 含鐵氧體磁芯的磁集成型器件融合建模及一體優化方法, 2023-12-5, 中國, 202311176647.5
[6] 夏能弘; 袁志鵬; 許肖穎; 一種集成線圈以及磁近場耦合式無線信能傳輸系統, 2022-3-9, 中國, 202210231997.6
[7] 夏能弘; 朱益民; 一種有源中繼裝置及其構成的無線電能傳輸系統, 2018-8-22, 中國, 201810961194.X
代表性項目:
[1] 2023/04-2026/03,基于MagPEEC的松耦合變壓器線圈-磁芯耦合機理與融合建模研究,上海市自然科學基金面上項目(23ZR1424800)
[2] 2022/10-2024/12,水下**低頻磁異常模型及預測系統研制,上海市****重點項目
[3] 2019/01-2022/12,基于扇型分列式拾取機構的無纜水下機器人無線充電技術研究,國家自然科學基金面上項目(51877129)
[4] 2017/01-2019/12,基于磁耦合度的多導體系統互連參數提取及稀疏化研究,國家自然科學基金青年項目(51607110)
[5] 2014/07-2017/06,暫态電磁場作用下金屬網栅的屏蔽效應研究,上海市自然科學基金面上項目(14ZR1417600)
[6] 2015/05-2018/11,基于PEEC的大型電氣結構的電磁模拟技術研究,上海市教育委員會青年教師培育項目(ZZsdl15090)
[7] 2014/05-2018/12,金屬闆結構的低頻磁場屏蔽研究,上海電力學院人才引進基金(K2014-051)
[8] 2018/05-2020/06,風力發電機組雷電流傳導檢測仿真,上海電氣風電集團有限公司