个人资料:
姓名:王成山
职称:教授/博士生导师
学科专业:电气工程
通讯地址:天津大学电气自动化与信息工程学院26教学楼E区
电子信箱: cswang@tju.edu.cn
主要经历:
(1) 1985.12-1987.06 天津大学电力及自动化系助教
(2) 1987.07-1992.06 天津大学电力及自动化系讲师
(3) 1992.06-1996.11 天津大学电力及自动化系副教授
(4) 1996.11-1997.12 天津大学电力及自动化系教授
(5) 1994.09-1996.09 美国康奈尔大学高级访问学者
(6) 2001.09-2002.02 美国卡耐基梅隆大学访问教授
(7) 1997.06-2002.03 天津大学电气自动化与能源工程学院副院长
(8) 2004.01-至今 “智能电网”教育部重点实验室主任
(9) 2002.04-2010.03 天津大学电气与自动化工程学院院长
(10) 2014.05-至今 天津大学电气与自动化工程学院院长
(11) 2021.11-至今 中国工程院院士
主要研究方向:
(1) 配电系统规划与运行
(2) 分布式能源与微电网
(3) 电网安全性与稳定性
主要科研项目:
(1) 国家重大基础研究计划(973)项目:“分布式发电供能系统相关基础研究”,编号:2009CB219700),2009-2013,项目首席科学家
(2) 教育部科学技术研究重大项目,“分布式能源发电系统并网运行关键技术”,编号:306004,2006.1-2008.12
(3) 国家高技术研究发展计划(863计划)项目:“兆瓦级冷热电联供分布式能源微网系统并网关键技术研究与工程示范”,编号:2007AA05Z250,2008.1-2010.12
(4) 国家基金委重大国际合作(英国)项目:智能配电网综合运行与规划研究,编号:51261130473,2013.1-2015.12
(5) 国际合作项目(美国EPRI):Development of Power System Transient Stability Region,编号:EP-P24225/C11739,2007.5-2008.5
代表性论著、学术著作:
学术论文:
总共发表论文200余篇,他引上万次,两次获评中国最具影响力国内论文,2015年入选爱斯维尔公布的中国高被引学者榜单。近4年发表的论文(部分)如下:
[1] Chengshan Wang, Peng Li, Jianzhong Wu, “Workforce Training and Education on Smart Grids”, Smart Grid Handbook, Volume 2, 149-160, John Wiley & Sons,Ltd. 2016.
[2] Chengshan Wang, Kai Yuan, Peng Li, Bingqi Jiao, Guanyu Song. A Projective integration method for transient stability assessment of power systems with a high penetration of distributed generation. IEEE Transactions on Smart Grid, 2016. (Early Access)
[3] Chengshan Wang, Yang Mi, Yang Fu, Peng Wang. Frequency control of an isolated micro-grid using double sliding mode controllers and disturbance observer. IEEE Transactions on Smart Grid, 2016. (Early Access)
[4] Chengshan Wang, Xianshen Yang, Zhen Wu, Yanbo Che, Li Guo, Shuhuai Zhang, Yixin Liu. A highly integrated and reconfigurable microgrid testbed with hybrid distributed energy sources. IEEE Transactions on Smart Grid, 7(1): 451-459, 2016.
[5] Chengshan Wang, Bingqi Jiao, Li Guo, Zhe Tian, Jide Niu, Siwei Li. Robust scheduling of building energy system under uncertainty. Applied Energy, 167(1): 366-376, 2016.
[6] Chengshan Wang, Yixin Liu, Xialin Li, Li Guo, Lei Qiao, Hai Lu. Energy management system for stand-alone diesel-wind-biomass microgrid with energy storage system. Energy, 97(15): 90-104, 2016.
[7] Jinwei He, Yunwei Li, Chengshan Wang, Beihua Liang. Simultaneous microgrid voltage and current harmonics compensation using coordinated control of dual-interfacing-converters. IEEE Transactions on Power Electronics, 2016. (Early Access)
[8] Jinwei He, Yunwei Li, Xiaodong Liang, Dehong Xu, Beihua Liang, Chengshan Wang. Deadbeat weighted average current control with corrective feed-forward compensation for microgrid converters with non-standard LCL Filter. IEEE Transactions on Power Electronics, 2016. (Early Access)
[9] Jinwei He, Yunwei Li, Ruiqi Wang, Chengshan Wang. A measurement method to solve a problem of using DG interfacing converters for selective load harmonic filtering. IEEE Transactions on Power Electronics, 31(3): 1852 – 1856, 2016.
[10] Dan Wang, Yue Zhou, Hongjie Jia, Chengshan Wang, Ning Lu, Pang-Chieh Sui, Menghua Fan. An energy-constrained state priority list model using deferrable electrolyzers as a load management mechanism. Applied Energy, 167(1): 201-210, 2016.
[11] Wanyu Cao, Jianzhong Wu, Nick Jenkins, Chengshan Wang, Timothy Green. Benefits analysis of Soft Open Points for electrical distribution network operation. Applied Energy, 165(1): 36-47, 2016.
[12] Wanyu Cao, Jianzhong Wu, Nick Jenkins, Chengshan Wang, Timothy Green. Operating principle of soft open points for electrical distribution network operation. Applied Energy, 164(15): 245-257, 2016.
[13] Yimin Wang, Jianhui Wang, Xuzhu Dong, Pengwei Du, Ming Ni, Chengshan Wang, Liangzhong Yao, Boming Zhang, Chen Chen. Guest editorial smart grid technologies and development in China. IEEE Transactions on Smart Grid, 7(1): 379-380, 2016.
[14] Li Guo, Zhouzi Yu, Chengshan Wang, Fangxing Li, Jean Schiettekatte, Jean-Claude Deslauriers, Lingquan Bai. Optimal design of battery energy storage system for a wind–diesel off-grid power system in a remote Canadian community. IET Generation, Transmission & Distribution, 10(3): 608-616, 2016.
[15] Li Guo, Wenjian Liu, Xialin Li, Yixin Liu, Bingqi Jiao, Wei Wang, Chengshan Wang, Fangxing Li. Energy management system for stand-alone wind-powered-desalination microgrid. IEEE Transactions on Smart Grid, 7(2): 1079-1087, 2016.
[16] Chengshan Wang, Li Guo, Peng Li, ”Optimal Dispatch and Design of Microgrid System”, Handbook of Clean Energy System, Volume 4:Intelligent Energy Systems, 1997-2014, John Wiley & Sons,Ltd.2015
[17] Chengshan Wang, Yue Zhou, Jianzhong Wu, Jidong Wang, Yiqiang Zhang, Dan Wang. Robust-index method for household load scheduling considering uncertainties of customer behavior. IEEE Transactions on Smart Grid, 6(4): 1806-1818, 2015.
[18] Chengshan Wang, Xiaopeng Fu, Peng Li, Jianzhong Wu. Accurate dense output formula for exponential integrators using the scaling and squaring method. Applied Mathematics Letters, 43: 101-107, 2015.
[19] Chengshan Wang, Hao Yu, Peng Li, Jianzhong Wu, Chengdi Ding, Guanyu Song, Dun Lin, Feng Xing. EMTP-type program realization of Krylov subspace based model reduction methods for large-scale active distribution network. CSEE Journal of Power and Energy Systems, 1(1): 52-60, 2015.
[20] Chengshan Wang, Hao Yu, Li, Peng, Jianzhong Wu, Chengdi Ding. Model order reduction for transient simulation of active distribution networks. IET Generation, Transmission and Distribution, 9(5): 457-467, 2015.
[21] Chengshan Wang, Yue Zhou, Binqi Jiao, Yamin Wang, Wenjian Liu, Dan Wang. Robust optimization for load scheduling of a smart home with photovoltaic system. Energy Conversion and Management, 102(0), 2015.
[22] Chengshan Wang, Wei Li, Zhun Meng, Yifeng Wang, Jiegui Zhou. Three-phase high-power and zero-current switching OBC for plug-in electric vehicles. Energies, 8(0): 6672-6704, 2015.
[23] Jun Xiao, Xin Li, Wenzhuo Gu, Fangxing Li, Chengshan Wang. Model of distribution system total supply capability considering feeder and substation transformer contingencies. International Journal of Electrical Power and Energy Systems, 65(0): 419-424, 2015.
[24] Chengshan Wang, Xialin Li, Li Guo, Yunwei Li. A nonlinear-disturbance-observer-based DC-bus voltage control for a hybrid AC/DC microgrid. IEEE Transactions on Power Electronics, 29(11): 6162-6177, 2014.
[25] Chengshan Wang, Binqi Jiao, Li Guo, Kai Yuan, Bing Sun. Optimal planning of stand-alone microgrids incorporating reliability. Journal of Modern Power Systems & Clean Energy, 2014, 2(3):195-205.
[26] Dan Wang, Hongjie Jia, Chengshan Wang, Ning Lu, Menghua Fan, Weiwei Miao, Zhe Liu. Performance evaluation of controlling thermostatically controlled appliances as virtual generators using comfort-constrained state-queueing models. IET Generation Transmission and Distribution, 8(4): 591-599, 2014.
[27] Yunfei Mu, Jianzhong Wu, Nick Jenkins, Hongjie Jia, Chengshan Wang. A spatial-temporal model for grid impact analysis of plug-in electric vehicles. Applied Energy, 114(SI): 456-465, 2014.
[28] Dan Wang, Shaoyun Ge, Hongjie Jia, Chengshan Wang, Yue Zhou, Ning Lu, Xiangyu Kong. A demand response and battery storage coordination algorithm for providing microgrid tie-line smoothing services. IEEE Transactions on Sustainable Energy, 5(2): 476-486, 2014.
[29] Jun Xiao, Linquan Bai, Fangxing Li, Haishen Liang, Chengshan Wang. Sizing of energy storage and diesel generators in an isolated microgrid using discrete Fourier transform (DFT). IEEE Transactions on Sustainable Energy, 5(3): 907-916, 2014.
[30] Hong Liu, Jun Han, Shaoyun Ge, Chengshan Wang. Improved analytical method of power supply capability on distribution systems. International Journal of Electrical Power and Energy Systems, 63: 97-104, 2014.
[31] Yan Li, Wenzhong Gao, Jiuchun Jiang, Chengshan Wang, Eduard Muljadi. Unified calculation of eigen-solutions in power systems based on matrix perturbation theory. Science China-Technological Sciences, 57(8): 1594-1601, 2014.
[32] Zhiying Lu, Shiju Wang, Shaoyun Ge, Chengshan Wang. Substation planning method based on the weighted voronoi diagram using an intelligent optimisation algorithm. IET Generation, Transmission and Distribution, 8(12): 2173-2182, 2014.
[33] Li Guo, Wenjian Liu, Bingqi Jiao, Bowen Hong, Chengshan Wang. Multi-objective stochastic optimal planning method for stand-along microgrid system. IET Generation Transmission and Distribution, 8(7): 1263-1273, 2014.
[34] Liu Hong,Han Jun,Ge Shaoyun,Wang Chengshan.Improved analytical method of power supply capability on distribution systems.International Journal of Electrical Power and Energy Systems,2014,63:97-104.
[35] Wang Chengshan,Li Xialin,Guo Li,Li Yunwei.A nonlinear-disturbance-observer-based DC-bus voltage control for a hybrid AC/DC microgrid.IEEE Transactions on Power Electronics,2014,29(11):6162-6177.
[36] Li Yan,Gao Wenzhong,Jiang Jiuchun,Wang Chengshan,Muljadi Eduard.Unified calculation of eigen-solutions in power systems based on matrix perturbation theory.Science China-Technological Sciences,2014,57(8):1594-1601.
[37] Xiao Jun,Bai Linquan,Li Fangxing,Liang Haishen,Wang Chengshan.Sizing of energy storage and diesel generators in an isolated microgrid using discrete Fourier transform (DFT).IEEE Transactions on Sustainable Energy,2014,5(3):907-916.
[38] Wang Dan,Jia Hongjie,Wang Chengshan,Lu Ning,Fan Menghua,Miao Weiwei,Liu Zhe.Performance evaluation of controlling thermostatically controlled appliances as virtual generators using comfort-constrained state-queueing models.IET Generation Transmission and Distribution,2014,8(4):591-599.
[39] Wang Dan,Ge Shaoyunm,Jia Hongjie,Wang Chengshan,Zhou Yue,Lu Ning,Kong Xiangyu.A demand response and battery storage coordination algorithm for providing microgrid tie-line smoothing services.IEEE Transactions on Sustainable Energy,2014,5(2):476-486.
[40] Mu Yunfei,Wu Jianzhong,Jenkins Nick,Jia Hongjie,Wang Chengshan.A Spatial-Temporal model for grid impact analysis of plug-in electric vehicles.Applied Energy,2014,114(SI):456-465.
[41] Guo Li,Liu Wenjian,Jiao Bingqi,Hong Bowen,Wang Chengshan.Multi-objective stochastic optimal planning method for stand-along microgrid system.IET Generation Transmission and Distribution,2014,8(7):1263-1273.
[42] Guo Li,Liu Wenjian,Cai Jiejin,Hong Bowen,Wang Chengshan.A two-stage optimal planning and design method for combined cooling,heat and power microgrid system.Energy Conversion and Management,2013,74:433-445.
[43] Mi Yang,Fu Yang,Wang Chengshan,Wang Peng.Decentralized sliding mode load frequency control for multi-area power systems.IEEE Transactions on Power Systems,2013,28(4):4301-4309.
[44] Wang Chengshan,Li Yan,Peng Ke,Hong Bowen,Wu Zhen,Sun Chongbo.Coordinated optimal design of inverter controllers in a micro-grid with multiple distributed generation units.IEEE Transactions on Power Systems,2013,28(3):2679-2687.
[45] Yu Xiaodan,Jia Hongjie,Wang Chengshan.CTDAE & CTODE models and their applications to power system stability analysis with time delays.Science China-Technological Sciences,2013,56(5):1213-1223.
[46] Wang Chengshan,Zhou Yue,Wang Jidong,Peng Peiyuan.A novel Traversal-and-Pruning algorithm for household load scheduling.Applied Energy,2013,102(SI):1430-1438.
[47] Wang Chengshan,Li Yan,Peng Ke,Wu Zhen,Sun Chongbo,Yuan Kai.Matrix perturbation based approach for sensitivity analysis of eigen-solutions in a microgrid.Science China-Technological Sciences,2013,56(1):237-244.
学术论著:
(1) 微电网技术及应用,北京:科学出版社,2016.3
(2) 微电网分析与仿真理论,北京:科学出版社,2013.12
(3) 配电系统综合评价理论与方法,北京:科学出版社,2012.4
(4) 现代配电系统分析,北京:高等教育出版社,2007.10
(5) 电力系统稳定性理论与方法,北京:科学出版社,1999.1
(6) 中国电力百科全书》电力系统卷(第三版),北京:中国电力出版社,2014.6
(7) 中国智能电网的技术与发展,北京:科学出版社,2013
专利:
[1] Dynamic Method for Preventing Voltage Collapse in Electrical Power System, 美国专利,5796628
[2] Method for on-line Dynamic Contingency Screening of Electric Power Systems, 美国专利,5719787
[3] 基于概率的电力系统电压稳定在线监视和预防控制方法,发明专利,CN100382411C,
[4] 基于分区负荷空间上电压稳定域的电压安全监控方法,发明专利,CN101247045B
[5] 分布式发电系统电力电子装置通用控制器,发明专利,CN101697414B
[6] 基于自动微分技术的分布式发电系统暂态仿真方法,发明专利,CN101937481B
[7] 适于微网暂态并行仿真的电气与控制系统解耦预测方法,发明专利,CN102184297B
[8] 适于节点分析框架的微网暂态仿真并行计算方法,发明专利,CN102346442B
[9] 平滑微网联络线功率波动的储能系统容量优化方法,发明专利,CN102244390B
[10] 一种微网联络线功率波动平滑控制方法,发明专利,CN102593873B
[11] 一种改进的双级式变流器直流母线电压控制方法,发明专利,CN102710165B
[12] 一种计及“N-1”准则的配电系统供电能力评估方法,发明专利,CN101431238B
[13] 一种中压配电网最大供电能力精确计算方法,发明专利,CN102025153B
[14] 基于最大信息熵的协同负荷预测方法,发明专利,CN101556664B
[15] 中压配电网可用供电能力分析方法,发明专利,CN101752870B
[16] 基于最大供电能力的配电网联络有效性与联络化简方法,发明专利,CN102315646B
[17] 一种基于配电系统安全域的评价方法,发明专利,CN102368610B
[18] 一种基于N-1逼近的最大供电能力计算方法,发明专利,CN102664398B
[19] 一种配电网最大供电能力计算方法,发明专利,CN102769287B
[20] 基于主从控制策略微网的主电源双模式运行控制方法,发明专利,CN102185341B
[21] 一种风光柴储孤立微网系统的控制方法,发明专利,CN102157978B
[22] 基于区间数学理论的电力变压器故障诊断方法,发明专利,CN101692113B
[23] 微型燃气轮机冷电联供分布式供能系统优化运行控制方法,发明专利,CN101667013B
[24] 基于共直流母线的电池储能与光伏发电的协调控制和优化方法,发明专利,CN101969281B
[25] 一种含可调度分布式电源的配电网运行优化方法,发明专利,CN103400207B
主要讲授课程:
配电系统自动化(本科生)
主要学术成就、奖励及荣誉:
(1) “配电网高可靠性供电关键技术及应用”,国家科技进步二等奖,2016(公示期)
(2) “大电网安全域综合计算分析技术及其工程应用”,国家技术发明二等奖,2012
(3) “复杂配电系统综合技术评价方法研究、系统开发和工程应用”,国家科技进步二等奖,2010
(4) “城市电网规划理论、模型、方法的研究与工程应用”,国家科技进步二等奖,2004
(5) “高可靠性城市电网规划系统研究开发与工程应用”天津市科技进步一等奖,2015
(6) “微电网优化规划与运行控制关键技术及其应用”,天津市科技进步一等奖,2013
(7) “配电系统综合技术评价理论及其工程应用”,天津市科学技术进步奖一等奖,2010
(8) “基于安全域理论的电力系统安全性综合监控与预警技术”,教育部技术发明奖一等奖,2010
(9) “电力大系统安全域预警监控理论及其工程应用”,中国高等学校十大科技进展,2009
(10) “城市电网规划理论、模型、方法的研究与工程应用”,教育部科技进步一等奖,2004
(11) “电力大系统安全性与稳定性的理论与方法”,天津市自然科学一等奖,2003
其他(社会兼职等):
(1) 2004.05-现在:中国电机工程学会理事会常务理事
(2) 2006.01-现在:教育部电气工程及其自动化专业教学指导委员会委员
(3) 2013.05-现在:IEEE Transaction on Sustainable Energy,Editor
(4) 2013.01-现在:Journal of Modern Power Systems and Clean Energy,Editorial Board Member
(5) 2015.01-现在:Applied Energy,Editorial Board Member
(6) 2015.03-现在:CSEE Journal of Power and Energy Systems,Editorial Board Member
(7) 2016.07-现在:Protection and Control of Modern Power Systems,Deputy Editor-In-Chief
(8) 2003.10-现在:《电力系统及其自动化学报》编辑委员会主任委员
(9) 2016.05-现在:第七届教育部科技委能源与交通学部学部委员
(10)2016.06-现在:中国能源研究会电能技术专业委员会主任委员
