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招收专业:电气工程、控制科学与工程
研究方向1:新型电力系统稳定性分析
研究背景:电力系统、电力电子、自动化等相关方向
团队发表相关论文:
1. R. Wang, Q. Sun*, et al., "Stability-Oriented Minimum Switching/Sampling Frequency for Cyber-Physical Systems: Grid-Connected Inverters Under Weak Grid," in IEEE Transactions on Circuits and Systems I: Regular Papers, 2022
2. Q. Sun*, B. Huang, et al, "Optimal Placement of Energy Storage Devices in Microgrids via Structure Preserving Energy Function," in IEEE Transactions on Industrial Informatics, 2016.
3. R. Wang, Q. Sun*, et al., "The Small-Signal Stability Analysis of the Droop-Controlled Converter in Electromagnetic Timescale," in IEEE Transactions on Sustainable Energy, 2019.
4. R. Wang, Q. Sun*, et al., "Line Inductance Stability Operation Domain Assessment for Weak Grids With Multiple Constant Power Loads," in IEEE Transactions on Energy Conversion, vol. 36, no. 2, pp. 1045-1055, June 2021.
5. R. Wang, Q. Sun*, et al., "Stability-Oriented Droop Coefficients Region Identification for Inverters Within Weak Grid: An Impedance-Based Approach," in IEEE Transactions on Systems, Man, and Cybernetics: Systems, 2021.
6. R. Wang, Q. Sun*, et al., "SoC-Based Droop Coefficients Stability Region Analysis of the Battery for Stand-Alone Supply Systems With Constant Power Loads," in IEEE Transactions on Power Electronics, 2021.
7. Q. Sun*, Y. Zhang, et al, "A Novel Energy Function-Based Stability Evaluation and Nonlinear Control Approach for Energy Internet," in IEEE Transactions on Smart Grid, 2017.
8. R. Wang, Q. Sun*, et al., "Line Impedance Cooperative Stability Region Identification Method for Grid-Tied Inverters Under Weak Grids," in IEEE Transactions on Smart Grid, 2020.
9. 王睿, 孙秋野*, 等. 信息能源系统的信-物融合稳定性分析. 自动化学报, 2022.
10. 王睿, 孙秋野*, 等. 含恒功率负载的弱电网线路阻抗稳定区间辨识:阻抗技术. 中国电机工程学报, 2021.
研究方向2:电动汽车的车-桩-网协同互动
研究背景:电力系统、电力电子、自动化、数学等相关方向
团队发表相关论文:
1. R. Wang, Q. Sun*, et al, "Vehicle-Vehicle Energy Interaction Converter of Electric Vehicles: A Disturbance Observer Based Sliding Mode Control Algorithm," in IEEE Transactions on Vehicular Technology, 2021.
2. R. Wang,Q. Sun*, et al., "Energy-Management Strategy of Battery Energy Storage Systems in DC Microgrids: A Distributed Dynamic Event-Triggered Consensus Control," in IEEE Transactions on Systems, Man, and Cybernetics: Systems. 2022
3. G. Liu, Q. Sun*, et al. "Antagonistic Interactions-Based Adaptive Event-Triggered Bipartite Consensus Quantized Control for Stochastic Multiagent Systems," in IEEE Systems Journal,2022
4. J. Hu, Q. Sun*, et al, "Privacy-Preserving Sliding Mode Control for Voltage Restoration of AC Microgrids Based on Output Mask Approach," in IEEE Transactions on Industrial Informatics, 2022
5. R. Wang, Q. Sun*, et al, "Steady-state Stability Assessment of AC-busbar Plug-in Electric Vehicle Charging Station with Photovoltaic," in Journal of Modern Power Systems and Clean Energy, 2020.
6. D. Qin, Q. Sun*, et al, "Adaptive bidirectional droop control for electric vehicles parking with vehicle-to-grid service in microgrid," in CSEE Journal of Power and Energy Systems, 2020.
7. R. Wang, Q. Sun*, et al., "Reduced-Order Transfer Function Model of the Droop-Controlled Inverter via Jordan Continued-Fraction Expansion," in IEEE Transactions on Energy Conversion, 2020.
8. 王睿, 胡旌伟, 孙秋野*, 等. 电动汽车车-车能量互济控制策略研究. 中国科学:技术科学 2022
9. 孙秋野*, 胡杰, 等. 中国特色能源互联网三网融合及其“自–互–群”协同管控技术框架. 中国电机工程学报, 2021
10. 孙秋野*, 王睿, 等. 能源互联网中自能源的孤岛控制研究. 中国电机工程学报, 2017
研究方向3:综合能源系统建模与运行控制
研究背景:电力系统、自动化、数学等相关方向
团队发表相关论文:
1. Y. Huang, Q. Sun*, et al, "A multi-slack bus model for bi-directional energy flow analysis of integrated power-gas systems," in CSEE Journal of Power and Energy Systems.
2. Q. Sun*, N. Zhang, et al., "The Dual Control With Consideration of Security Operation and Economic Efficiency for Energy Hub," in IEEE Transactions on Smart Grid, 2019.
3. Q. Sun*, L. Liu, et al, "The initial guess estimation newton method for power flow in distribution systems," in IEEE/CAA Journal of Automatica Sinica, 2017.
4. L. Yang, Q. Sun*, et al, "Optimal Energy Operation Strategy for We-Energy of Energy Internet Based on Hybrid Reinforcement Learning With Human-in-the-Loop," in IEEE Transactions on Systems, Man, and Cybernetics: Systems, 2022.
5. N. Zhang, Q. Sun*, et al, "Distributed Adaptive Dual Control via Consensus Algorithm in the Energy Internet," in IEEE Transactions on Industrial Informatics, 2021.
6. N. Zhang, Q. Sun*, et al, "Event-Triggered Distributed Hybrid Control Scheme for the Integrated Energy System," in IEEE Transactions on Industrial Informatics, 2022.
7. R. Wang, Q. Sun*, et al, "Reduced-Order Aggregate Model for Large-Scale Converters With Inhomogeneous Initial Conditions in DC Microgrids," in IEEE Transactions on Energy Conversion, 2021.
8. Q. Sun*, R. Han, et al, "A Multiagent-Based Consensus Algorithm for Distributed Coordinated Control of Distributed Generators in the Energy Internet," in IEEE Transactions on Smart Grid, 2015.
9. Q. Sun*, R. Fan, Y. Li, B. Huang and D. Ma, "A Distributed Double-Consensus Algorithm for Residential We-Energy," in IEEE Transactions on Industrial Informatics, 2019.
10. 孙秋野*, 滕菲, 等. 能源互联网及其关键控制问题.自动化学报, 2017
研究方向4:信息能源路由器装置研发
研究背景:电力电子、自动化等相关方向
团队发表相关论文:
1. C. Sun, Q. Sun*, et al., "Adaptive dead-time modulation scheme for a bidirectional LLC resonant converter in energy router," in CSEE Journal of Power and Energy Systems, 2022.
2. Q. Sun*, Y. Li, et al, "Model Predictive Direct Power Control of Three-port Solid-State Transformer for Hybrid AC/DC Zonal Microgrid Applications," in IEEE Transactions on Power Delivery, 2022
3. R. Wang, Q. Sun*, et al, "Exponential-function-based droop control for islanded microgrids," in Journal of Modern Power Systems and Clean Energy, 2019.
4. Q. Sun*, S. Chen, et al, "Quasi-Z-Source Network-Based Hybrid Power Supply System for Aluminum Electrolysis Industry," in IEEE Transactions on Industrial Informatics, 2017.
5. Y. Zhang, Q. Sun*, et al, "Coordinated Control of Networked AC/DC Microgrids With Adaptive Virtual Inertia and Governor-Gain for Stability Enhancement," in IEEE Transactions on Energy Conversion, 2021.
6. Q. Sun*, J. Zhou, et al, "Hybrid Three-Phase/Single-Phase Microgrid Architecture With Power Management Capabilities," in IEEE Transactions on Power Electronics, 2015.
7. 王睿, 孙秋野*, 等. 微电网的电流均衡/电压恢复自适应动态规划策略研究. 自动化学报, 2022
8. 孙秋野*, 刘月, 等. 基于GAN的非侵入式自能源建模. 中国电机工程学报, 2020
9. 冯晓萌, 孙秋野*, 等. 基于蠕虫传播和FDI的电力信息物理协同攻击策略. 自动化学报,2022
10. 孙秋野*, 于晓婷, 等. 基于天然气动态模型的电-气耦合网络稳定控制策略研究. 中国科学: 技术科学, 2019
招收专业:电气工程、能源动力、控制科学与工程、电子信息
(欢迎电气、自动化、计算机、热能。数学等多学科背景同学加入)
研究方向一:智能配电网安全经济运行
a) 就业方向:国家电网公司,设计院,电力系统相关高新企业;
b) 能力培养:电力系统特别是配电网相关知识提升,算法编程能力,论文及专利撰写,电气企业日常科研工作流程,便于相关
同学更快速的适应未来工作环境。
c) 课题来源:国家电网公司相关课题。
研究方向二:新能源并网控制与消纳
a) 就业方向:国家电网公司,设计院,新能源相关高新企业;
b) 能力培养:电力系统特别是配电网相关知识提升,算法编程能力,论文及专利撰写,电气企业日常科研工作流程,便于相关
同学更快速的适应未来工作环境。
c) 课题来源:国家电网公司相关课题。
研究方向三:综合能源系统与智慧能源
a) 就业方向:国家电网公司,设计院,电力系统相关高新企业;
b) 能力培养:综合能源系统相关知识提升,算法编程能力,论文及专利撰写,能源企业日常科研工作流程,便于相关同学更快
速的适应未来工作环境。
c) 课题来源:国家电网公司相关课题,电气企业委托课题。
研究方向四:能源路由器系列装置研发
a) 就业方向:电力电子相关高新企业,电气装备研发机构,国家电网公司;
b) 能力培养:电力电子及控制相关知识提升,硬件设计能力、下位机编程能力,论文及专利撰写。
c) 课题来源:国家电网公司相关课题、军科委课题,电气企业委托课题。
研究方向五:分布式信息能源系统终端装置及系统
a) 就业方向:电力系统、电力电子相关高新企业,国家电网公司,科研机构;
b) 能力培养:电力系统、电力电子、智能控制相关知识提升,硬件设计能力、下位机编程能力,智能算法设计能力,论文及专
利撰写。
c) 课题来源:国家科技部变革性课题,电气企业委托课题。
研究方向六:分布式信息能源系统半实物仿真平台
a) 就业方向:电力系统、电力电子相关高新企业,国家电网公司,科研机构;
b) 能力培养:电力系统、电力电子、智能控制相关知识提升,智能算法设计能力,硬件设计能力、下位机编程能力,智能算法
设计能力。
c) 课题来源:国家科技部变革性课题,电气企业委托课题。
以上博士的研究方向
适合未来向继续深造的同学。
团队每年都会组织大家进行团建,曾去过大青沟爬山,红河谷漂流,浑河划船,白清寨滑雪等远距离旅游团建。近些年由于疫情原因,不方便出游,便改为了年会、轰趴、桌游、密室、狼人杀等室内团建活动。
在团建中,增进大家感情,劳逸结合,加强团队凝聚力,为科研项目合作提供基石,从而使团队更好的发挥团队优势,使团队不仅有积极向上的学术氛围、还有轻松愉快的合作氛围。