清华大学电机系教授、，，IEEE Fellow，IET Fellow,青海大学新能源光伏产业研究中心 主任（兼职）
电力系统鲁棒控制、复杂电力网络理论、电力系统灾变防治和新能源电力系统
meishengwei@tsinghua.edu.cn
北京市海淀区清华大学电机系
1996年7月于中国科学院系统科学研究所博士毕业，1998年清华大学电机系博士后出站，后留校任教。1999年被聘为清华大学副教授，2003年被聘为清华大学电机系教授，2005年获国家科学基金，2009年获聘，2011年当选IET Fellow，2013年被评为基金委创新群体学术带头人，2014年当选IEEE Fellow。2001-2002年期间作为访问教授先后赴国立新加坡大学、日本上智大学、日立公司、英国Brunel大学开展访问与合作研究。目前主要从事电力系统鲁棒控制、复杂电力网络理论、电力系统灾变防治和新能源电力系统等研究。建立了电力系统非线性鲁棒控制理论和自组织临界理论，提出了电力系统暂态分析半张量积方法和基于博弈论的新能源电力系统调度控制方法，解决了电力系统非线性鲁棒控制器构造和连锁故障机理辨识两大科学问题。研发了发电机组非线性鲁棒励磁控制器、非线性有源滤波器和无燃烧压缩空气储能系统，突破了发电机组抗干扰励磁控制、配电网电能质量治理和高效物理储能三大技术瓶颈，成果应用于我国多个电力系统和国防工程。1、工作经历：2014.02-至今?????? ???? 兼任青海大学新能源光伏产业研究中心，主任2003.12至今???? ??????? 清华大学电机系电力系统研究所，教授2002.01-2002.03? ?? 国立新加坡大学 访问教授2001.08-2001.11???? 日本上智大学 访问教授2001.01-2001.05???? 英国Brunel大学，访问教授1999.04-2003.12???? 清华大学电机系，副教授1996.09-1998.09???? 清华大学电机系，博士后1990.01-1993.07???? 新疆大学数学系，讲 师1984.08-1987.08???? 新疆大学数学系，助 教2、学习经历：1993.09-1996.07???? 中国科学院系统科学研究所? 博士1987.09-1989.12???? 清华大学应用数学系? 硕士1980.09-1984.07???? 新疆大学数学系 学士1、科研成果获奖2011年获全军科技进步一等奖2008年获国家自然科学二等奖2008年获国家电网公司科技进步一等奖2004年获教育部自然科学一等奖2. 教学成果获奖2004年获北京市优秀教学成果二等奖2004年获清华大学优秀教材一等奖2003年获清华大学“教书育人奖”2000年获清华大学电机系“优秀教师奖”3. 其他荣誉：2014年被评为IEEE Fellow2013年被评为国家基金委创新群体带头人2012年获国务院特殊津贴2011年被评为IET Fellow2010年被评为教育部创新群体带头人2010年被评为清华优秀共产党员2009年受聘为奖励计划2007年获清华大学第11届“良师益友”2005年获国家自然科学基金委基金项目资助2004年获清华大学第7届“良师益友”2003年获清华大学第6届“良师益友”2003年获清华大学 “教书育人”奖
1、本科生课程：电气工程导论，2课时2、研究生课程： 电力系统复杂性与大电网安全，32课时 现代控制理论，32课时 工程博弈论，32课时
1、纵向项目2014.01-2016.12，国家自然科学基金委创新群体项目“聚纳大型风光发电的电力系统智能调度与控制的基础研究”（**）2012.01-2014.12，科技部/国家高技术研究发展计划（863计划）重大项目“大电网运行状态感知、风险评估、故障诊断与调度技术”（2011AA05A118）2012.01-2014.12，科技部/国家高技术研究发展计划（863计划）重大项目“含风光储的分布式发电的控制策略与安全稳定技术研究”（2012AA050204）2012.01-2016.12，科技部/国家高技术研究发展计划（973计划）重大项目“远距离大规模风电的有功/无功功率控制与电力系统频率及电压稳定”（2012CB215103）2010.01-2011.12，国家自然科学基金委面上项目“输电网－配电网－微电网三级电网宏观形态设计与拓扑结构分析的基础研究”（**）2009.01-2011.12，国家自然科学基金委海外青年项目“大电网安全优化决策支持平台”（**）2008.01-2011.12，科技部国际合作项目，电力系统巡线除冰机器人2008.01-2010.12，博士学科点专项科研基金“互联电网优化调度分解协调计算方法研究”（）2007.01-2009.12，国防973子题-专项2和专项52006.10-2008.09，科技部/国家高技术研究发展计划（973计划）重大项目“大电网安全性评估”的系统复杂性理论研究”（2004CB217902）2006.01-2008.12，国家自然科学基金委项目“电力系统暂态分析”（**）2006.01-2008.12，国家自然科学基金委重大项目“影响超大规模电力系统安全性的动态行为与特征”（**）2004.01-2006.12，国家自然科学基金委面上项目“混成自动电压控制理论的基础研究”（**）2、横向项目2014.10-2016.06，国网浙江省电力公司，高比例清洁能源下未来电网形态、演化机理研究2014.12-2015.06，中国电力科学研究院，聚纳风光发电的电力系统智能调度与控制基础理论与关键技术（二期）2014.10-2016.06，国网浙江省电力公司，高比例清洁能源下未来电网形态、演化机理研究 2014.09-2016.12，新疆大学，“新疆电网‘友好型’大规模风光互补发电并网的有功调控关键技术”2014.08-2014.12，中国石油天然气股份有限公司管道分公司管道科技研究中心，“大型天然气管网系统可靠性研究框架设计”2014.07-2015.07，陕西省地方电力（集团）有限公司，直流配电网技术研究2014.07-2015.12，广东电网公司电力调度控制中心，极端气象条件下电网调度应急决策支持系统研发2014.01-2015.12，国网上海市电力公司，电网规划社会安全、低碳化综合评估方法及实现技术研究2014.01-2014.10，中国船舶重工集团公司第704研究所，“船舶中压电力系统XXX”2013.12-2014.06，陕西省地方电力（集团）有限公司，基于广电网络与多种通信方式组合的配电网通信系统研究与试点应用（一期：智能配网集成通信系统）2013.12.1-31，国网四川省电力公司电力科学研究院，弱联系系统自励磁过电压机理分析及抑制措施研究2013.12-2014.06，陕西省地方电力（集团）有限公司，分布式电源接入电网技术研究2013.10-2013.12，国网北京市电力公司，含有分布式电源发电的电网优化调度方法研究2013.06-2014.05，中国电力科学研究院，聚纳风光发电的电力系统智能调度与控制基础理论与关键技术2013.01-2013.12，国家电网公司，“电网发展诊断分析方法及标准研究”2012.10-2015.04，江苏省电力公司，压缩空气储能发电关键技术及工程实用方案研究2012. 08~2013.12，河南省电力公司电力科学研究院，南阳特高压主变投运后区域电网连锁故障特性分析及故障阻断技术研究2012.01-2015.12，国家电网公司，“大电网优化协调控制技术研究”2011.10-2015.11，海南电网公司，海南电网无功电压自动控制系统研发与建设2011.06-2012.12，广东省电力调度中心，节能发电调度环境下的广东电网紧急调度相关理论研究专题一——经济调度理论研究2011.03-2012.8，陕西省地方电力（集团）有限公司，陕西定边风电场并网运行特性分析及仿真平台研发2010.06-2013.06，陕西省地方电力（集团）有限公司，联合机构“智能配电网技术联合研究中心”2009.10-2010.06，东北电网有限公司，东北电网无功电压多层多区协调控制系统开发2009.01-2010. 12，北京市电力公司，以先进状态估计为内核的在线数据共享技术研发2009.01-2011.12，浙江省电力公司，未来电网形态和概念设计2008.12-2009.12，东北电网有限公司，“非线性鲁棒电力系统稳定器（NR-PSS）模块开发”3、国际合作项目2015.03-2016.09，The Boeing Company，“A two-step Method for Recycling Composite Carbon Fiber Material using Solar-thermal Energy”2007.07-2009.06，Microsoft，电网安全在线早期预警系统的设计2004.10-2006.09，ABB（China）Limited? ，AGREEMENT ON RESEARCH PROJECT SPONSORSHIP
1、主要专著1）Shengwei Mei, Xuemin Zhang and Ming Cao, Power Grid Complexity, Springer-Tsinghua Press, 2011. 2）梅生伟、刘锋、薛安成；《电力系统暂态分析中的半张量积方法》,清华大学出版社， 2010年。3）梅生伟、申铁龙、刘康志，《现代鲁棒控制理论及应用》（第2版），清华大学出版社，2009年。4）卢强、梅生伟、孙元章，《电力系统非线性控制》（第2版），清华大学出版社，2008年。5）梅生伟、薛安成、张雪敏，《电力系统自组织临界特性与大电网安全》，清华大学出版社，2008年。6）梅生伟、申铁龙、刘康志，《现代鲁棒控制理论及应用》，清华大学出版社，2003年。7）Qiang Lu and Yuanzhang Sun and Shengwei Mei, Nonlinear Control Systems and Power System Dynamics, Kluwer Academic Publishers, USA, 2001.2、主要国际期刊论文1）Wei Wei; Feng Liu; Shengwei Mei; Yunhe Hou, “Robust Energy and Reserve Dispatch Under Variable Renewable Generation,“ Smart Grid, IEEE Transactions on , vol.6, no.1, pp.369,380, Jan. 2015.2）Junjian Qi, Kai Sun and Shengwei Mei, An Interaction Model for Simulation and Mitigation of Cascading Failures，IEEE TRANSACTIONS on Power Systems, vol. 30, no. 2, March 2015.3）Wei, W; Liu, F; Mei, SW; Lu, E, Two-level unit commitment and reserve level adjustment considering large-scale wind power integration, INTERNATIONAL TRANSACTIONS ON ELECTRICAL ENERGY SYSTEMS, vol.24 （12）: pp. 1726-1746, 2014.4）Mei, SW; Zhang, D; Wang, YY; Liu, F; Wei, W, Robust Optimization of Static Reserve Planning With Large-Scale Integration of Wind Power: A Game Theoretic Approach, IEEE TRANSACTIONS ON SUSTAINABLE ENERGY, vol. 5 （2）: pp. 535-545, 2014.5）Wei, W.; LIU, F.; Mei, S., Dispatchable Region of the Variable Wind Generation, Power Systems, IEEE Transactions on , vol PP, no.99,? pp. 1 - 11, 2014.6）Wei, W.; LIU, F.; Mei, S., Offering Non-Dominated Strategies Under Uncertain Market Prices, Power Systems, IEEE Transactions on , vol.PP, no.99, pp.1,1, 2014.7）Wei, W.; LIU, F.; Mei, S., Nash Bargain and Complementarity Approach Based Environmental/Economic Dispatch, Power Systems, IEEE Transactions on , vol.PP, no.99, pp.1,2, 2014.8）Wei, W.; LIU, F.; Mei, S., Energy Pricing and Dispatch for Smart Grid Retailers Under Demand Response and Market Price Uncertainty, Smart Grid, IEEE Transactions on , vol.PP, no.99, pp.1,1, 2014.9）Qi, Junjian; Mei, Shengwei; Liu, Feng, Blackout Model Considering Slow Process, IEEE TRANSACTIONS ON POWER SYSTEMS, vol.28 （3）: pp. 3274-3282, 2013.10）Chen Yanbo, Liu Feng, Mei Shengwei, He Guangyu, Lu Qiang, Fu Yanlan. An improved recursive Bayesian approach for transformer tap position estimation. IEEE Transactions on Power Systems, vol.28 （3）: pp.2830 - 2841, 2013.11）Mei Shengwei, Wang Yingying, Liu Feng, Zhang Xuemin. Game Approaches for Hybrid Power System Planning. IEEE Transactions on Sustainable Energy, vol.3 （3）: pp.506 – 517, 2012.12）Shengwei Mei，Shengyu Wu，Xuemin Zhang，Gang Wang，Deming Xia. Power system blackout model with transient constraints and its criticality. European Transactions on Electrical Power, vol. 21（1）: pp. 59-69, 2011.13）Mei, S.; Wei, W.; Zheng, S.;Liu F. Development of an industrial non-linear robust power system stabiliser and its improved frequency-domain testing method, IET GENERATION TRANSMISSION & DISTRIBUTION,? vol. 5 （12）: pp 1201-1210, 2011.14）Dong, Yali, Mei, Shengwei, Global Asymptotic Stabilisation of Non-linear Systems. International Journal of Control, Vol 82（2）: pp 279-286, 2009.15）Sun, Yimin; Mei, Shengwei; Lu, Qiang, On global controllability of planar affine nonlinear systems with a singularity, SYSTEMS & CONTROL LETTERS, Vol 58 （2）: pp 124-127, 2009.16）Mei, Shengwei, He, Fei, Zhang, Xuemin, Wu, Shengyu, Wang, Gang. An Improved OPA Model and Blackout Risk Assessment. IEEE Transactions on Power Systems, Vol 24（2）: pp 814-823, 2009.17）Mei, Shengwei, Xie, Bangpeng, Che, Wenyan, Wang, Zhitao. Hybrid Automatic Voltage Control Strategy and Its Application to Northeast China 500 kV Power Grid. European Transactions on Electrical Power, Vol 19（3）: pp 355-367, 2009.18）ShengWei, Mei; AnCheng, Xue; XueMin, Zhang, On power system blackout modeling and analysis based on self-organized criticality, SCIENCE IN CHINA SERIES E-TECHNOLOGICAL SCIENCES, Vol 51: （2） : 209-219, 2008.19）Mei, Shengwei; Ni, Yixin; Wang, Gang; et al, A Study of Self-Organized Criticality of Power System Under Cascading Failures Based on AC-OPF With Voltage Stability Margin, IEEE TRANSACTIONS ON POWER SYSTEMS, Vol? 23 （4）: pp 1719-1726, 2008.20）Feng Liu, Mei Shengwei, Qiang Lu, et al., Recursive Design of Nonlinear Disturbance Attenuation Control for STATCOM, International Journal of Control, Automation and Systems, Vo. 3, No. 2, pp262-269, June 2005.21）Mei, S.; Shen, T.; Hu, W.; Lu, Q.; Sun, L.; Robust H∞ control of a Hamiltonian system with uncertainty and its application to a multi-machine power system， Control Theory and Applications, IEE Proceedings-Volume 152,? Issue 2, pp 202-210, 2005.22）Shengwei Mei, Feng Liu, Ying Chen, Qiang Lu ， Co-ordinated H-infinity control of excitation and governor of hydroturbo-generator sets: a Hamiltonian approach，International Journal of Robust and Nonlinear Control, v 14 , n 9-10, p 807-832, 2004.23）Feng Liu, Shengwei Mei, Deming Xia, et al, Experimental Evaluation of Nonlinear Robust Control for SMES to Improve the Transient Stability of Power Systems, IEEE Transaction on Energy Conversion, Vol., 19, No. 4, p774-782, 2004.24）Shen, Tielong; Mei, Shengwei; Lu, Qiang; Hu, Wei; Tamura, Katsutoshi， Adaptive nonlinear excitation control with L2 disturbance attenuation for power systems，Automatica, Vol 39: （1）, p 81-89, 2003.25）Mei, Shengwei; Guan, Tianqi; Lu, Qiang; Song, Yong Hua; Goto, Masuo, Nonlinear disturbance attenuation control of static phase shifter in sense of L2-gain, European Transactions on Electrical Power, v 13, n 2, p 113-118, 2003.26）Liu, Feng; Mei, Shengwei; Lu, Qiang; Ni, Yixin; Wu, Felix F.; Yokoyama, Akihiko,The nonlinear internal control of STATCOM , International Journal of Electrical Power and Energy System, v 25, n 6, p 421-430, 2003.27）Qiang Lu, Shengwei Mei, Wei Hu, Felix F. Wu, Yixin Ni, Tielong Shen. Nonlinear Decentralized Disturbance Attenuation Excitation Control via New Recursive Design for Multi-machine Power Systems. IEEE Trans. Power System, Vol 16: （4）, pp729-736, 2001.28）Shengwei Mei, Juming Chen, Qiang Lu, Y. H. Song, Masuo Goto, Akihiko Yokoyama, Nonlinear Multi-target H-infinity Controller for Thyristor-controlled series compensation. IEE Proceedings-Generation Transmission and Distribution, Vol 148 :（ 6）, pp. 557-561, 2001.29）Lu Q, Mei S, Hu W, Song YH, Goto M, Konishi H. Decentralised nonlinear H-infinity excitation control based on regulation linearisation. IEE Proc. -Gener. Transm. and Distrib. 147: （4）, pp.245-251, 2000.3、主要国际会议论文选1）Wentao Guo, Feng Liu, Shengwei Mei, Jennie Si, Dawei He, and Ronald Harley. Approximate Dynamic Programming Based Supplementary Frequency Control of Thermal Generators in Power Systems With Large-Scale Renewable Generation Integration. IEEE PES General Meeting. June 27-31, 2014, National Harbor, Maryland. pp. 1-5.2）Wei Wei, Mei Shengwei, Liu Feng. Unit commitment with variable wind generation: A game theoretical approach. 3rd Great Lakes Symposium, Chicago, USA, 2013.3）Junjian Qi and Shengwei Mei, “Blackout model considering slow process and SOC analysis,” IEEE Power Engineering Society General Meeting, San Diego, July. 2012.4）Junjian Qi, Guangyu He, Shengwei Mei, and Feng Liu, “Power system set membership state estimation,” IEEE Power Engineering Society General Meeting, San Diego, July. 2012.5）Shengwei Mei, Yingying Wang, Zhenquan Sun. Robust economic dispatch considering renewable generation. The first IEEE PES Innovative Smart Grid Technologies Asia Conference, Perth, Australia, Nov. 2011.6）Shengwei Mei, Yingying Wang, Zhenquan Sun. Robust economic dispatch considering renewable generation. The first IEEE PES Innovative Smart Grid Technologies Asia Conference, Perth, Australia, Nov. 2011.7）Yujiao Sun, Feng Liu, Shengwei Mei. A Novel Stability Analysis Approach for a Nonlinear System based on Its Polynomial Approximation. 2010 IEEE PES General Meeting. 8）WU Shengyu, MEI Shengwei. Estimation of LISS Properties via a Quadratic Form LISS-Lyapunov Function.ICCAS-SICE,ICROS-SICE International Joint Conference ,August 18-21, 2009, Fukuoka, Japan.9）Mei, Shengwei, Zheng, Shaoming, Wang, Peng. A novel zero dynamics design method and its application to hydraulic turbine governor. IEEE International Symposium on Circuits and Systems, ISCAS, May, 2009.10）Xue, AC; Mei, SW; Xie, BP, A comprehensive method to compute the controlling unstable equilibrium point, 2008 Third International Conference on Electric Utility Deregulation and Restructuring and Power Technologies, Vols 1-6, : 1115-1120 2008.11）Zheng, SM; Mei, SW; Wang, P , Experimental evaluation of NR-PSS for large synchronous generators, 2008 Third International Conference on Electric Utility Deregulation and Restructuring and Power Technologies, Vols 1-6, : 1169-1174 2008. 12）Hou, Yunhe; Mei, Shengwei; Zhou, Huafeng; Zhong, Jin, Blackout prevention: Managing complexity with technology, IEEE Power and Energy Society 2008 General Meeting: Conversion and Delivery of Electrical Energy in the 21st Century, PES,? IEEE Power and Energy Society 2008 General Meeting: Conversion and Delivery of Electrical Energy in the 21st Century, PES, 2008, p **. 13）Shengwei Mei, Laijun Chen, Wei Hu, Juming Chen，Passivity-based controller for n-phase APF，the 7th IFAC SYMPOSIUM ON NONLINEAR CONTROL SYSTEMS.14）Mei Shengwei, Che Wenyan, Xie Bangpeng，Hybrid Automatic Voltage Control Strategy for Power System Substations，The International Conference on Electrical Engineering 2007HK.15）Xue, Ancheng; Hu, Wei; Mei, Shengwei; Ni, Yixin; Wu, Felix F.; Lu, Qiang；Comparison of the Linear Approximations for the Dynamic Security Region of Network-Reduction Power Systems， 2006 IEEE Power Engineering Society General Meeting, June 18-22, 2006, Montreal, Canada.16）Xue, Ancheng; Shen, Chen; Mei, Shengwei; Ni, Yixin; Wu, Felix F.; Lu, Qiang；A New Transient Stability Index of Power Systems Based on Theory of Stability Region and its application, 2006 IEEE Power Engineering Society General Meeting, June 18-22, 2006, Montreal, Canada.17）Chen, Juming; Liu, Feng; Mei, Shengwei；Passivity-Based H∞ Control for APF in Three-Phase Four-Wire Distribution Power Systems, 2006 IEEE Power Engineering Society General Meeting, June 18-22, 2006, Montreal, Canada.18）Wang Zhitao, Hu Wei, Mei Shengwei, Xia Deming. Hardware Framework of HAVC System Design, 1st IEEE Conference on Industrial Electronics and Application （ICIEA 2006）, Singapore, 24-26 May, 2006, pp. 1256-1260.19）Zhang Xuemin, Mei Shengwei，Lu Qiang. A New Algorithm for Transient Stability Emergency Control Based on Power Switching, 1st IEEE Conference on Industrial Electronics and Application （ICIEA 2006）, Singapore, 24-26 May, 2006, pp. 408-413.20）Zhitao Wang, Guangyu He, Shengwei Mei. Study on Hybrid Automatic Voltage Control Strategy of Substation, The 5th International Conference on Power System Technology, 22-26 Oct, 2006 Chongqing, China.21）Deming Xia, Shengwei Mei, Chen Shen, Ancheng Xue. Stability-Constrained Optimal Power Flow based on a Novel Transient Stability Margin, The 5th International Conference on Power System Technology, 22-26 Oct, 2006 Chongqing, China.22）Yihong Wang, Chen Shen, Shengwei Mei, Ancheng Xue. Analysis of Transient Voltage Stability via Quadratic Approximation Method, The 5th International Conference on Power System Technology, 22-26 Oct, 2006 Chongqing, China.23）Mei Shengwei, Xue Ancheng, Weng Xiaofeng, He Fei, Modeling Collapse and Blackout of Power System via AC-Based Model, Proceedings on the 7th International Power Engineering Conference. Singapore, 2005. 24）Wei Hu, Shengwei Mei, Jun Hong, Jiaqing Liu, Qiang Lu， Chinese North-East Power Network’s Hybrid Automatic Voltage Control Research， IEEE Power Engineering Society General Meeting, 200425）W. Hu, S.W. Mei, Q. Lu Power System Hybrid Automatic Voltage Control，2004 world congress on intelligent control and automation26）Zhang XM, Shen Chen. Mei shengwei, Lu Qiang，Studies on Nonlinear Optimal Control for Power Systems: A Constructive Method for Choosing Weighting Matrices，2004 International Conference on Power System Technology - POWERCON 2004 Singapore, 21-24 November 2004.27）Gui Xiaoyang, Mei shengwei， Novel Nonlinear Robust Control Strategy Governor: Simulation and Experiment, 39th International Universities Power Engineering Conference （UPEC 2004） （EI）28）Tielorig Shen; Shengwei Mei; Yuanzhang Sun; Ortega, R.;An energy-shaping approach to the design of exciter-governor controller for power systems The Fourth International Conference on Control and Automation, Page（s）: 71 -71，June 10-12, 200329）Lin Sun, Shengwei Mei, Qiang Lu, and Jin Ma. Application of GUPFC in China’s Sichuan Power Grid － Modeling, Control Strategy and Case Study. 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