朱瑛
近期热点
资料介绍
个人简历
学习经历2004/9 - 2008/6,东南大学,电气工程及其自动化,学士2008/9 - 2014/5,东南大学,电气工程,博士(硕博连读)工作经历2019/6 - 至今,河海大学,能源与电气学院,副教授2014/6 – 2019/6,河海大学,能源与电气学院,讲师研究领域
从事风力发电及其并网控制技术、风电场优化布局及新型永磁电机控制技术等研究近期论文
[1]Ying Zhu,Ming Cheng, Wei Hua, Wei Wang. A Novel Maximum Power Point Tracking Control for Permanent Magnet Direct Drive Wind Energy Conversion Systems. Energies, 2012, 5(5):1398-1412.(SCI收录)[2] Ying Zhu, Ming Cheng, Wei Hua, Bangfu Zhang, “Sensorless Control Strategy of Electrical Variable Transmission Machines for Wind Energy Conversion Systems.” IEEE Transactions on Magnetics, 2013, 49(7): 3383-3386.(SCI收录)[3] Ying Zhu, Ming Cheng, Haixiang Zang, “Sensorless Control for the EVT-based new dual power flow Wind Energy Conversion Systems.” Energies, 2017, 10(888):1-16.(SCI收录)[4] Ying Zhu, Haixiang Zang, Qiang Fu, “Grid-connected Control Strategies for a Dual Power Flow Wind Energy Conversion System.” Electric Power Components and Systems, 2017, 45(18):2078-2091. (SCI收录)[5] Ying Zhu, Yuping Li, Jianbin Sang, Minglei Bao, Haixiang Zang, “Analysis and improvement of adaptive coefficient third harmonic voltage differential stator grounding protection.” Energies, 2018, 11(6):1430.(SCI收录)[6] Zhu Y, Zang H, Cheng L, Gao S. Output Power Smoothing Control for a Wind Farm Based on the Allocation of Wind Turbines. Applied Sciences. 2018; 8(6):980.[7] Ming Cheng, Ying Zhu. The state of the art of wind energy conversion systems and technologies: A review. Energy Conversion and Management 2014, 88: 332-347.(SCI收录,高被引论文)[8]朱瑛,高云波,臧海祥,等.风电机组输出功率平滑技术综述[J].电力系统自动化,2018,42(18):182-191.[9]朱瑛,桑建斌. 三角形接法的异步电机模拟风力机控制[J]. 电机与控制学报, 22(12):99-106.[10]朱瑛, 程明, 花为, 张邦富, 王伟. 考虑损耗转矩的风力发电系统最大风能跟踪控制. 中国电机工程学报, 2013, 33(19): 39-46. (EI收录)[11]朱瑛, 程明, 花为, 张邦富, 王伟. 基于滑模变结构模型参考自适应的电气无级变速器无传感器控制. 电工技术学报, 2015, 30(2): 64-72. (EI收录)[12]朱瑛, 程明, 花为, 王伟. 新型双功率流风力发电系统控制策略. 电力系统自动化, 2013, 37(10): 48-53转71. (EI收录)[13]朱瑛, 程明, 花为, 王伟. 基于2种变速变桨距方法的双功率流风力发电系统功率控制. 电力自动化设备, 2013, 33(9): 123-129. (EI收录)[14]朱瑛, 程明, 花为, 贾红云. 磁通切换永磁电机的空间矢量脉宽调制控制. 电机与控制学报, 2010, 14(3): 45-50. (EI收录)[15]朱瑛, 程明, 花为. 电流控制策略及凸极系数对IPM电机的影响. 微电机, 2010, 43(9): 1-5.[16] Ying Zhu, Ming Cheng, Xikai Sun, Wei Hua, Wei Wang. Comparison of new dual power flow and conventional wind power generation systems. International Conference on Electrical Machines and Systems (ICEMS), Incheon, Korea, Oct. 2010, 470-474. (EI收录)[17] Ying Zhu, Ming Cheng, Wei Hua, Wei Wang. Dual-mode power control strategy for a new dual power flow wind power generation system. International Conference on Electrical Machines and Systems (ICEMS), Beijing, China, Aug. 2011, 1-6. (EI收录)[18] Ying Zhu, Ming Cheng, Wei Hua. Sensorless Maximum Power Point Tracking in Dual Power Flow Wind Energy Conversion System. International Symposium on Power Electronics for Distributed Generation Systems (PEDG), Aalborg, Denmark, Jun. 2012, 58-63. (EI收录)[19] Ying Zhu, Ming Cheng, Qingsong Wang. SM-MRAS sensorless MPPT control for Dual Power Flow Wind Energy Conversion System. International Conference on Renewable Energy Research and Applications (ICRERA), Palermo, Italy, Nov. 2015, 296-304.[20] Ying Zhu, Rui Zhao, Jingtao Zhao. Output power smoothing control for the PMSG based wind farm by using allocation of the wind turbines. International Conference on Electrical Machines and Systems (ICEMS), Sydney, Australia, Apr. 2017.[21] Ying Zhu, Jun Hang, Haixiang Zang, Jingtao Zhao. Sensorless HCS MPPT control strategy for the DPF-WECS. IEEE Energy Conversion Congress and Exposition (ECCE), Cincinnati, USA, Oct. 2017.[22] Ying Zhu, Yunbo Gao. Power smoothing control for the PMSG WECS based on the kinetic energy. IEEE Conference on Industrial Electronics and Applications, ICIEA 2018, Wuhan, China, Jun. 2018, 1068-1072.[23] Ying Zhu,Chao Cai. Current Source Converter based Control Strategies for the DPF-WECS. International Conference on Electrical Machines and Systems (ICEMS), Jeju, South Korea, Oct. 2018. 相关热点
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