科研实验室
为满足学科发展、团队建设和科研水平提升的迫切需求,电气工程学院整合原动模实验室、教育部重点实验室、电动汽车电网接入国家地方联合工程实验室,涵盖五个二级学科,打造电力系统+电力装备的1+N模式新型实验室。
电力系统1:一个整体系统,打造适应未来20年研究的新能源为主体新型电力系统实验室。包括电力楼一层:动模(传统交流电源和交流系统)、直流输电;电力楼二层:仿真计算、经济运行、电网分析、保护控制、传感测量;五号楼一层:新能源、直流配用电。
新型电力系统实验室可以模拟传统交流电网、交直流混联电网(包括LCC直流和MMC直流)、新型配电网、直流配用电、新能源并网、新能源柔直外送、新能源不同占比、全逆变电网等多种场景和形式,各实验室在功能上相对独立,电气上互相连通,数据共享,既可以单独运行,也可以作为一个整体共同运行。
电力装备N:五号楼一层:电机、柔性装备、高压;六号楼一层:电动汽车、电力电子;六号楼四层:医工交叉、磁悬浮。
Scientific Research Laboratory
In order to meet the urgent needs of discipline development, team building and improvement of scientific research level, the School of Electrical Engineering integrated the original Dynamic Model Laboratory, the Key Laboratory of the Ministry of Education, and the National and Local Joint Engineering Laboratory of Electric Vehicle Grid Access, covering five secondary disciplines, to build a new 1+N model laboratory composed of 1 power system + N power equipment.
1 Power system: a whole system, a new type power system laboratory with new energy as the main body to adapt to the research in the next 20 years. Including the first floor of the power building: dynamic model (traditional AC power supply and AC system), DC transmission, the second floor of the power building: simulation calculation, economic operation, power grid analysis, protection and control, sensor measurement, and the first floor of the teaching building 5: new energy and DC distribution.
The new type power system laboratory can simulate a variety of scenarios and forms such as traditional AC power grid, AC / DC hybrid power grid (including LCC DC and MMC DC), new power distribution network, DC power distribution, gird integration of new energy, flexible direct transmission of new energy, different proportion of new energy, full inverter power grid, etc. These laboratories are relatively independent in function, electrically connected and data shared, and also can work together as a whole.
N electrical equipment: the first floor of the Teaching building 5: motor, flexible equipment, high voltage, the first floor of the Teaching building 6: electric vehicles, power electronics, and the fourth floor of the Teaching building 6: Medical Engineering intersection, magnetic levitation.
Academic team
In order to further refine the direction of scientific research, highlight the characteristics and form continuous research, the School of Electrical Engineering has promoted the reform of academic team in 2019,and 11 academic teams were set up at that time. 12 academic teams were formed in 2021 after partial adjustment.
Up to the 30th April in 2021, the academic teams had 87 members , accounting for 59.59% of the total number of the School of Electrical Engineering, and had 79 full-time teachers, accounting for 71.82%, and 8 experimental technicians. The establishment of the academic teams has effectively stimulated the vitality of academic innovation and promoted the effective integration of scientific research forces. The actual research funding of the School of Electrical Engineering has increased by more than 50%. The number of projects approved by NSFC has entered the top ten in China, and the achievement transformation continuously increases.
The team's characteristics are increasingly obvious, and the research level continues to be improved, and four aspects continued to be strengthened, facing the world's cutting-edge science and technology, leading the development of DC international standards. Facing the major national needs, and the achievements of academic teams support the demonstration application of the new generation dispatching system of the State Grid. Facing the main economic battlefield, the teams helped new energy vehicle enterprises to upgrade their technology. Facing people's life and health, the teams devote their selves to concentrate on research and development.
团队名称 |
团队成员 |
主要研究方向 |
复杂电网安全防控与智能恢复 Security prevention and intelligent restoration of complex power grid |
刘玉田(PI)、张文、王洪涛、叶华、李常刚、褚晓东、陈健、张慧 Yutian Liu(PI), Wen Zhang, Hongtao Wang, Hua Ye, Changgang Li, Xiaodong Chu, Jian Chen, Hui Zhang |
复杂电网的稳定分析与安全防控,复杂电网安全稳定智能评估与防控,电力系统智能恢复与自愈。 Stability analysis and security prevention and control of complex power grid, intelligent evaluation and prevention of security and stability of complex power grid, intelligent recovery and self-healing of power system. |
电力系统经济运行 Economic operation of power system |
杨明(PI)、梁军、韩学山、吕天光、李正烁、张利、苏亚、王成福、王勇、王孟夏、王明强、董晓明、刘宁宁 Ming Yang(PI), Jun Liang, Xueshan Han, Tianguang Lv, Zhengshuo Li, Li Zhang, Ya Su, Chengfu Wang, Yong Wang, Mengxia Wang, Mingqiang Wang, Xiaoming Dong, Ningning Liu |
电力气象为导引的电力系统态势感知、预测与风险预警理论与方法,随机电力能源系统建模与分析的理论与方法,不确定条件下市场多主体博弈理论与方法,及相应平台建设与应用开发。 The theory and method of power system situation awareness, prediction and risk early warning guided by power weather, the theory and method of stochastic power energy system modeling and analysis, the theory and method of multi-agent game in market under uncertain conditions, and the corresponding platform construction and application development. |
Protection and control of new form power grid |
高厚磊(PI)、陈青、邹贵彬、丛伟、高湛军、魏秀燕、吕静 HouLei Gao (PI), Qing Chen, Guibin Zou, Wei Cong, Zhanjun Gao, Xiuyan Wei, Jing Lv |
有源配电网保护与分布式故障自愈技术,城市配电网 5G 通信电流差动保护实用化技术,柔性电网直流侧故障快速处理方法与关键技术。 Protection and distributed fault self-healing technology of active distribution network, practical technology of 5G communication current differential protection of urban distribution network, fast processing method and key technology of DC side fault of flexible power grid. |
低惯量电力系统控制 Low inertia power system control |
丁磊(PI)、Vladimir Terzija、张峰、朱国防、王志军、蔡德宇、金朝阳、Mostafa Kheshti、邢鲁华 Lei Ding (PI), Vladimir Terzija, Feng Zhang, Guofang Zhu, Zhijun Wang, Deyu Cai, Chaoyang Jin, Mostafa kheshti, Luhua Xing |
低惯量电力系统有功控制基础理论和控制框架,电网友好型和电网支撑型逆变器控制技术,100%逆变电网的运行、保护与控制。 Basic theory and control framework of active power control in low inertia power system, control technology of grid friendly and grid supported inverter, operation, protection and control of 100% inverter grid. |
新能源中低压直流配用电系统 Medium and low voltage DC power distribution system of New energy |
马钊(PI)、李可军,赵浩然,娄杰,孙媛媛 Zhao Ma (PI), Kejun Li, Haoran Zhao, Jie Lou, Yuanyuan Sun |
直流供用电系统规划与设计、电压等级、拓扑结构、运行控制、关键设备、安全性与经济性、新能源侧分析、电能质量。 Planning and design, voltage level, topology, operation control, key equipment, safety and economy, new energy side analysis, and power quality of DC power supply system. |
智慧能源与海工驱动 Smart energy and marine engineering drive |
张祯滨(PI)、刘世明、李真、董政 Zhenbin Zhang (PI), Shiming Liu, Zhen Li, Zheng Dong |
发展新能源电力变换理论体系,形成器件-设备-系统三位一体的技术体系,开发电力变换装置及系统集成应用软件。 Develop the theoretical system of new energy power conversion, form the Trinity technology system of device-equipment-system, develop power conversion device and system integration application software. |
特高压输变电技术与装备 UHV transmission and transformation technology and equipment |
李清泉(PI)、张黎、王冠、刘洪顺、何东欣 Qingquan Li (PI), Li Zhang, Guan Wang, Hongshun Liu, Dongxin He |
高压电力设备绝缘劣化机理和状态评估研究,特高压直流输电线路污秽外绝缘特性研究,海上风机雷击电弧冲击损伤机制与高频次生电磁效应研究,面向单相自动重合闸的混合无功补偿对潜供电弧特性影响研究,特高压电缆绝缘故障诊断与老化评估技术,功率半导体器件封装绝缘关键技术研究。 Research on insulation deterioration mechanism and condition evaluation of high voltage power equipment, research on pollution external insulation characteristics of UHVDC transmission lines, research on lightning arc impact damage mechanism and high frequency secondary electromagnetic effect of offshore wind turbine, research on influence of hybrid reactive power compensation for single-phase automatic reclosing on sub supply arc characteristics, insulation fault diagnosis and aging evaluation technology of UHV cable, research on key technology of power semiconductor device packaging insulation. |
高效能永磁电机及控制系统 High efficiency permanent magnet motor and its control system |
王秀和(PI)、王道涵、赵文良、朱常青、杨玉波、王兴华、张岳、李国建 Xiuhe Wang (PI), Daohan Wang, WenlianZhao g, Changqing Zhu, Yubo Yang, Xinghua Wang, Yue Zhang, Guojian Li |
永磁电机齿槽转矩分析与削弱理论研究,永磁体的退磁机理和规律研究,永磁电机振动噪声分析抑制,新型电机拓扑结构的研究开发。 Research on cogging torque analysis and weakening theory of permanent magnet motor, demagnetization mechanism and law of permanent magnet, vibration and noise suppression of permanent magnet motor, research and development of new motor topology. |
放电等离子体及其生物学应用 Discharge plasma and its biological application |
张远涛(PI)、谭振宇、赵彤、邹亮、王晓龙、王晶、孙滢、刘晨蕾 Yuantao Zhang (PI), Zhenyu Tan, Tong Zhao, Liang Zou, Xiaolong Wang, Jing Wang, Ying Sun, Chenlei Liu |
现代气体放电理论的数值模拟计算研究,大气压低温等离子体与生物组织间相互作用研究,气液两相/水下放电的等离子体特性研究 Research on the numerical simulation of modern gas discharge theory, research on the interaction between atmospheric pressure low temperature plasma and biological tissue, and the plasma characteristics of gas-liquid two-phase / underwater discharge. |
智能柔性电力装置与控制 Intelligent flexible power device and control |
武守远(PI)、张恒旭、石访、施啸寒、刘春阳、王玉斌、王辉、梁振光、杜宗展、贠志皓、贾春娟、朱珂、柴亚南 Shouyuan Wu (PI), Hengxu Zhang, Fang Shi, Xiaohan Shi, Chunyang Liu, Yubin Wang, Hui Wang, ZhenguangLiang, zongzhan Du, Fu Zhihao, Jia Chunjuan, Zhu Ke, Chai Yanan |
电网宽频带同步测量领域,配电网故障诊断技术领域,电力电子装备及其与电网柔性控制领域,电力电子化电力系统稳定评估与柔性控制领域, Broadband synchronous measurement of power grid, fault diagnosis technology of distribution network, power electronic equipment and its flexible control with power grid, stability assessment and flexible control of power electronic power system. |
先进电驱动、电能储存及无线传输 Advanced electric drive, electric energy storage and wireless transmission |
徐衍亮(PI)、刘志珍、宫金林、李红伟、赵振卫 Yanliang Xu (PI), Zhizhen Liu, Jinlin Gong, Hongwei Li, Zhenwei Zhao |
先进电驱动技术研究,无线充电技术研究,高速驱动技术研究。 Research on Advanced electric drive technology, wireless charging technology, and high speed drive technology. |
新能源汽车电力系统 New energy vehicle power system |
王长江(PI)、于大洋、于文涛、范成贤 Changjiang Wang (PI), Dayang Yu, Wentao Yu, Chengxian Fan |
上班后联系王长江老师提供。 |