| 黄磊 职称:副教授、博士生导师 研究方向:点吸收波浪发电系统,直线电机及其系统,海洋电能变换和海域供电,高压输电线路分析 Email: huanglei@seu.edu.cn 电话: 15050585836 |
个人简介:
工学博士,副教授,博士生导师,304永利集团官网入口南通海洋高等研究院副院长,中国电工技术学会直线电机专业委员会委员,中国电工技术学会高级会员,中国电源学会高级会员。2012年毕业于304永利集团官网入口获工学博士学位。2012年至今任304永利集团官网入口讲师、副教授。2017年10月至2018年10月于英国谢菲尔德大学访学。主持国家自然科学基金项目3项、江苏省自然科学基金项目1项、江苏省重大专项基金1项、重点实验室基金项目1项、航空科学基金1项。负责和参与中国能源建设集团项目、江苏省电力公司科技项目、国电南瑞科技股份有限公司、江苏省电力设计院项目30余项。在国内外学术期刊发表相关研究学术论文80余篇,其中以第一作者或通讯作者已发表论文50余篇。获得2018年度教育部技术发明二等奖1项, 2023年日内瓦发明展银奖1项,江苏省电机工程学会科学技术三等奖1项,江苏省电力公司科技进步二等奖1项。目前主要从事点吸收波浪发电系统,直线电机及其系统,海洋电能变换和海域供电,高压输电线路分析等相关领域研究。
科研:
主要纵向课题:
[1] (主持)国家自然科学基金,“可调磁力传动多端口波浪发电机及其非因果控制策略研究”,2025.1-2028.12
[2] (主持)江苏省省碳达峰碳中和科技创新专项资金项目-课题负责人,“千标方级海上直接电解制氢装备原发与应用示范”,2025.10-2028.12
[3] (主持)江苏省重大专项项目-课题负责人,“深海立体观测网高可靠性装备研发”,2024.10-2027.12
[4] (主持)国家自然基金面上项目,“可控双端口直线-旋转直驱式波浪发电机理及其控制系统研究”,2019.1-2022.12;
[5] (主持)重点实验室基金(省部级),“.…..发电技术研究”2020.1-2021.12;
[6] (主持)国家自然基金青年基金项目,“直驱式波浪发电用全超导初级励磁型直线发电机机理”,2015.1-2017.12;
[7] (主持)江苏省自然基金青年基金,“海浪发电用新型超导混合励磁直线发电机设计及最大能量捕获控制策略研究”,2013.8-2016.12;
[8](主持)航空科学基金项目,“永磁直线电机电磁推力波动优化与抑制技术研究”,2013.9-2015.9;
[9] (参与)国家自然基金面上项目,“直驱式波浪发电用横向磁通混合磁场调制直线发电机及其控制系统研究”,2018.1-2021.12;
[10] (参与)国家海洋可再生能源专项,“用于海洋观测设备的直驱式波浪发电关键技术研究与试验”,2011.9-2015.12。
主要横向课题:
[1] (主持)江苏省电力公司科技项目,“应用于海域供电的漂浮式风-光-波多能互补发电关键技术研究”,2024.11-2026.10;
[2] (主持) 中国能源建设集团江苏省电力设计院科技项目,“长距离交直流共塔电气参数仿真研究”,2025.9-2026.12;
[3] (主持)连云港供电公司科技项目,“应用于海域供电的漂浮式风-光-波多能互补发电运行控制关键技术”,2024.10-2025.12;
[4] (主持)中国能源建设集团江苏省电力设计院科技项目,“柔性低频交流海底电缆电气设计关键技术研究”,2025.6-2026.8;
[5] (主持)中国能源建设集团重点科技项目,“漂浮式光伏运行控制系统仿真及策略算法软件开发”,2024.1-2024.12;
[6] (主持)广西电网有限责任公司电力科学研究院,“大功率伺服电机技术开发”,2024.4-2025.9;
[7] (主持)南瑞集团科技项目,“岸电系统安全检测技术及系统研究”,2022.9-2023.12;
[8] (主持)中国能源建设集团江苏省电力设计院科技项目,“海底电缆动态载流量及电缆并联运行载流量计算研究”。2022.9-2023.9;
[9] (主持)中国能源建设集团江苏省电力设计院科技项目,“高压电缆增加段长技术研究”2021.1-2022.9;
[10] (主持)江苏省电力公司科技项目,“城市综合管廊电力仓的高压电缆电气干扰及其影响研究”,2019.1-2020.9
[11] (主持)江苏省电力公司科技项目,“含波浪能海岛微电网关键技术研究”,2018.1-2018.12
[12] (主持)企业项目,“波浪永磁直线发电模拟系统研制”,2017.1-2017.12
论著:
近3年来代表性论文:
[1]L. Huang, J. Yang, and M. Hu, "Wave prediction and predictive control approach for efficiency optimization in wave energy conversion systems: a review,"Electric Power Systems Research, vol. 254, p. 112613, 2026.
[2] M.S. Chen, L. Huang*, H. Yang , J. Yang, Z.Y. Zhu and Y. Li,"Thrust Generation Mechanism of a Hybrid Excitation Field Modulated Transverse Flux Linear Generator by Magnetic Field Modulation Theory," in IEEE Transactions on Industrial Electronics, 2026.
[3]J. Yang,L. Huang*, H. Yang and M. Chen, "Model Predictive Thrust Control With Dynamic Flux-Enhancing for Transverse Flux PM Linear Generator in Direct-Drive Wave Energy Converter," in IEEE Transactions on Power Electronics, 2026.
[4]Y. Li,L. Huang*, H. Yang, M. Chen, R. Guo and L. Wang, "Analysis of A Linear-Rotary Magnetic Field Modulation Generator for Wave Energy Conversion," IEEE Transactions on Energy Conversion, vol.41, no.1, pp. 809 - 823, 2026.
[5]Y. Li,L. Huang*, H. Yang, F. Shen, M. Chen and L. Wang, "Analytical Calculation of an Axial Flux Multi-rotor Magnetic Gear Generator and Analysis of Its Harmonic Speed-up Effect," inIEEE Transactions on Energy Conversion, 2026,doi: 10.1109/TEC.2025.3645738.
[6]P. Tan,L. Huang*, W. Zheng, S. Wang, J. Yang and B. Pan, "An Enhanced Passivity-Based Control of Hybrid Energy Storage Applied to Wave Energy Conversion System,”IEEE Transactions on Industry Applications, vol.62, no.1, pp.1336 – 1348, 2026.
[7]R. A. Nchor, L. Huang*, and J. Yang, “Comparative analysis of sliding mode and terminal sliding mode current control for Direct-Drive wave energy converters,” International Journal of Electrical Power & Energy Systems, vol. 172, p. 111176, 2025.
[8]M. ChenL. Huang*,et al., “Design and Analysis of a Hybrid Excitation Transverse Flux Linear MachineUsed for Linear Railway Traction,”IEEE Transactions on Transportation Electrification, vol.12, no.2, pp.1 2743 - 2759, 2026.
[9]L. Huang, W. Zheng, G. Lv, and J. Hou, “Hybrid energy storage system control method applied to floating wind-solar-wave multi-energy complementary power generation systems,”Journal of Power Electronics,2026.
[10]Y. Li,L. Huang*, H. Yang, F. Shen, M. Chen and L. Wang, "Magnetic–Thermal–Fluid Coupled Heat Transfer Analysis of an MPMFM-AFM With Mixed Flow Fan," inIEEE Transactions on Transportation Electrification, vol. 11, no. 5, pp. 12531-12546, Oct. 2025
[11]F. Shen,L. Huang*, Y. Li, M. Hu, M. Chen, and H. Wang, “A Comprehensive Review of High-Performance Magnetic Lead Screw Design and Enabling Technologies,”IEEE Transactions on Transportation Electrification, vol.12, no.2, pp. 2273 - 2297, 2025.
[12]H. Wang, L. Huang*, and X. Liu, “Analysis of No-Load Normal Vibration in Single-Sided Permanent Magnet Synchronous Linear Motors With Different End Structures,”International Journal of Circuit Theory and Applications, vol. 53, no. 10, pp. 5977–5988, 2025.
[13]F. Shen,L. Huang*, Y. Li, M. Chen, and M. Hu, “Design Optimization and Manufacturing of High-Performance MLS for WEC,”Chinese Journal of Electrical Engineering.
[14]陈珉烁,黄磊*,秦伟,李渊, and杨建龙, “波浪发电用交叉绕组横向磁通直线发电机优化设计,”电工技术学报, vol. 40, no. 20, pp. 6446–6459, 2025.
[15]黄磊*,李渊,陈珉烁,杨建龙,直驱式波浪发电用磁场调制横向磁通发电机的设计与分析[J],中国电机工程学报,2025, 45(1): 330-341.
[16] H.T. Liu,L. Huang*, M.Q. Hu, S.X. Wang, J.L. Yang and S.Q. Wu, "An Optimal Power Capture Strategy for Dual-port Direct-Drive Wave Energy Converter with Complementary Power Output," in IEEE Transactions on Industry Applications, 61(2): 3399 - 3412
[17] P.W. Tan ,L. Huang*, X.Y. Chang, S.X. Wang, Z.H. Mou and B.Y. Pan. “Model-free predictive control of parameter variations in DDWEC-HESS-hydrogen system.” Journal of Energy Storage ,108 (2025):115099
[18] J.L. Yang,L. Huang*, S.Q. Wu, H.T. Liu, J.Y. Zhang, Y. Wang, “Approximate Optimal Condition Model-Free Predictive Velocity Control of a Direct-Drive Wave Energy Converter Based on Ultra-local Model[J],”Ocean engineering, vol.288, 2024, 118214.
[19]L. Huang*, B. Pan, S. Wang, Y. Dong, Z. Mou, "Review on Maximum Power Point Tracking Control Strategy Algorithms for Offshore Floating Photovoltaic Systems,” Journal of Marine Science and Engineering. 2024; 12(12):2121.
[20] M.S. Chen,L. Huang*, Y. Li, G.J. Meng, T. Xia, "A Low Thrust Ripple Flux-Reversal Transverse Flux Permanent Magnet Linear Generator Used in Direct Drive Wave Energy Converter,” IEEE Transactions on Magnetics, vol. 60, no.9, pp. 1-5, 2024.
[21]L. Huang*, S. Wang, B. Pan, H. Liu, J. Zhang, S. Wu, "Research on Decoupling Duty Cycle Optimization Control Method of a Multiport Converter for Dual-Port Direct Drive Wave Power Generation System,” Journal of Marine Science and Engineering.2024; 12(10):1811.
[22]黄磊*,魏莱,杨建龙,胡敏强,基于模型预测的直驱式波浪发电机机侧最优功率控制技术研究[J],电工技术学报,2024, 39 (14):4391-4404.(EI,一级学报)
[23] S. Wu,L. Huang*, J. Yang, J. Zhang, H. Liu, S. Wang, & Z. Mou, "Research on Fourier Coefficient-Based Energy Capture for Direct-Drive Wave Energy Generation System Based on Position Sensorless Disturbance Suppression,” Journal of Marine Science and Engineering, 12(8), 1358.
[24] H.T. Liu, L. Huang*, Y. Li, J.L. Yang, J.Y. Zhang, “Resonance control to eliminate reactive power of an improved dual-port direct-drive wave energy converter[J],”Ocean engineering,vol.288, 2023.
[25] Y. Li,L. Huang*, M. Chen, P. Tan, M. Hu, “Maximum power point tracking control based on inertia force for underwater direct-drive wave energy converter[J],”Renewable Energy, Volume 215(2023)118964, 2023.
[26] P. Tan, L. Huang*, M. Chen, Y. Li, L. Wei and R. Ma, “A Robust Faster Joint Control of a Direct-drive Wave Energy Converter Combined with Supercapacitor and Battery Energy Storage[J],” IEEE Journal of Emerging and Selected Topics in Power Electronics, vol.11, no.5, pp.5417-5429, 20230.
[27] X. Chang,L Huang*, X. Zhang., J. Yang, and H. Liu, “Study on the Dynamic Optimal Control Strategy of an Electric-Hydrogen Hybrid Energy Storage System for a Direct Drive Wave Power Generation System” Journal of Marine Science and Engineering, vol.11, no. 7: 1347.
[28] M. Chen,L. Huang*, Y. Li, et al., "Design and Analysis of a Field-Modulated PM Transverse Flux Linear Generator With Tilted Translator[J],"IEEE Transactions on Industry Applications, 2023, doi: 10.1109/TIA.2023.3265314.
[29] L. Huang*, L. Wei, J. Liu, J.L. Yang, X.Y. Zhang, “Research on an improved model predictive current control for direct‐drive wave energy converters with linear generators[J],”IET Renewable Power Generation, vol. 17, no. 7, pp. 1670-1679, 2023.
近年来第一发明人授权相关专利:
[1]黄磊,杨健,胡敏强,陈珉烁,酒辰霄,赵东东.一种直驱式波浪发电用全超导初级励磁直线发电机,CN105811738A
[2]黄磊,陈珉烁,余海涛,杨健.一种基于MAS多尺度的风光波互补海岛微电网能量控制方法,CN106849159A
[3]黄磊,杨健,胡敏强,余海涛,仲伟波,陈珉烁.直线电机动子运动方向检测方法和直驱式波浪发电系统,CN106972527A
[4]黄磊,胡彬彬,胡敏强,陈珉烁,谭沛文,李杨.一种可控双端口直驱式波浪发电机,CN110957855A
[5]黄磊,李杨,胡敏强,魏莱.一种结合储能的双端功率可控直驱式波浪发电系统,CN112412686A
[6]黄磊,黄素娟,张小雨,张瑞永,魏莱,一种柔性直流配电网优化运行控制方法,中国发明专利授权,专利号CN202210811923.X
[7]黄磊,牟子豪,王豪苒,杨建龙,谭沛文,闾纲峰,朱煜彬,用于浮式风光波平台中波浪能装置的最优功率捕获方法,中国发明专利授权,专利号CN202510317739.3
[8]黄磊,魏莱,杨建龙,永磁直线发电机模型预测电流控制方法、设备及存储介质,中国发明专利授权,专利号CN202211328286.7
[9]黄磊,沈峰裕,李渊,张吉宇,陈珉烁,王豪苒,用于磁力传动装置的高效低成本等效螺旋永磁体加工方法,中国发明专利授权,专利号CN202510317738.9
教学:
本科生:信号与系统、Matlab应用与实践
研究生:高等电力网络分析、电网络理论
人才培养:
已指导毕业博士生1人,已指导毕业硕士生16人。
