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上海交通大学电气工程系导师教师师资介绍简介-吕敬

本站小编 Free考研考试/2021-01-01


吕敬 助理教授/硕士生导师 研究领域 新能源柔直并网稳定性,电力电子系统稳定分析与控制,风电机组/风电场动态建模,人工智能在电力电子系统中的应用
联系方式 地址:上海市闵行区东川路800号智能电网中心楼507室
邮编:200240
电子邮件:lvjing@sjtu.edu.cn
教育背景 2011.9-2016.11 上海交通大学,电气工程,博士
2009.9-2011.5 上海交通大学,电力电子与电力传动,硕士
2005.9-2009.6 中国矿业大学,电气工程及其自动化,学士
工作经历 2018.1-至今 上海交通大学,长聘教轨助理教授
2016.12-2017.11 挪威科技大学,博士后研究员
主要科研项目 [1] 国家自然科学基金项目,风电场与柔直送端MMC换流站交互振荡机理及抑制方法研究,2020-2022,项目负责人
[2]国家电网总部科技项目,柔性直流输电系统高频谐振风险评估及抑制关键技术研究,2020-2021,课题负责人
[3] 国家重点实验室开放基金项目,风力发电装备黑/灰箱模型的参数辨识及解析化稳定性研究,2019- 2020,项目负责人
[4] 国家电网总部科技项目,柔性直流输电系统运行振荡风险分析及稳定性提升技术研究,2019-2020,课题负责人
[5] 国家重点研发计划课题,大容量电力电子装备关键部件短时间尺度失效机理与安全运行域刻画方法,2018-2021,任务负责人
[6] 国家自然科学基金重点项目,大规模风光电源与柔性直流系统的交互动态特性形成机理、稳定性分析与镇定控制,2019-2023,项目骨干
[7] 国家重点实验室开放基金项目,新能源经柔性直流送出系统的暂态稳定性研究,2019-2021,项目骨干
[8] 国家重点研发计划课题,换流阀及其系统拓扑与控制保护技术,2016-2019,项目骨干
[9] 上海市科委科研计划项目,深远海风电与柔直的匹配适应控制关键技术研究,2016-2018,项目骨干
[10] 国家863计划课题,海上风电场送电系统与并网关键技术研究及应用,2013-2015,项目骨干
[11] 上海市科委科研计划项目,用于海上风电场电力传输的轻型直流输电VSC-HVDC基础技术研究,2013-2015,项目骨干
[12] 上海市科委科研计划项目,模块化、组合式通用MW级风电变流器控制算法研究及控制器研制,2010-2012,项目骨干
[13] 重大横向课题,3MW感应电机全功率风电变流器研究、开发与试制,2009-2011,项目骨干

教学 [1] 本科生专业基础课《电力电子技术基础》(主讲、全英文,课程编号:EE303)
[2] 致远荣誉博士生专业基础课《高等电力电子学》(合讲、中文,课程编号:EE28002)
学术兼职 中国电工技术学会高级会员
中国电工技术学会人工智能与电气应用专业委员会委员
中国电机工程学会会员
中国电源学会会员
IEEE member,IEEE IES、PELS、PES member
国际大电网组织(CIGRE)会员
BMC Energy国际期刊编委
担任多个IEEE国际学术会议技术委员会和国际指导委员会委员

担任十余个电气工程领域主流期刊审稿专家:
IEEE Transactions on Power Electronics,
IEEE Transactions on Industrial Electronics,
IEEE Transactions on Smart Grid,
IEEE Transactions on Sustainable Energy,
IEEE Journal of Emerging and Selected Topics in Power Electronics,
IEEE Transactions on Energy Conversion,
IEEE Transactions on Power Delivery,
IEEE Access,
IET Renewable Power Generation,
IET Generation, Transmission & Distribution,
中国电机工程学报,
电力系统自动化,等
主要论文 Journal paper:
[1] J. Lyu, X. Zhang, X. Cai, M. Molinas, Harmonic state-space based small-signal impedance modeling of modular multilevel converter with consideration of internal harmonic dynamics, IEEE Transactions on Power Electronics, 2019.
[2] P. Dong, J. Lyu, X. Cai, “Optimized design and control for hybrid MMC with reduced capacitance requirements,” IEEE Access, vol. 6, pp. 51069-51083, 2018.
[3] P. Dong, J. Lyu, X. Cai, “Modeling, analysis and enhanced control of modular multilevel converters with asymmetric arm impedance for HVDC applications,” Journal of Power Electronics, vol. 18, no. 6, pp. 1683-1696, Nov. 2018.
[4] J. Lyu, X. Cai, M. Molinas, Optimal design of controller parameters for improving the stability of MMC-HVDC for wind farm integration, IEEE Journal of Emerging and Selected Topics in Power Electronics, 2018, 6(1): 40-53.
[5] J. Lyu, X. Cai, M. Amin, M. Molinas, Subsynchronous oscillation mechanism and its suppression in MMC-Based HVDC connected wind farms, IET Generation, Transmission & Distribution, 2018, 12(4): 1021-1029.
[6] J. Lyu, Q. Chen, X. Cai, M. Molinas, Impedance analysis of modular multilevel converter based on harmonic state-space modeling method, 2017, arXiv: 1705.01030 [cs.SY].
[7] J. Lyu, M. Molinas, X. Cai, Harmonic state space modeling of a three-phase modular multilevel converter, 2017, arXiv: 1706.09925 [cs.SY].
[8] J. Lyu, X. Cai, M. Molinas, Frequency domain stability analysis of MMC-based HVdc for wind farm integration, IEEE Journal of Emerging and Selected Topics in Power Electronics, 2016, 4(1): 141-151.
[9] J. Lyu, J. Zhang, X. Cai, J. Dai, H. Wang, Circulating current control strategy for parallel full-scale wind power converters, IET Power Electronics, 2016, 9(4):639-647.
[10] M. Amin, M. Molinas, J. Lyu, X. Cai, Impact of power flow direction on the stability of VSC-HVDC seen from the impedances Nyquist plot, IEEE Transactions on Power Electronics, 2016, 32(10): 8204-8217.
[11] 董鹏,蔡旭,吕敬, 大幅减小子模块电容容值的MMC优化方法, 中国电机工程学报,2018,38(18):5369-5380.
[12] 董鹏,蔡旭,吕敬, 不对称交流电网下MMC-HVDC系统的控制策略, 中国电机工程学报,2018,38(16):4646-4657.
[13] 吕敬,蔡旭,风场柔直并网系统稳定器的频域分析与设计,中国电机工程学报,2018,38(14):4074-4085.
[14] 吕敬,蔡旭,提高风场柔直并网系统稳定性的控制器参数优化设计,中国电机工程学报,2017,38(2):431-443.
[15] 董鹏,吕敬,蔡旭. 桥臂参数不对称MMC的运行与控制[J]. 中国电机工程学报,2017, 37(24): 7255-7265.
[16] 吕敬,蔡旭,基于谐波线性化的模块化多电平换流器阻抗建模,电力系统自动化,2017,41(4): 136-142.
[17] 吕敬,蔡旭,张建文,模块化多电平换流器的交直流侧阻抗模型,电力自动化设备,2017,37(1):131-136.
[18] 吕敬,蔡旭,张占奎,迟永宁,海上风电场经MMC-HVDC并网的阻抗建模及稳定性分析,中国电机工程学报,2016,36(14):3771-3780.
[19] 吕敬,董鹏,施刚,蔡旭,黎小林,大型双馈风电场经MMC-HVDC并网的次同步振荡及其抑制,中国电机工程学报,2015,35(19):4852-4860.
[20] 吕敬,施刚,蔡旭,饶宏,黎小林,大型风电场经VSC-HVDC交直流并联系统并网的运行控制策略,电网技术,2015,39(3):639-646.

Conference paper:
[1] J. Lyu, X. Cai, X. Zhang, M. Molinas, “Harmonic state space modeling and analysis of modular multilevel converter,” IEEE PEAC 2018, Shenzhen, China.
[2] P. Dong, J. Lyu, X. Cai, “Analysis and optimized control of MMC under asymmetric arm parameter conditions,” IEEE PEAC 2018, Shenzhen, China.
[3] H. Zong, J. Lyu, X. Cai, M. Molinas, C. Zhang, R. Yang, “Analysis of bifurcation behaviors in MMC connected to a weak grid,” IEEE IECON 2018, Washington D.C., USA.
[4] J. Lyu, X. Zhang, J. Huang, J. Zhang, X. Cai, “Comparison of harmonic linearization and harmonic state space methods for impedance modeling of modular multilevel converters,” IEEE ECCE Asia 2018, Niigata, Japan.
[5] J. Lyu, X. Zhang, Z. Ma, X. Cai, “A novel dc-side-port impedance modeling of modular multilevel converters based on harmonic state space method,” IEEE ECCE Asia 2018, Niigata, Japan.
[6] J. Lyu, M. Molinas, X. Cai, “Stabilization control methods for enhancing the stability of wind farm integration via an MMC-Based HVDC system,” IEEE CPE-POWERENG 2017, Cadiz, Spain.
[7] J. Lyu, Q. Chen, X. Cai, “Impedance modeling of modular multilevel converters by harmonic linearization,” IEEE COMPEL 2016, Trondheim, Norway.
[8] Q. Chen, J. Lyu, R. Li, X. Cai, “Impedance modeling of modular multilevel converter based on harmonic state space,” IEEE COMPEL 2016, Trondheim, Norway.
[9] J. Lyu, X. Cai, M. Molinas, “Impedance modeling of modular multilevel converters,” IEEE IECON 2015, Yokohama, Japan.
[10] J. Lyu, Xu Cai, “Impact of controller parameters on stability of MMC-based HVDC systems for offshore wind farms,” IET RPG 2015, Beijing, China.
[11] M. Amin, J. Lyu, M. Molinas, “Oscillatory phenomena between wind farms and HVDC systems: The impact of control,” IEEE COMPEL 2015, Vancouver, Canada.
[12] P. Dong, J. Zhang, J. Lyu, X. Cai, “A simple voltage balancing method for modular multilevel converters,” IEEE IECON 2015, Yokohama, Japan.
[13] J. Lyu, P. Dong, G. Shi, X. Cai, H. Rao, J. Chen, “Subsynchronous oscillation of large DFIG-based wind farms integration through MMC-based HVDC,” IEEE POWERCON 2014, Chengdu, China.
[14]W. Li, J. Lyu, G. Shi, X. Cai, Y. Chi, “Improved ac fault ride through control strategy for MTDC system with offshore wind farms,” IEEE POWERCON 2014, Chengdu, China, 2014.



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