王瑛玮
邮箱:34439743@qq.com
教育及工作经历
2017/09-2020/06,伟德bevictor中文版,bevictor伟德,硕士
2020/09-2024/09,哈尔滨工业大学,电气工程及自动化学院,博士
2023/05-2024/05,加泰罗尼亚理工大学(西班牙),访问学者
2024/11-至今,伟德bevictor中文版,bevictor伟德,专任教师
研究领域及研究方向:(150字)
主要从事风电机组、场控制其应用研究;电力市场;电力系统惯量控制、一次调频;拟开设图像识别/基于图像识别的机器人控制等方向。
教学情况:
本科:电路,第二学期,64/48学时;等
科研项目:
[1] 引入疲劳载荷约束的风电机组一次调频新型控制策略研究,国网重大专项计划。参与
[2] 高比例新能源接入下电网调度实时风险预警与辅助决策技术研究,南方电网重大专项。参与
等
代表性论文与著作:
[1] Yingwei Wang, Yufeng Guo*, Dongrui Zhang, et al. Analysis and mitigation of the drive train fatigue load for wind turbine with inertial control [J]. International Journal of Electrical Power & Energy Systems, 2022, 136:107698. (SCI检索)
[2] Yingwei Wang, Yufeng Guo*, Dongrui Zhang. Optimal ancillary control for frequency regulation of wind turbine generator based on improved fatigue load sensitivity [J]. International Journal of Electrical Power & Energy Systems, 2022, 137:107751. (SCI检索)
[3] Yingwei Wang, Yufeng Guo*, Yuheng Chen, et al. Analysis of Frequency Regulation Capability and Fatigue Loads of Wind Turbine Based on Over-Speed Control [J]. Electronics 2023, 12, 2009. (SCI检索)
[4] Yingwei Wang, Yufeng Guo*, Weimao Xu. Impact mechanism of frequency response on wind turbine fatigue load [J]. Journal of Renewable and Sustainable Energy 15, 033304 (2023). (SCI检索)
[5] Yingwei Wang, Yufeng Guo*, Yilin Du, et al. Flexible torque control for wind turbines considering frequency response under wind speed crossing region [J]. Frontiers in Energy Research, 2023, 11:1181996. (SCI检索)
[6] Xiaodong Wang, Yingwei Wang*, Yingming Liu. Dynamic Load Frequency Control for High-Penetration Wind Power Considering Wind Turbine Fatigue Load [J]. International Journal of Electrical Power & Energy Systems, 2020, 117:105696. (SCI检索)
[7] Liu Yingming, Wang Yingwei*, Wang Xiaodong, et al. Optimal Active Power Dispatch for Wind Farm Based on the Improved Fatigue Load Sensitivity [J]. Journal of Renewable and Sustainable Energy, 2019, 11(3):033306. (SCI检索)
[8] Liu Yingming, Wang Yingwei*, Wang Xiaodong, et al. Active Power Dispatch for Supporting Grid Frequency Regulation in Wind Farms Considering Fatigue Load [J]. Energies, 2019, 12(8):1508. (SCI检索)
[9] Bixi Zhang, Yingwei Wang*, Yufeng Guo, et al. A combined wind-storage primary frequency regulation method considering low-speed shaft fatigue loads in wind turbine[J]. Electric Power Systems Research, 2024,235:110891.(SCI检索)
[10] 刘颖明,王瑛玮*,王晓东,等. 基于蚁狮算法的风电集群储能容量配置优化方法[J]. 太阳能学报,2021,42(01):431–437. (EI检索)
[11] Yingwei Wang, Yufeng Guo*, Weimao Xu. Integrated Wind-Energy Storage Primary Frequency Regulation Method Considering Wind Power Frequency Regulation Capability and Fatigue Loads [C]. 2024 IEEE 7th International Electrical and Energy Conference (CIEEC), Harbin, China. (录用)
[12] Xuechen Bai, Yingwei Wang*, Han Sun. Auxiliary Control Method for Reducing Vibration of Drive Train of Wind Turbine Caused by Primary Frequency Regulation [C]. 2022 3rd International Conference on Advanced Electrical and Energy Systems (AEES), Lanzhou, China, 2022: 171–175. (EI检索)
[13] 王智超,王瑛玮*,孙然,等。考虑风电机组传动链疲劳载荷的常态化惯量响应方法[J]。节能技术,2023,41(01):93–97。(核心期刊)
[14] 姚瑶,王瑛玮*,左峰,等。基于分频段原理的风电机组一次调控制策略[J]。节能技术,2024.(核心期刊,录用)
等
申请专利
[1] 郭钰锋,王瑛玮,王茜,等。考虑疲劳载荷的风电机组参与电网调频的辅助控制方法,ZL202011623365.1
[2] 刘颖明,王瑛玮,王树旗,等。考虑机组疲劳载荷的风电场有功功率分配方法,ZL201910836163.6
[3] 刘颖明,王晓东,王瑛玮,等。一种风电集群参与电力系统调频的有功功率分配方法,ZL201811429716.8
[4] 刘颖明,王晓东,王瑛玮,等。一种风电集群参与电力系统调频的备用容量计算方法,ZL201811424206.1
[5] 王瑛玮,郭钰锋,徐伟,等。用于额定风速附近参与调频的风电机组柔性转矩控制方法,CN202310249911.7
[6] 王智超,王瑛玮,胡开元,等。一种考虑风电机组传动链疲劳载荷的常态化惯量响应方法,CN202211517946.6
