翟俊义

来源:伟德国际VICTOR1946责任编辑:杨相洲审核人:发布时间:2022-08-19浏览次数:12653

翟俊义

副教授 博士生导师

国家电网公司高级工程师

南方电网能源发展研究院客座研究员

山东省高等公司青创团队负责人

招收学术型/专业型硕士、学术型/专业型博士研究生,可推荐硕士生海内外名校读博深造

邮箱zhaijunyi@upc.edu.cn 手机:18515965017


教育经历

2010–2014

华北电力大学,电气与电子工程公司,电气工程及其自动化,学士

2014–2019

华北电力大学,电气与电子工程公司,电气工程,博士

2018–2019

英国伯明翰大学,电气与系统工程公司,电气工程,联合培养博士

工作经历

2019.08–2021.12

国网(苏州)城市能源研究院,城市能源产业与国际合作所,工程师

2022.01–2022.06

国网(苏州)城市能源研究院,城市能源产业与国际合作所,高级工程师

2022.07–2023.12

伟德国际VICTOR1946,伟德国际VICTOR1946,讲师

2024.01–至今

伟德国际VICTOR1946,伟德国际VICTOR1946,副教授

研究领域/招生方向

电力系统运行与控制、综合能源系统优化、电力市场、柔性直流系统、人工智能在电力系统中的应用等。

主讲课程

电力系统分析、电力系统故障检测与诊断、智能电网技术、Electrolysis system and hydrogen storage system等。

主持项目

主持/主研国家级/省部级纵向项目10余项,近五年主持/主研的代表性科研项目如下:

[1]国家自然科学基金青年项目,共享成品油管道输送绿醇的大型绿氢化工-电力系统协同调度研究,2026.01-2029.01,主持;

[2]国家科技重大专项子项,油气区电力系统微网分层分区协同与源荷储互动机制,2025.07-2030.07,主持;

[3]山东省自然科学基金项目,考虑多重不确定性的路电双网耦合运行方法,2023.01-2026.01,主持;

[4]江苏省自然科学基金项目,基于大数据驱动的城市综合能源系统分布式运营理论与方法,2021.01-2024.12,主持;

[5]英国皇家学会中英国际合作交流项目,可再生能源制氢系统能量管理与保护控制技术研究,2024.05-2026.05,中方负责人;

[6]自然资源保护协会合作项目,新能源入市背景下的中长期与现货电力市场发展机制研究,2025.11-2026.07,主持;

[7]中央高校基本科研项目,多重不确定环境下的微能网优化运行研究,2022.07-2025.07,主持;

[8]国家电网公司华北分部科技项目,考虑断面动态限额的柔直-抽蓄-新能源送出系统优化调度方法,2023.05-2025.05,主持;

[9]国网山东省电力公司科技项目,考虑多类型资源异质性的虚拟电厂动态聚合技术研究,2026.07-2027.12,主持;

[10]国网江苏省电力公司科技项目,基于大模型的城市能源系统能碳管理智能体研究,2026.01-2027.7,主持;

[11]中南电力设计院科技项目,区外直流电源优化协同策略及输电技术优选研究,2025.09-2026.12,主持;

[12]国电南瑞南京控制系统有限公司科技项目,基于人工智能的电网典型方式智能生成研究,2025.12-2026.12,主持;

[13]国家自然科学基金专项项目,可再生能源直流离网制氢系统电能传输变换与协同保护控制关键技术,2023.01-2027.01,主研;

[14]国家自然科学基金联合基金重点项目,含大规模新能源的交直流混联系统调度运营理论与方法研究,2019.12-2023.12,主研;

[15]国家重点研发计划子课题,高比例可再生能源并网的电力系统规划与运行基础理论,2017.01-2021.12,主研;

[16]国家自然科学基金中德合作交流项目,促进可再生能源大规模利用的能源系统优化,2019.12-2023.12,主研。

学术论文

以一作/通讯发表SCI/EI检索论文40余篇,近五年的代表性论文如下:

[1]Zhai Junyi, Gao Xianhui, Wang Sheng, Li Zhengmao, Wang Jianxiao. Dynamic hydrogen injection in integrated electricity-gas systems: a PDEs-embedded flexible operation strategy[J]. IEEE Trans. Smart Grid, 2026, early access. (SCI一区Top)

[2]Zhai Junyi, Shen Yi, Kang Zhongjian, Wu Zhi, Li Zhigang, Li Bin, Wang Jianxiao. Energy management for island electro-hydrogen microgrid via physically-bounded distributionally robust chance-constrained approach[J]. IEEE Trans. Sustainable Energy, 2025, early access. (SCI一区Top)

[3]Zhai Junyi, Jiang Yuning, Zhou Ming, Chen Wei, Shi Yuanming, Jones C N. Data-driven joint distributionally robust chance-constrained operation for multiple integrated electricity and heating systems[J]. IEEE Trans. Sustainable Energy, 2024, 15(3):1782-1798. (SCI一区Top)

[4]Zhai Junyi, Jiang Yuning, Shi Yuanming, Jones C N, Zhang Xiao-Ping. Distributionally robust joint chance-constrained dispatch for integrated transmission-distribution systems via distributed optimization[J]. IEEE Trans. Smart Grid, 2022, 13(3):2132-2147. (SCI一区Top)

[5]Zhai Junyi, Dai Xinliang, Jiang Yuning, Xue Ying, Hagenmeyer V, Jones C N, Zhang Xiao-Ping. Distributed optimal power flow for VSC-MTDC meshed AC/DC grids using ALADIN[J]. IEEE Trans. Power Systems, 2022, 37(6):4861-4873. (SCI一区Top)

[6]Zhai Junyi, Zhou Ming, Li Jianing, Zhang Xiao-Ping, Li Gengyin, Ni Chenyixuan, Zhang Wenyang. Hierarchical and robust scheduling approach for VSC-MTDC meshed AC/DC grid with high share of wind power[J]. IEEE Trans. Power Systems, 2021, 36(1):793-805. (SCI一区Top)

[7]Zhai Junyi, Wang Sheng, Guo Lei, Jiang Yuning, Kang Zhongjian, Jones C N. Data-driven distributionally robust joint chance-constrained energy management for multi-energy microgrid[J]. Applied Energy, 326, 2022. (SCI一区Top)

[8]Zhai Junyi, Jiang Yuning, Chen Xiao, Li Jianing, Jones C N, Zhang Xiao-Ping. Asynchronous decentralized adjustable robust operation for multi-area IEGS considering wind power uncertainty[J]. International Journal of Electrical Power & Energy Systems, 147, 2023. (SCI二区Top)

[9]Zhai Junyi, Jiang Yuning, Li Jianing, Jones C N, Zhang Xiao-Ping. Distributed adjustable robust optimal power-gas flow considering wind power uncertainty[J]. International Journal of Electrical Power & Energy Systems, 139, 2022. (SCI二区Top)

[10]Wang Xiaobin, Li Qi, Zhai Junyi*, Jiang Yuning, Wang Sheng, Wang Jianxiao. Flexible operation of virtual power plant enabled IEHS under multiple uncertainties via distributionally robust model predictive control[J]. Applied Energy, 404, 2026. (SCI一区Top, 员工一作)

[11]Wu Tianhao, Jiang Yuning, Cui Simeng, Li Zhengmao, Wang Sheng, Zhai Junyi*. Physically-bounded distributionally robust chance-constrained dispatch approach for power system with renewable power-to-ammonia[J]. Applied Energy, 402, 2026. (SCI一区Top, 员工一作)

[12]Gao Xianhui, Wang Sheng, Sun Ying, Zhai Junyi*, Chen Nan, Zhang Xiao-Ping. Low-carbon energy scheduling for integrated energy systems considering offshore hydrogen production and dynamic hydrogen doping strategy[J]. Applied Energy, 376, 2024. (SCI一区Top, 员工一作)

[13]Gao Xianhui, Wang Sheng, Sun Ying, Zhai Junyi*. Low-carbon operation of integrated electricity-gas system with hydrogen injection considering hydrogen mixed gas turbine and laddered carbon trading[J]. Applied Energy, 374, 2024. (SCI一区Top, 员工一作)

[14]Shen Yi, Zhai Junyi*, Kang Zhongjian*, Zhao Bei, Gao Xianhui, Li Zhengmao. Distributionally robust chance-constrained energy management for island DC microgrid with offshore wind power hydrogen production[J]. Energy, 316, 2025. (SCI一区Top, 员工一作)

[15]Han Lu, Chen Jiming, Chen Aikang, Gao Xianhui, Wang Sheng, Zhai Junyi*. Energy scheduling for integrated electricity-hydrogen systems considering multiphysics dynamics of hybrid water and biomass electrolysis [J]. Renewable Energy, 244, 2025. (SCI一区Top, 员工一作)

[16]Gao Xianhui, Zhai Junyi*, Hou Gaoyang, Li Zhengmao, Wang Sheng, Jianxiao Wang*. Low-carbon flexible operation strategy of integrated electricity-gas systems considering dynamic hydrogen injection[J]. Fuel, 2025, 406, 136881. (SCI二区Top, 员工一作)

[17]Song Duanyang, Yan Linfang, Zhu Di, Wang Sheng, Li Zhengmao, Edris Pouresmaeil, Zhai Junyi*. Quasi-dynamic dispatch approach for integrated electricity and hydrogen systems with multiphysics-constrained alkaline electrolysis modeling[J]. International Journal of Hydrogen Energy, 168, 2025. (SCI二区Top, 员工一作)

[18]Song Duanyang, Yan Linfang, Dai Xinliang, Zhu Xingyang, Hagenmeyer V, Zhai Junyi*. Low-carbon energy management for networked multi-energy microgrids using MASAC algorithm[J]. Sustainable Energy, Grids & Networks, 43, 2025, 101821. (SCI二区, 员工一作)

[19]Dai Xinliang, Jiang Yuning, Zhai Junyi*, Liu Jianlei, Schlachter Thorsten, Jones C N, Zhang Xiao-Ping, Hagenmeyer V. Distributed convex second-order optimization for AC/DC hybrid distribution systems within PROcess orchestration framework[J]. IEEE Trans. Power Systems, 2026, early access. (SCI一区Top)

[20]Wang Sheng, Khurram Hashmi, Li Hui, Li Duo, Zhai Junyi*. Enhancing offshore wind integration by integrated electricity and gas systems with hydrogen blending: the case of Ireland [J]. IEEE Trans. Sustainable Energy, 2026, early access. (SCI一区Top)

[21]Wang Sheng, Hui Hongxun*, Ding Yi, Zhai Junyi*. Decentralized demand response for energy hubs in integrated electricity and gas systems considering linepack flexibility[J]. IEEE Internet of Things Journal, 2024, 11(7):11848-11861. (SCI一区Top)

[22]Chen Xiao, Zhai Junyi*, Shen Jingwen, Wang Qingwei, Li Shanying, Wang Sheng*. Distributed and distributionally robust chance-constrained scheduling for VSC-MTDC meshed AC/DC power networks[J]. IEEE Trans. Network Science and Engineering, 2024, 11(4):3317-3331. (SCI二区Top)

[23]Wang Sheng, Zhai Junyi, Hui Hongxun, Ding Yi, Song Yonghua. Operational reliability of integrated energy systems considering gas flow dynamics and demand-side flexibilities[J]. IEEE Trans. Industrial Informatics, 2024, 20(2):1360-1373. (SCI一区Top)

[24]Wang Sheng, Zhai Junyi, Hui Hongxun. Optimal energy flow in integrated electricity and gas systems with injection of alternative gas based on convex optimization[J]. IEEE Trans. Sustainable Energy, 2023, 14(3):1540-1557. (SCI一区Top)

[25]Dai Xinliang, Zhai Junyi, Jiang Yuning, Guo Ye, Jones C N, Hagenmeyer V. Advancing distributed AC optimal power flow for integrated transmission-distribution systems[J]. IEEE Trans. Network Science and Engineering, 2025, 12(2):1210-1223. (SCI二区Top)

获奖荣誉

国网华北分部科技进步二等奖;

国网能源院科技进步一等奖;

IEEE trans. Sustainable Energy最佳论文奖(每年仅5篇);

中国知网高影响力论文奖;

研究生指导情况:在读研究生16名,组内多名研究生获优秀毕业生、国家奖学金、研究生工程十佳

学术兼职

担任SCI期刊Scientific Reports编辑,SustainabilityEnergiesProcess客座编辑,EJORMATTODTPWRSTSGTSTEPELAPENTNSEEGYMPCEPCMP30余本国际权威期刊审稿人。