山东大学杰出人才体系
李正烁
发布时间:2019年08月30日 14:07    作者:    点击:[]


     

  


研究所

电力系统研究所

学术身份

(1)教授,博士生导师。山东大学齐鲁青年学者。

(2)电网智能化调度与控制教育部重点实验室副主任。

(3)电气与电子工程师协会高级会员(IEEE Senior Member),中国电机工程学会会员,国际大电网组织(CIGRE)会员,IEEE Task Force on Future TSO-DSO Interaction成员。

(4)国际顶级期刊《IEEE Transactions on Power Systems》编辑,《CSEE Journal of Power and Energy Systems》青年学科编辑。

(5)担任《IEEE Transactions on Power Systems》《IEEE Transactions on Smart Grid》《IEEE Transactions on Sustainable Energy》《Applied Energy》《中国点击工程学报》《电力系统自动化》等十余个国内外顶级期刊审稿人,多次评为年度最佳审稿专家。

个人信息

姓名

李正烁

性别

出生日期

1988.6

籍贯

山东省临朐县

职称

教授

职务


电话

 

Email

zsli@sdu.edu.cn

工作经历


20198月至今     教授,山东大学

20189月–20196 研究助理教授,美国南卫理公会大学(Southern Methodist University

20181月–20185 访问学者,美国加利福尼亚大学伯克利分校

20167月–20187 博士后,清华大学

20142月–20145 访问博士生,美国阿贡国家实验室(Argonne National Laboratory

20118月–20167 博士研究生,电气工程,清华大学,导师: 孙宏斌教授

20078月–20117 本科,电气工程,清华大学



研究方向

电力系统能量管理,综合能源系统分布式自治协同理论

学术著作


近五年学术获奖:

[1]   2021年山东电机工程学会“2020年度‘五四’优秀青年科技工作者”

[2]   2020年入选中国电机工程学会青年人才托举工程项目

[3]   2020年论文《计及电动汽车充电预测的实时充电优化方法》入选“领跑者5000——中国精品科技期刊顶尖论文(F5000)项目”

[4]   2020年国际期刊《CSEE Journal of Power and Energy Systems》优秀青年学科编辑

[5]   2019年入选山东大学齐鲁青年学者项目

[6]   2017年中国博士后科学基金特别资助(当年全国电气工程领域仅有8人入选)

[7]   2016年清华大学优秀博士论文,入选Springer出版社《杰出博士论文系列》丛书

[8]   2016年美国电气和电子工程师协会电力与能源协会全会(《IEEE PES General Meeting》)大会优秀论文

[9]   2015年国际顶级期刊《IEEE Transactions on Smart Grid》优秀审稿专家

[10] 2017-2020年国内顶级期刊《中国电机工程学报》优秀审稿专家

[11] 2020年指导学生获国际会议2020 IEEE Student Conference on Electric Machines and Systems (SCEMS)优秀论文

[12] 2016年北京市优秀毕业生(研究生)


学术专著2部:


[1]   Distributed Transmission-Distribution Coordinated Energy Management Based on Generalized Master-Slave Splitting Theory》(唯一作者),由Springer出版社于2018年出版。

[2]   《主从分裂理论与输配协同能量管理》(第二作者),由科学出版社于2020年5月出版。


学术论文共81篇,其中SCI/EI检索论文78篇。谷歌学术引用超过2000次。期刊论文如下:

[1]   G. Wang, Zhengshuo Li*, F. Wang, "Enhanced sufficient battery model for aggregate flexibility of thermostatically controlled loads considering coupling constraints," IEEE Transactions on Sustainable Energy, vol. 12, no. 4, pp. 2493-2496, Oct. 2021. (IF: 7.917)

[2]   Y. Zhou, Zhengshuo Li*, G. Wang, "Study on leveraging wind farms' robust reactive power range for uncertain power system reactive power optimization," Applied Energy, vol. 298, pp. 1-10, 2021. (IF: 9.746)

[3]   H. Gao, Zhengshuo Li*, "A Benders decomposition based algorithm for steady-state dispatch problem in an integrated electricity-gas system," IEEE Transactions on Power Systems, vol. 36, no. 4, pp. 3817-3820, Jul. 2021. (IF: 6.663)

[4]   M. Fan, Zhengshuo Li, T. Ding, L. Huang, F. Dong, Z. Ren, C. Liu, "Uncertainty evaluation algorithm in power system dynamic analysis with correlated renewable energy sources," IEEE Transactions on Power Systems, accepted. (IF: 6.663)

[5]   X. Lu, P. Zhang, K, Li, F. Wang, Zhengshuo Li, Z. Zhen, T. Wang, "Data center aggregators' optimal bidding and benefit allocation strategy considering the spatiotemporal transfer characteristics," IEEE Transactions on Industry Applications, vol. 57, no. 5, pp. 4486 - 4499, Sept.-Oct. 2021. (IF: 3.654)

[6]   ZChen, Zhengshuo Li, C. Guo, J. Wang and Y. Ding, "Fully distributed robust reserve scheduling for coupled transmission and distribution systems," IEEE Transactions on Power Systems, vol. 36, no. 1, pp. 169-182, Jan. 2021. (IF: 6.663)

[7]   P. Li, Q. Wu, M. Yang, Zhengshuo Li, and N. Hatziargyriou, "Distributed distributionally robust dispatch for integrated transmission-distribution systems," IEEE Transactions on Power Systems, vol. 36, no. 2, pp. 1193-1205, Mar. 2021. (IF: 6.663)

[8]   Z. Chen, Zhengshuo Li, C. Guo, Y. Ding and Y. He, "Two-stage chance-constrained unit commitment based on optimal wind power consumption point considering battery energy storage," IET Generation, Transmission & Distribution, vol. 14, no. 18, pp. 3738-3749, Sept. 2020. (IF: 2.995)

[9]   S. Yin, J. Wang, Zhengshuo Li and X. Fang, “State-of-the-art short-term electricity market operation with solar generation: A review,” Renewable and Sustainable Energy Reviews, vol. 138, pp. 1-16, Mar. 2021. (IF: 14.982)

[10] Y. Xue, Zhengshuo Li, C. Lin, Q. Guo and H. Sun, "Coordinated dispatch of integrated electric and district heating systems using heterogeneous decomposition," IEEE Transactions on Sustainable Energy, vol. 11, no. 3, pp. 1495-1507, Jul. 2020. (IF: 7.917)

[11] Y. Zhou, Zhengshuo Li* and M. Yang, "A framework of utilizing distribution power systems as reactive power prosumers for transmission power systems," International Journal of Electrical Power and Energy Systems, vol. 121, Oct. 2020. (IF: 4.630)

[12] Y. Gao, J. Yang, M. Yang and Zhengshuo Li, "Deep reinforcement learning based optimal schedule for a battery swapping station considering uncertainties," IEEE Transactions on Industry Applications, vol. 56, no. 5, pp. 5775-5784, Sept./Oct. 2020. (IF: 3.654)

[13] T. Hu, Q. Guo, Zhengshuo Li, X. Shen, H. Sun, "Distribution-free probability density forecast through deep neural networks," IEEE Transactions on Neural Networks and Learning Systems, vol. 31, no. 2, pp. 612-625, Feb. 2020. (IF: 8.793)

[14] Y. Zhang, J. Wang and Zhengshuo Li, “Interval state estimation with uncertainty of distributed generation and line parameters in unbalanced distribution systems,” IEEE Transactions on Power Systems, vol. 35, no. 1, pp. 762-772, Jan. 2020. (IF: 6.663)

[15] Zhengshuo Li, H. Sun, Q. Guo, J. Wang and G. Liu, "Generalized master-slave-splitting method and application to transmission-distribution coordinated energy management," IEEE Transactions on Power Systems, vol. 34, no.6, pp. 5169-5183, Nov. 2019. (IF: 6.663)

[16] J. Yu, Zhengshuo Li, Y. Guo and H. Sun, "Decentralized chance-constrained economic dispatch for integrated transmission-district energy systems," IEEE Transactions on Smart Grid, vol. 10, no. 6, pp. 6724-6734, Nov. 2019. (IF: 8.960)

[17] L. Deng, Zhengshuo Li, H. Sun, Q. Guo, Y. Xu, R. Chen, J. Wang and G. Ye, "Generalized locational marginal pricing in a heat-and-electricity-integrated market," IEEE Transactions on Smart Grid, vol. 10, no. 6, pp. 6414-6425, Nov. 2019.  (IF: 8.960)

[18] Zhengshuo Li, J. Wang, H. Sun, F. Qiu, and Q. Guo, "Robust estimation of reactive power for an active distribution system," IEEE Transactions on Power Systems, vol. 34, no.5, pp. 3395-3407, Sept. 2019. (IF: 6.663)

[19] H. Sun, Q. Guo, J. Qi, V. Ajjarapu, R. Bravo, J. Chow, Zhengshuo Li, R. Moghe, E. Nasr-Azadani, U. Tamrakar, G. N. Taranto, R. Tonkoski, G. Valverde, Q. Wu and G. Yang, "Review of challenges and research opportunities for voltage control in smart grids," IEEE Transactions on Power Systems, vol. 34, no. 4, pp. 2790 - 2801, Jul, 2019. (IF: 6.663)

[20] S. Fan, Zhengshuo Li, Z. Li and G. He, "Evaluating and increasing the renewable energy share of customers’ electricity consumption," IEEE Access, vol. 7, pp. 129200-129214, 2019. (IF: 3.745)

[21] Y. Zhang, J. Wang and Zhengshuo Li, “Uncertainty modeling of distributed energy resources: Techniques and challenges,” Current Sustainable and Renewable Energy Reports, vol. 6, no.2, pp. 42-51, Jun. 2019.

[22] Y. Chen, Q. Guo, H. Sun, Zhengshuo Li, Z. Pan and W. Wu, "A water mass method and its application to integrated heat and electricity dispatch considering thermal inertias," Energy, vol. 181, pp. 840-852, 2019. (IF: 7.147)

[23] H. Jin, Zhengshuo Li, H. Sun, Q. Guo and B. Wang, "Coordination on industrial load control and climate control in manufacturing industry under TOU Prices," IEEE Transactions on Smart Grid, vol. 10, no. 1, pp. 139-152, Jan. 2019. (IF: 8.960)

[24] Y. Xu, H. Sun, W. Gu, Y. Xu and Zhengshuo Li, "Optimal distributed control for secondary frequency and voltage regulation in an islanded microgrid," IEEE Transactions on Industrial Informatics, vol. 15, no. 1, pp. 225-235, Jan. 2019. (IF: 10.215)

[25] Zhengshuo Li, Q. Guo, H. Sun and J. Wang, "Extended sufficient conditions for exact relaxation of the complementarity constraints in storage-concerned economic dispatch," CSEE Journal of Power and Energy Systems, vol. 4, no. 4, pp. 504-512, Dec. 2018. (IF: 3.938)

[26] Zhengshuo Li, Q. Guo, H. Sun, J. Wang, Y. Xu and M. Fan, "A distributed transmission-distribution-coupled static voltage stability assessment method considering distributed generation," IEEE Transactions on Power Systems, vol. 33, no. 3, pp. 2621-2632, May 2018. (IF: 6.663)

[27] Zhengshuo Li, Q. Guo, H. Sun and J. Wang, "A new LMP-sensitivity-based heterogeneous decomposition for transmission and distribution coordinated economic dispatch, " IEEE Transactions on Smart Grid, vol. 9, no. 2, pp. 931-941, March 2018. (IF: 8.960)

[28] M. Fan, K. Sun, D. Lane, W. Gu, Zhengshuo Li and F. Zhang, "A novel generation rescheduling algorithm to improve power system reliability with high renewable energy penetration," IEEE Transactions on Power Systems, vol. 33, no. 3, pp. 3349-3357, May 2018. (IF: 6.663)

[29] Zhengshuo Li, Q. Guo, H. Sun and J. Wang, "Coordinated transmission and distribution AC optimal power flow," IEEE Transactions on Smart Grid, vol. 9, no. 2, pp. 1228-1240, March 2018. (IF: 8.960)

[30] H. Jin, Zhengshuo Li, H. Sun, Q. Guo and B. Wang, "A two-stage reactive power optimization in transmission network incorporating reserves from voltage-dependent loads," Energy, vol. 157, pp. 752-763, 2018. (IF: 6.082)

[31] S. Fan, Zhengshuo Li, J. Wang, L. Piao and Q. Ai, "Cooperative economic scheduling for multiple energy hubs: A bargaining game theoretic perspective," IEEE Access, vol. 6, pp. 27777-27789, 2018. (IF: 3.745)

[32] Y. Chen, Q. Guo, H. Sun, Zhengshuo Li, W. Wu and Z. Li, "A distributionally robust optimization model for unit commitment based on Kullback–Leibler divergence," IEEE Transactions on Power Systems, vol. 33, no. 5, pp. 5147-5160, Sept. 2018. (IF: 6.663)

[33] Zhengshuo Li, Q. Guo, H. Sun and J. Wang, "Impact of coupled transmission-distribution on static voltage stability assessment," IEEE Transactions on Power Systems, vol. 32, no. 4, pp. 3311-3312, Jul. 2017. (IF: 6.663)

[34] Zhengshuo Li, Q. Guo, H. Sun and T. Xu, "Equivalencing-tracking-based method for incorporating distributed energy resources in transmission system economic dispatch," The Journal of Engineering, vol. 2017, no. 13, pp. 1029-1034, 2017.

[35] H. Jin, Zhengshuo Li, H. Sun, Q. Guo, R. Chen and B. Wang, "A robust aggregate model and the two-stage solution method to incorporate energy intensive enterprises in power system unit commitment," Applied Energy, vol. 206, pp. 1364-1378, 2017. (IF: 9.746)

[36] Zhengshuo Li, Q. Guo, H. Sun and J. Wang, "Coordinated economic dispatch of coupled transmission and distribution systems using heterogeneous decomposition," IEEE Transactions on Power Systems, vol. 31, no. 6, pp. 4817-4830, Nov. 2016. (IF: 6.663)

[37] Zhengshuo Li, Q. Guo, H. Sun and J. Wang, "Sufficient conditions for exact relaxation of complementarity constraints for storage-concerned economic dispatch," IEEE Transactions on Power Systems, vol. 31, no. 2, pp. 1653-1654, March 2016. (IF: 6.663)

[38] Zhengshuo Li, J. Wang, H. Sun and Q. Guo, "Transmission contingency screening considering impacts of distribution grids," IEEE Transactions on Power Systems, vol. 31, no. 2, pp. 1659-1660, March 2016. (IF: 6.663)

[39] Zhengshuo Li, J. Wang, H. Sun and Q. Guo, "Transmission contingency analysis based on integrated transmission and distribution power flow in smart grid," IEEE Transactions on Power Systems, vol. 30, no. 6, pp. 3356-3367, Nov. 2015. (IF: 6.663)

[40] H. Sun, Q. Guo, B. Zhang, Y. Guo, Zhengshuo Li and J. Wang, "Master-slave-splitting based distributed global power flow method for integrated transmission and distribution analysis," IEEE Transactions on Smart Grid, vol. 6, no. 3, pp. 1484-1492, May 2015. (IF: 8.960)

[41] Zhengshuo Li, Q. Guo, H. Sun and J. Wang, "Storage-like devices in load leveling: Complementarity constraints and a new and exact relaxation method," Applied Energy, vol. 151, pp. 13-22, 2015. (IF: 9.746)

[42] C. Chen, J. Wang, Zhengshuo Li, H. Sun and Z. Wang, "PMU uncertainty quantification in voltage stability analysis," IEEE Transactions on Power Systems, vol. 30, no. 4, pp. 2196-2197, July 2015. (IF: 6.663)

[43] Zhengshuo Li, Q. Guo, H. Sun, S. Xin and J. Wang, "A new real-time smart-charging method considering expected electric vehicle fleet connections," IEEE Transactions on Power Systems, vol. 29, no. 6, pp. 3114-3115, Nov. 2014. (IF: 6.663)

[44] Q. Guo, S. Xin, H. Sun, Zhengshuo Li and B. Zhang, "Rapid-charging navigation of electric vehicles based on real-time power systems and traffic data," IEEE Transactions on Smart Grid, vol. 5, no. 4, pp. 1969-1979, July 2014. (IF: 8.960)

[45] Zhengshuo Li, Q. Guo, H. Sun, Y. Wang and S. Xin, "Emission-concerned wind-EV coordination on the transmission grid side with network constraints: Concept and case study," IEEE Transactions on Smart Grid, vol. 4, no. 3, pp. 1692-1704, Sept. 2013. (IF: 8.960)

[46] Q. Guo, Y. Wang, H. Sun, Zhengshuo Li, S. Xin and B. Zhang, "Factor analysis of the aggregated electric vehicle load based on data mining," Energies, vol. 5, no. 6 pp. 2053-2070, 2012. (IF: 3.004)

[47] 高晗, 李正烁*.考虑电转气响应特性与风电出力不确定性的电-气综合能源系统协调调度.电力自动化设备, 2021, 41(9): 24-30.(官微优文

[48] 周瑜, 李正烁*.双馈风力发电场无功支撑范围的鲁棒估计.电力系统自动化, 2020, 45(5): 86-96.

[49] 张宇超, 吴文传, 李正烁, 袁宇波, 王黎明.考虑分布式电源影响的分层分区精细化切负荷方法.电网技术, 2019, 43(3): 998-1005.

[50] 王斐, 李正烁, 叶萌, 郭庆来, 王珂, 孙宏斌, 杨天宇.电动汽车充电对电网的影响及其优化调度研究述评.南方电网技术, 2016, 10(6): 70-80.

[51] 晋宏杨, 孙宏斌, 郭庆来, 陈润泽, 李正烁.含大规模储热的光热 电站—风电联合系统多日自调度方法.电力系统自动化, 2016, 40(11): 17-23.

[52] 李正烁, 郭庆来, 孙宏斌, 辛蜀骏.电动汽车集群内的递阶分散最优充电方法.电力建设, 2015, 36(7): 114-119.

[53] 陈润泽, 孙宏斌, 李正烁, 刘一兵.含储热光热电站的电网调度模型与并网效益分析.电力系统自动化, 2014, 38(19): 1-7.

[54] 刘一兵, 吴文传, 张伯明, 巨云涛, 李正烁.基于有功-无功协调优化的主动配电网过电压预防控制方法.电力系统自动化, 2014, 38(9): 184-191.

[55] 刘一兵, 吴文传, 张伯明, 李正烁, 巨云涛.基于混合整数二阶锥规划的三相有源配电网无功优化.电力系统自动化, 2014, 38(15): 58-64.

[56] 李正烁, 郭庆来, 孙宏斌, 辛蜀骏.计及电动汽车充电预测的实时充电优化方法.电力系统自动化, 2014, 38(9): 61-68.

[57] 刘一兵, 吴文传, 张伯明, 李正烁, 李志刚.基于混合整数二阶锥规划的主动配电网有功-无功协调多时段优化运行.中国电机工程学报, 2014, 34(16): 2575-2583.

[58] 徐峰达, 郭庆来, 孙宏斌, 张伯明, 王彬, 李正烁, 丁涛, 贾琳, 许晓菲.多风场连锁脱网过程分析与仿真研究.电网技术, 2014, 38(6): 1425-1431.

[59] 李正烁, 孙宏斌, 郭庆来, 王尧.计及碳排放的输电网侧“风–车协调”研究.中国电机工程学报, 2012, 32(10): 41-48.


获授权中国、美国发明专利14项:

[1]

李正烁,孙宏斌,郭庆来.输电网预想事故分析的方法及装.(中国发明专利,授权编号:2017104030298

[2]

李正烁,袁朝勇,严学庆,赵荣兴.微网离网模式下基于逆变器提供无功支撑的方法.(中国发明专利,授权编号:2013103481475)

[3]

李正烁,袁朝勇,严学庆,赵荣兴. 铅酸电池模型经验公式法中关键参数抗差辨识方法.(中国发明专利,授权编号:2013103478557)

[4]

李正烁,袁朝勇,严学庆,赵荣兴.微网离网模式下基于逆变器的分布式调频方法.(中国发明专利,授权编号:2013103463994)

[5]

李正烁,袁朝勇,严学庆,赵荣兴. 利用分布式蓄电池储能站平衡微网失配功率的控制方法. (中国发明专利,授权编号:2013103482711)

[6]

孙宏斌,郭庆来,张伯明,吴文传,李正烁,辛蜀骏.一种基于单辆电动汽车充电预测的电动汽车实时充电方法.(中国发明专利,授权编号:2013106184396)

[7]

孙宏斌,郭庆来,张伯明,吴文传,李正烁,辛蜀骏.一种基于电动汽车集群充电预测的电动汽车实时充电方法.(中国发明专利,授权编号:2013106250913)

[8]

孙宏斌,郭庆来,张伯明,吴文传,李正烁,辛蜀骏.一种对集群内电动汽车充电功率的分布式优化方法.(中国发明专利,授权编号:2012104365640)

[9]

郭庆来,孙宏斌,张伯明,吴文传,辛蜀骏,李正烁.一种计及交通信息与电网信息的电动汽车充电导航方法.(中国发明专利,授权编号:2012105538810)

[10]

郭庆来,孙宏斌,张伯明,吴文传,王尧,李正烁,辛蜀骏.一种基于智能交通系统的电动汽车充电路径规划方法.(中国发明专利,授权编号:2012101948731)

[11]

H. Sun, Q. Guo, B. Zhang, W. Wu, Zhengshuo Li and S. Xin. Method and system for charging electric vehicles in aggregation. (美国发明专利,授权编号:9248755)

[12]

H. Sun, Q. Guo, B. Zhang, W. Wu, Zhengshuo Li and S. Xin. Method and device for charging electric vehicle in power system. (美国发明专利,授权编号:9573477

[13]

H. Sun, Q. Guo, B. Zhang, W. Wu, Zhengshuo Li and S. Xin. Method and device for charging electric vehicle in power system. (美国发明专利,授权编号:9573481)

[14]

Q. Guo, H. Sun, B. Zhang, W. Wu, Y. Wang and Zhengshuo Li. Method and device for navigation electric vehicle in charging. (美国发明专利,授权编号:9228847)



承担科研项目

(1) 国家自然科学基金委员会,青年科学基金项目,52007105,主动配电网的鲁棒无功可调度能力研究,2021-01至2023-12,24万元,在研,主持 

(2) 中国科技部,国家重点研发计划,2019YFE0118400-1,基于多元柔性挖掘的主动配电网协同运行关键技术与仿真平台研究,2020-12至2023-11,190万元,在研,参与

(3) 中国电机工程学会,青年人才托举工程项目,JLB-2020-170,基于鲁棒可调度能力的输配协同滚动调度方法,2020-01至2021-12,2万元,在研,主持

(4) 中国博士后科学基金会,特别资助项目,2017T100078,基于“等值+追踪”模式的分布式能源分层调控方法研究,2017-11至2018-06,15万,结题,主持

(5) 中国博士后科学基金会,一等面上项目,2016M600091,计及可再生能源不确定性的分布式输配协同能量管理研究,2016-11至2018-06,8万,结题,主持

(6) 中国科技部,国家重点基础研究发展计划(973计划)项目,2013CB228200,源-网-荷协同的智能电网能量管理和运行控制基础研究,2013-01至2017-10,3000万元,结题,参加

(7) 中国科技部,国家高技术研究发展计划(863计划)项目,2013BAA01B01,含高比例间歇式能源的区域型智能电网集成综合示范,2013-01至2015-02,2019万元,结题,参加

(8) 中国科技部,国家高技术研究发展计划(863计划)项目,2011AA11290,兼容 V2G 技术的高性能电动汽车关键技术研究,2011-12至2014-01,2140万元,结题,参加

(9) 中国科技部,国家高技术研究发展计划(863计划)项目,2010DFA72760,面向中美清洁能源合作的电动汽车前沿技术研究,2010-11至2013-12,3000万元,结题,参加


招生类型

可培养学术型、专业型硕士和博士研究生



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