|
刘康礼 职称:副研究员 研究方向:新能源并网;配电网新型接地系统;电能质量 Email:kangli@seu.edu.cn 办公地址:四牌楼校区动力楼 |
个人简介:
刘康礼(1989-),男,工学博士,副研究员。2017年博士毕业于东南大学电气工程专业,2020年入选东南大学首批“至善博士后”支持计划,后留校任教。2021年9月-2023年5月,公派至德国慕尼黑工业大学EAL/HLU研究所开展博士后研究工作。主要研究方向为高效功率变换系统的理论及应用,研究领域包括新能源并网、配电网新型接地系统、电能质量治理等。主持国家自然科学基金青年科学基金项目、中国博士后科学基金特别资助/面上资助、国际交流计划派出项目、东南大学博士后重点科研资助A类、江苏省智能电网技术与装备重点实验室课题、电网公司科技项目等课题,参与国家自然科学基金面上项目、江苏省科技成果转化项目、江苏省前瞻性联合研究项目、企业委托项目等20余项课题。截至目前,已发表SCI/EI检索论文50余篇,授权国家发明专利20余件,在申请国际PCT/美国专利1件。担任IEEE Transactions on Industrial Electronics、IEEE Transactions on Power Electronics、IEEE Transactions on Power Delivery、IEEE Transactions on Circuits and Systems II: Express Briefs、IET Power Electronics等SCI期刊审稿人。
欢迎对上述研究领域感兴趣的同学加入团队。
代表性论文:
[1] K. Liu, W. Cao*, S. Wang, H. Kang, J. Zhao, M. Wu and D. Fan, Admittance Modeling, Analysis, and Reshaping of Harmonic Control Loop for Multiparalleled SAPFs System,IEEE Transactions on Industrial Informatics, vol. 17, no. 1, pp. 280-289, January 2021.
[2] K. Liu, W. Cao* and J. Zhao, Dual-Loop-Based Harmonic Current Control Strategy and Admittance Modeling for a Multimodular Parallel SAPFs System,IEEE Transactions on Industrial Electronics, vol. 67, no. 7, pp. 5456-5466, July 2020.
[3] K. Liu*, S. Zhang, J. Zhao, C. Zhang and B. Liu, Reliability-Enhanced Hybrid Grounding System Based on Active Neutral-Point Voltage Regulator and Low-Resistance,IEEE Transactions on Power Delivery, vol. 36, no. 5, pp. 3270-3273, October 2021.
[4] K. Liu*, S. Zhang, B. Li, C. Zhang, B. Liu, H. Jin and J. Zhao, Flexible Grounding System for Single-Phase to Ground Faults in Distribution Networks: A Systematic Review of Developments,IEEE Transactions on Power Delivery, vol. 37, no. 3, pp. 1640-1649, June 2022.
[5] S. Zhang,K.Liu*, J. Zhao, W. Tian, C. Jin, R. Kennel, M. L. Heldwein, “Boundaries Extension of Stability Region and z-Domain Controller Implementation for Grid-Forming Converters,”IEEE Journal of Emerging and Selected Topics in Industrial Electronics, accepted, September 2023.
[6] C. Jin,K. Liu, J. Zhao*, Z. Ji, W. Chen and X. Guo, Multiarea Hybrid Equivalent for Power Electronics System,IEEE Transactions on Power Electronics, vol. 38, no. 10, pp. 12331-12336, October 2023.
[7] W. Cao,K. Liu*, M. Wu, S. Xu and J. Zhao, An Improved Current Control Strategy Based on Particle Swarm Optimization and Steady-State Error Correction for SAPF,IEEE Transactions on Industry Applications, vol. 55, no. 4, pp. 4268-4274, July-Aug. 2019.
[8] C. Jin, Z. Ji,K. Liu, W. Chen and J. Zhao*, A Region-Folding Electromagnetic Transient Simulation Approach for Large-Scale Power Electronics System,IEEE Transactions on Power Electronics, vol. 38, no. 8, pp. 9755-9766, August 2023.
[9] W. Chen, J. Zhao*, C. Jin andK. Liu, Fast-Convergent Time-Domain Algorithm Based Parameter Optimization for Phase-Shift LLC Converters,IEEE Transactions on Industrial Electronics, vol. 70, no. 7, pp. 6786 - 6797, July 2023.
[10]W. Cao,K. Liu*, S. Xu, H. Kang and J. Zhao, “Stabilization Control Strategy for Shore Power System with Surge Loads Based on Virtual Synchronous Generator,”Journal of Electrical Engineering & Technology, vol.14, no.3, pp.1045–1054, May 2019.
[11] K. Liu, W. Cao*, J. Zhao and J. You, “Unified Digital Phase-Locked Loop with Multiple Complex Resonators for Both Single- and Three-Phase Grid Synchronization,”IEEE Access, vol. 5, pp. 24810-24818, November 2017.
[12] S. Zhang, J. Zhao*,K. Liu, Z. Shi and L. Jin, “Stability enhancement and discrete-time resonant controller synthesis for voltage-controlled Voltage Source Converters,”IET Generation, Transmission & Distribution, vol. 16, no. 5, pp. 924-937, March 2022.
[13] W. Chen, J. Zhao*,K. Liu, and W. Cao, “Passivity enhancement for LCL-filtered grid-connected inverters using the dominant-admittance-based controller,”IET Power Electronics, vol. 13, no. 18, pp. 4140-4149, December 2020.
[14] C. Zhang, J. Zhao*, X. Dou, Q. Hu, J. Leng,K. Liu, “Containment-Based Distributed Cooperative Control of Microgrid Clusters: Accurately Constraining the Bus States of Loads and Microgrids,”IEEE Transactions on Power Systems, accepted, November 2023.
[15] K. Liu*, S. Zhang, B. Li, C. Zhang, B. Liu, H. Jin and J. Zhao, “Faulty Feeder Identification Based on Data Analysis and Similarity Comparison for Flexible Grounding System in Electric Distribution Networks,”Sensors, vol. 21, no. 1, 154, December 2020.
[16] L. Gong, W. Cao,K. Liu, Y. Yu and J. Zhao*, “Demand responsive charging strategy of electric vehicles to mitigate the volatility of renewable energy sources,”Renewable Energy, vol. 156, pp. 665-676, August 2020.
[17] S. Zhang, J. Zhao*,K. Liu, B. Li and P. Wang, “Enhanced reduced-order generalised integrator with delay compensation for harmonic suppression in distribution system,”IET Power Electronics, vol. 13, no. 12, pp. 2500-2510, September 2020.
[18] L. Gong, W. Cao,K. Liuand J. Zhao*, “Optimal charging strategy for electric vehicles in residential charging station under dynamic spike pricing policy,”Sustainable Cities and Society, vol. 63, 102474, December 2020.
[19] 张森,赵剑锋,刘康礼,赵志宏.数字控制延时对电流环解耦有效性的影响,电工技术学报, 2020, 35(S2):484-493.
[20] 杨斌,赵剑锋,季振东,王建华,刘康礼.混合变压器技术研究综述,电力自动化设备, 2020, 40(02): 205-213.
[21] K. Liu*, W. Cao, J. Zhao, J. You and Q. Gu, “Optimized current control and dynamic coordination strategy for large-capacity harmonic compensation system,”IEEE 2nd Annual Southern Power Electronics Conference, Auckland, New Zealand, 2016, pp. 1-4.
[22] K. Liu*, W. Cao, J. You, Y. Huang, J. Zhao and J. Song, “Improved parallel operation for multi-modular shunt APF using dual harmonic compensation loop,”IEEE 8th International Power Electronics and Motion Control Conference, Hefei, China, 2016, pp. 126-130.
[23] C. Zhang,K. Liu, S. Zhang, B. Liu and J. Zhao, “Discrete Fréchet Distance Algorithm-Based Faulty Feeder Selection Method for Flexible Grounding System in Distribution Networks,”2021 IEEE Texas Power and Energy Conference, College Station, TX, USA, 2021
[24] P. Wang, W. Cao,K. Liuand J. Zhao, “An Unbalanced Component Detection Method and Compensation Strategy Based on Second-Order Generalized Integrator (SOGI),”2019 IEEE Power and Energy Conference at Illinois, Champaign, IL, USA, 2019
[25] S. Wang, W. Cao,K. Liu, H. Kang, J. Zhao, Z. Wang and J. Song, “Responsibility Identification for Harmonic Instability in Grid-connected Inverter-Based Power System with Multi- Point of Common Coupling,”IECON 2019-45th Annual Conference of the IEEE Industrial Electronics Society, Lisbon, Portugal, 2019, pp. 1967-1972.
代表性发明专利:
[1]刘康礼,赵剑锋,张弛,张森,刘必扬.一种基于有源逆变电压调节与小电阻的复合接地装置.专利号:ZL202011579452.1
[2] 刘康礼,潘小刚,赵剑锋.一种适用于高解离率远程等离子源的实时控制系统及方法.专利号:ZL202310140863.8
[3] 潘小刚,刘康礼,赵剑锋,金成.一种基于单电源供电的变压器耦合功率器件驱动电路.申请号:CN202310369276.6
[4] 金成,赵剑锋,刘康礼,王鹏宇,陈文哲,季振东.一种大规模电力电子系统模型描述方法.专利号:ZL202211204501.2
[5] 赵剑锋,金成,刘康礼,王鹏宇,陈文哲,季振东.一种基于环路电流法解耦的电力电子系统仿真方法.专利号:ZL202211213357.9
[6] 陈鹏,赵剑锋,刘康礼,董坤.一种面向电动载运系统的串联型直流配电装置和控制方法.申请号:CN202310992174.X
[7] 赵剑锋,王鹏宇,曹武,刘康礼.基于多机并联分序控制的电能质量综合治理装置.专利号: ZL201910511420.9
[8] 赵剑锋,侯斐然,刘康礼,赵易纬.一种微网虚拟同步机自适应无差调频控制方法,专利号:ZL201910374463.7
[9] 赵剑锋,刘康礼,曹武,尤鋆.大功率APF并机谐波补偿系统动态协调控制方法.专利号:ZL201510837613.5
[10] 赵剑锋,刘康礼,曹武,季永超,王艺钢.一种有源型谐波治理装置直流侧电压控制优化方法.专利号:ZL201510033876.0
[11] 赵剑锋,刘康礼,曹武,王艺钢,季永超.一种三相四桥臂有源电力滤波器并网接口及参数设计方法.专利号:ZL201510033740.X
[12] 赵剑锋,刘康礼,曹武,王艺钢,季永超.一种有源谐波治理装置多机并联容量最优分配方法.专利号:ZL201410473542.0
主要科研项目:
[1]国家自然科学基金青年科学基金项目,弱电网下多逆变器并机谐振失稳量化定责及抑制策略研究,2019-2021,主持
[2] 人社部全国博管办博士后国际交流计划派出项目-慕尼黑工业大学,2021-2023,主持
[3] 电网公司科技项目,基于全控型柔性装置与小电阻的高可靠复合接地系统关键技术研究,2023-2024,主持
[4] 国家自然科学基金面上项目,大规模可再生能源的柔性直流并网系统及其稳定控制研究,2019-2022,参与
[5] 江苏省前瞻性联合研究项目,大容量模块化电能质量综合治理装置并联协调控制技术研究,2015-2018,参与
[6] 中国博士后科学基金特别资助项目,2020,主持
[7] 中国博士后科学基金面上资助项目,2018,主持
[8] 江苏省智能电网技术与装备重点实验室课题,2019,主持
[9] 江苏省博士后科研资助计划,2018,主持
[10] 东南大学博士后重点科研资助—A类,2019,主持
