王召健

职称:长聘教轨副教授

邮箱:wangzhaojian@sjtu.edu.cn

地址:电信群楼2-433

招才引智

有意者欢迎发邮件至 wangzhaojian@sjtu.edu.cn

1. 2024年入学名额已招满。

教育经历


2013. 08-2018.07,清华大学,电机工程与应用电子技术系,获博士学位

2016. 09-2017.09,California Institute of Technology,Electrical Engineering,联培博(公派)

2009. 09-2013. 07,天津大学,求是学部,获学士学位


工作经历



2020. 10-至今,上海交通大学,自动化系,助理教授

2018. 07-2020.10,清华大学,电机工程与应用电子技术系,博士后



科研方向



综合能源系统、电力系统

分布式控制、优化、博弈

强化学习



科研项目



  1. 主持,自然科学基金青年项目,“共享市场均衡引导的综合能源系统分布式控制”,在研
  2. 主持课题,上海市“科技创新行动计划”,“上海大型海上风电集群发电效能提升关键技术研究”,在研
  3. 主持,上海市“晨光计划”,“基于博弈论的区域电力市场运行演化与调控理论研究”,在研
  4. 主持,企业横向,“纺织企业智能化生产及能源优化项目”,在研
  5. 主持,企业横向,“含大规模储能的纯新能源系统电压控制研究”,已结题



学术服务

期刊编委(Associate Editor):IEEE Transactions on Power Systems, IEEE Systems Journal, Sustainable Computing: Informatics & Systems

科研成果

1. 专著

F. Liu, Z. Wang, C. Zhao, P. Yang, Merging Optimization and Control in Power Systems, Wiley & IEEE, 2022.


2. 代表性论文

1)    Z. Wang, W. Wei, J. Z.F. Pang, F. Liu, B. Yang, X. Guan, S. Mei, “Online Optimization in Power Systems with High Penetration of Renewable Generation: Advances and Prospects”, IEEE/CAA Journal of Automatica Sinica, in press.

2)    Z. Wang, B. Yang, W. Wei, S. Zhu, X. Guan, and D. Sun, “Multi-Energy Microgrids: Designing, operation under new business models, and engineering practices in China”, IEEE Electrification Magazine, vol. 9, no. 3, pp. 75-82, Sept. 2021.

3)    Z. Wang, F. Liu, Z. Ma, Y. Chen, M. Jia, W. Wei, and Q. Wu, “Distributed Generalized Equilibrium Seeking for Energy Sharing Game in Prosumers”, IEEE Transactions on Power Systems, vol. 36, no. 5, pp. 3973-3986, Sept. 2021.

4)    Z. Wang, W. Wei, C. Zhao, Z. Ma, Z. Zheng, Y. Zhang, and F. Liu, “Exponential Stability of Partial Primal-Dual Gradient Dynamics with Nonsmooth Objective Functions”, Automatica, DOI: 10.1016/j.automatica.2021.109585.

5)    Z. Wang, F. Liu, Y. Su, P. Yang and B. Qin, “Asynchronous Distributed Voltage Control in Active Distribution Networks”, Automatica, DOI: 10.1016/j.automatica. 2020.109269.

6)    Z. Wang, F. Liu, S. Low, P. Yang and S. Mei, “Distributed Load-Side Control: Coping with the Variation of Renewable Generations”, Automatica, DOI: 10.1016/j.automatica. 2019.108556. (Regular paper)

7)    Z. Wang, F. Liu, C. Zhao, Z. Ma and W. Wei, “Distributed Optimal Load Frequency Control Considering Nonsmooth Cost Functions”, Systems & Control Letters, DOI: 10.1016/j. sysconle.2019.104607.

8)    Z. Wang, L. Chen, F. Liu, P. Yi, and M. Cao, S. Deng, S. Mei, “Asynchronous Distributed Power Control of Multimicrogrid Systems,” IEEE Transactions on Control of Network Systems, vol. 7, no. 4, pp. 1960-1973, Dec. 2020.

9)    Z. Wang, F. Liu, J. Pang, S. Low, and S. Mei, “Distributed optimal frequency control considering a nonlinear network-preserving model,” IEEE Transactions on Power Systems, vol. 34, no. 1, pp. 76-86, Jan 2019.

10)  Z. Wang, F. Liu, Y. Chen, S. Low, and S. Mei, “Unified distributed control of stand-alone dc microgrids,” IEEE Transactions on Smart Grid, vol. 10, no. 1, pp. 1013 - 1024, Jan 2019.

11)  Z. Wang, F. Liu, S. Low, C. Zhao, and S. Mei, “Distributed frequency control with operational constraints, part I: Per-node power balance,” IEEE Transactions on Smart Grid, vol. 10, no. 1, pp. 40 - 52, Jan 2019. (ESI Highly Cited Paper)

12)  Z. Wang, F. Liu, S. Low, C. Zhao, and S. Mei, “Distributed frequency control with operational constraints, part II: Network power balance,” IEEE Transactions on Smart Grid, vol. 10, no. 1, pp. 53 - 64, Jan 2019.

13)  Z. Wang, Y. Chen, S. Mei, S. Huang, and Y. Xu, “Optimal expansion planning of isolated microgrid with renewable energy resources and controllable loads,” IET Renewable Power Generation, vol. 11, no. 7, pp. 931–940, June 2017.

14)  R. Xie, Y. Chen, Z. Wang*, S. Mei, and F. Li, “Online Periodic Coordination of Multiple Pulsed Loads on All-Electric Ships”, IEEE Transactions on Power Systems, vol. 35, no. 4, pp. 2658 - 2669, July 2020. (*通信作者)



3. 专利

1) 一种基于逆变器散热器温度预测的过温预警方法。专利号:ZL202011442899.4,中国发明专利

2) 电力系统分布式频率控制方法及装置。专利号:ZL201810175807.7, 中国发明专利.

3) 直流多微网系统的统一分布式控制方法及系统。专利号:ZL201810371979.1, 中国发明专利.

4) 放射状直流配电网的分布式最优潮流计算方法及装置。专利号:ZL201610784342.6, 中国发明专利.

5) 一种含大量风机的电力系统短路电流的计算方法。专利号:ZL201610160725.6, 中国发明专利.

6) 一种自动发电控制方法。专利号: ZL201510112456.1, 中国发明专利.

7) 一种电力系统储能优化方法。专利号:ZL201310655191.0, 中国发明专利.

8) 一种回热式压缩空气储能系统效率的定量评估方法。专利号:ZL201310713473.1, 中国发明专利.

9) 一种具有RCAES的电力系统中机组组合的方法。专利号:ZL201410081768.6, 中国发明专利.

10) 分布式压缩空气储能系统的容量配置方法。专利号:ZL201410112539.6, 中国发明专利.

11) Method and system of efficiency evaluation of RCAES system, 专利号:US10837321B2, 美国专利.




返回上一级