电气工程系 副主任
教授 / 博士生导师
电力能源系统建模与计算,电力电子化系统电磁暂态实时仿真,新能源及交直流混联电网分析与控制(微电网、柔直、柔交)
2004年–2008年,美国密苏里科技大学(原密苏里-罗拉大学),电气工程专业,博士
2001年–2004年,上海交通大学,电气工程系,硕士
1997年–2001年,上海交通大学,电力工程系,学士(优异生TOP1%)
2013年2月-至今,上海交通大学电气工程系,副教授,副教授/博士生导师,教授
2009年-2012年, 美国密苏里科技大学电气工程系,博士后,讲师
2014年1月-2018年12月, 上海交通大学电气工程系, 副系主任(分管科研)
2019年1月-至今, 上海交通大学电气工程系, 副系主任(分管师资队伍建设、国际化)
[1] X. Huang, K.Wang*, B.Fan, Q.Yang, G. Li, D. Xie, M.L.Crow, “Robust Current Control of Grid-tied Inverters for Renewable Energy Integration under Non-Ideal Grid Conditions”,IEEE Transactions on Sustainable Energy, DOI: 10.1109/TSTE.2019.2895601, January 2019
[2] X. Huang, K.Wang*, J.Qiu, L. Hang, G. Li, X. Wang, “Decentralized Control of Multi-Parallel Grid-Forming DGs in Islanded Microgrids for Enhanced Transient Performance”, IEEE Access,DOI: 10.1109/ACCESS.2019.2896594,January 2019
[3] A.Chen, D.Xie, D. Zhang, C. Gu, K.Wang, “PI Parameter Tuning of Converters for Sub-Synchronous Interactions Existing in Grid-connected DFIG Wind Turbines”,IEEE Transactions on Power Electronics,10.1109/TPEL.2018.2875350,Oct 2018
[4] C. Qi, K.Wang*, Q.Yang, G. Li, X. Huang, J. Wang, M. Crow, “Decentralized DC Voltage and Power Sharing Control of the Parallel Grid Converters in Multi-terminal DC Power Integration System”, IEEE Transactions on Sustainable Energy, DOI 10.1109/TSTE.2018.2876800 , Oct 2018
[5] K. Wang, J. Xu, G. Li, N. Tai, A. Tong, J. Hou“A Generalized Associated Discrete Circuit Model of Power Converters in Real-Time Simulation”,IEEE Transactions on Power Electronics, Vol. 34, No.3, pp 2220-2233, March 2019
[6] K. Wang, X. Huang, B. Fan, Q. Yang, G. Li, M.L. Crow, “Decentralized Power Sharing Control for Parallel-Connected Inverters in Islanded Single-Phase Micro-grids”, IEEE Transactions on Smart Grid , Vol. 9, No.6, pp 6721-6730, Nov 2018
[7] C. Qi, K. Wang*, Y. Fu, G. Li, B. Han, R. Huang, T. Pu, “A Decentralized Optimal Operation of AC/DC Hybrid Distribution Grids”, IEEE Transactions on Smart Grid, Vol. 9, No.6, pp 6095-6105 , Nov 2018
[8] Y. Tian, K. Wang*, G. Li, Y. Zhou, J. Luo, Y. Wang, “Affinely Adjustable Robust AC-DC Optimal Power Flow Considering Correlation of Wind Power,” IET Renewable Power Generation, DOI: 10.1049/iet-rpg.2017.0886, May 2018
[9] J. Xu, K. Wang*, G. Li, “System-Level Dynamic Phasor Models of Hybrid AC/DC Microgrids Suitable for Real-time Simulation and Small Signal Analysis,” IET Generation, Transmission &Distribution,Vol. 12, No.15, pp 3607 - 3617, 2018
[10] X.Y. Tang, Q. Yang, K. Wang, Y. Sun, Optimization of Wind Farm Layout in Complex Terrain via Mixed-Installation of Different Types of Turbines, IET Renewable Power Generation, Volume: 12, Issue: 9, 2018
[11] Y. Tian, L. Fan, Y. Tang, K. Wang*,G. Li, “A Coordinated Multi-time Scale Robust Scheduling Framework for Isolated power System with ESU under High RES Penetration”, IEEE Access, Vol. 6, pp 9774 - 9784, Jan. 2018 (DOI: 10.1109/ACCESS.2018.2792456,)
[12] J. Xu, W. Wu, K. Wang*, G. Li, “C-Vine Pair Copula Based Wind Power Correlation Modelling in Probabilistic Small Signal Stability Analysis”, IEEE/CAA Journal of Automatica Sinica( in press) 2017
[13] J. Xu, P. K. Kanyingi, K. Wang* and G. Li, " Probabilistic small signal stability analysis with large scale integration of wind power considering dependence", Renewable & Sustainable Energy Reviews, Volume 69, March 2017, 1258-1270
[14] W. Wu, K. Wang*, G. Li, X. Jiang, “A Multivariate Dimension-Reduction Method for Probabilistic Power Flow Calculation”, Electric Power Systems Research, 2016, 141: 272-280.
[15] B. Fan, Q. Yang, K. Wang, J. Xu,Y. Sun, “Transient stability enhancement control of power systems with time-varying constraints”, IET Generation, Transmission & Distribution , Vol. 10, No. 13, pp 3251 – 3263, 2016
[16] W. Wu, K. Wang*, G.Li, X. Jiang, Z. Wang, “Probabilistic load flow calculation using cumulants and multiple integrals ", IET Generation, Transmission & Distribution, Vol. 10, No. 7, pp 1703-1709, May. 2016
[17] W. Wu, K. Wang*, B. Han, G Li, X. Jiang and M L. Crow, “A Versatile Probability Model of Photovoltaic Generation Using Pair Copula Construction", IEEE Transactions on Sustainable Energy, Vol. 6, No. 4, pp 1337-1345, Sep. 2015
[18] K. Wang, and M. L. Crow, “The Fokker-Planck Equation for Power System Stability Probability Density Function Evolution ", IEEE Transactions on Power Systems, Vol.28, No.3. 2013
[19] K. Wang, B. Yan, M. L. Crow and D. Gan, "A Feedback Linearization based UPFC Internal Controller for Power Flow Control", Electric Power Components and Systems, vol. 40, no. 6, pp. 628-647, 2012
[20] K. Wang and M. L. Crow, “Power System Voltage Regulation via STATCOM Internal Nonlinear Control", IEEE Transactions on Power Systems, vol. 26,no.3, pp 1252-1262, Aug. 2011
[21] K. Wang, M. L. Crow, B. McMillin, S. Atcitty, “A Novel Real-Time Approach to Unified Power Flow Controller Validation", IEEE Transactions on Power Systems, vol. 25, no.4, Nov. 1892-1901, 2010
[22] 黄鑫,汪可友,李国杰,含多并联组网DG的微电网分层控制体系及其控制策略,中国电机工程学报(已录用),2018
[23] 徐晋,汪可友,李国杰.贺炀洋,侯俊贤,基于参数化历史电流源的广义小步长开关模型.中国电机工程学报,2018,38(06):1647-1654
[24] 范刘洋,汪可友,李国杰,吴巍,葛维春.计及风电时间相关性的鲁棒机组组合[J].电力系统自动化,2018,42(18):91-99+176.
[25] 田园,汪可友,李国杰,葛维春,罗桓桓.计及风电相关性的二阶锥动态随机最优潮流[J].电力系统自动化,2018,42(05):41-47.
[26] 吴巍,汪可友,李国杰,范刘洋,王跃峰. 提升风电消纳区间的鲁棒机组组合[J/OL]. 电工技术学报, : (2017-08-01). DOI:10.19595/j.cnki.1000-6753.tces.161633.
[27] 程益生,陆振纲,汪可友,赵国亮,黄鑫,柳劲松. 电力弹簧稳态运行范围及越限失灵机理分析[J]. 电力系统自动化,2017,41(14):147-152.
[28] 周烨,汪可友,李国杰,韩蓓,刘召杰. 基于多智能体一致性算法的微电网分布式分层控制策略[J]. 电力系统自动化,2017,41(11):142-149.
[29] 徐晋,汪可友,李国杰,张邦玲,高昇宇. 随机扰动下的电力系统强迫振荡分析[J]. 上海交通大学学报,2017,51(05):563-569.
[30] 范刘洋,汪可友,吴巍,李国杰,葛延峰. 多时间尺度的电力系统鲁棒调度研究[J]. 电网技术,2017, 41(05):1576-1583.
[31] 齐琛,汪可友,李国杰,韩蓓,徐绍军,卫泽晨. 交直流混合主动配电网的分层分布式优化调度[J]. 中国电机工程学报,2017,37(07):1909-1918.
[32] 吴巍,汪可友,李国杰. 考虑风电时空相关性的仿射可调鲁棒机组组合[J]. 中国电机工程学报, 2017, 37(14):4089-4097+4288.
[33] 姬伟江,汪可友,李国杰,庄剑,李思维,历俊. 计及多重开关的电力电子实时仿真算法及其基于PXI平台的实现[J]. 电网技术,2017,41(02):588-596.
[34] 吴巍,汪可友,李国杰,葛延峰. 考虑风电功率条件相关性的广义椭球不确定集合建模[J]. 中国电机工程学报,2017,37(09):2500-2507.
[35] 吴倩红,高军,侯广松,韩蓓,汪可友,李国杰. 实现影响因素多源异构融合的短期负荷预测支持向量机算法[J]. 电力系统自动化,2016,40(15):67-72+92.
[36] 范刘洋,汪可友,张宝群,李国杰,翟登辉,王卫星. 考虑电池组不一致性的储能系统建模及仿真[J]. 电力系统自动化, 2016,40(03):110-115.
[37] 范刘洋,汪可友,李国杰,石文辉,刘晓娟. 含有海水抽蓄电站的海岛微网优化调度[J]. 电网技术, 2016, 40(02):382-386.
[38] 吴巍,汪可友,李国杰,王志林. 基于Pair Copula的多维风电功率相关性分析及建模[J]. 电力系统自动化,2015,39(16):37-42.
[39] 吴巍,汪可友,韩蓓,李国杰. 基于Pair Copula的随机潮流三点估计法[J]. 电工技术学报, 2015, 30(09):121-128.
[40] 吴巍,汪可友,李国杰. 计及光伏发电相关性的多重积分法概率潮流计算[J]. 中国电机工程学报, 2015, 35(03):568-575.
[41] 黄宇鹏,汪可友,李国杰. 基于权重数值积分的电力电子开关仿真插值算法[J]. 电网技术, 2015, 39(01):150-155.
[42] 阎博,汪可友,Mariesa L.CROW,江道灼,甘德强. UPFC状态反馈精确线性化潮流控制策略[J]. 中国电机工程学报,2012,32(19):42-48+184.
授权发明专利
[1] 电力系统动态稳定在线评估方法 201310280475.6
[2] 考虑风速相关性的电力系统静态安全评估方法 201510375768.1
[3] 基于概率潮流的电力系统静态安全评估方法201410255387.5
[4] 一种基于风光电互补的前馈型的电压跌落动态补偿装置 201410065312.0
[5] 电力电子开关插值实时仿真方法 201410648108.1
[6] METHOD FOR DESIGNING CASCADED MULTI-LEVEL INVERTER WITH MINIMIZED LARGE-SCALE VOLTAGE DISTORTION US14569609
[7] FEEDFORWARD VOLTAGE SERIES COMPENSATOR BASED ON COMPLEMENTARY USE OF WIND POWER AND PHOTOVOLTAIC POWER US14583041
2013年,上海交通大学晨星青年学者(B类)
2015年,上海交通大学教学成果一等奖(排名第三)
2015年,聘期考核优秀(2013,2015,2016,2017年度考核优秀)
2016年,上海交通大学优秀教师奖(三等奖)
2016年,上海市科技进步一等奖 “新能源微电网运行控制技术与关键装置”
2016年,首届南网研院杯DSP(动态仿真程序)建模比赛一等奖(第一名)指导教师
2016年,《电网技术》优秀作者
2018年,思源电气教育基金,优秀青年教师奖