姓名:王程
职称:副教授,硕士生导师
所在院系:澳门新浦新京网页
联系方式
办公地址:主楼A座403
电子邮箱:chengwang@ncepu.edu.cn
一、个人简介
王程,男,副教授,博士生导师。2012年、2017年在清华大学电机系获得学士、博士学位,2015年9月至2016年9月为美国阿贡国家实验室联合培养博士研究生。2017年8月加入澳门新浦新京网页毕天姝教授团队,主要从事新能源电力系统频率支撑控制与有功优化研究工作,先后主持国自科项目2项、国家重点研发计划子课题1项、央企联合重大攻关项目4项。
以第1/通信作者发表国内外高水平期刊论文48篇,其中IEEE Trans.论文24篇,总影响因子超过250,Google Scholar引用1600余次;授权国家发明专利25件、美国发明专利2件。获IEEE Trans. on Power Systems 2017-2019年度最佳论文奖(获奖率约6‰),EI2会议最佳论文奖等学术奖励,入选中国电机工程学会“青年人才托举计划”(第七届),获评IEEE Trans. on Power System、IEEE Trans. on Sustainable Energy 杰出审稿人奖。担任IEEE PES 电力系统保护与控制技术委员会(中国)未来电网形态与保护控制技术分委会常务理事,担任Protection and Control of Modern Power Systems(PCMP)副编辑,担任IET Renewable Power Generation期刊综合能源系统方向专刊客座编委。
二、教学与人才培养情况
1. 教学课程
电力系统继电保护原理,2019年起,48学时,本科生
电力系统继电保护原理(英文),2021年起,48学时,职工
综合能源系统建模与分析,2021年起,16学时,研究生
2. 员工获得荣誉
巩志皓,国家奖学金(硕士)、北京市优秀毕业生,2020
Ahmed Rabee,中国政府优秀来华职工奖学金(国家留学基金委,华电当年度仅2人),2019
三、主要科研项目
[1] 国家自然科学基金面上项目,主动支撑电网频率的区域电-气综合能源系统运行控制方法, 2022.01-2025.12
[2] 国家自然科学青年基金,数据驱动的综合能源系统鲁棒调度控制方法研究,2019.01-2021.12
[3] 国家重点研发计划子课题,规模化储能与风光水火电源提供稳定支撑的协同优化调控方法, 2022.1-2024.12
[4] 国家电网公司总部科技项目课题,基于多能互补和源网荷储互动的规划与运行技术研究, 2022.01-2023.12
[5] 中国长江三峡集团科技项目课题,电网友好的风光储场站群智能优化调控技术研究, 2021.6-2023.12
[6] 国网电网公司总部科技项目课题,计及频率稳定约束的新能源高占比电网惯量安全评估与在线预警方法研究, 2021.01-2023.12
四、主要获奖
[1] 2020 IEEE Trans. on Power Systems 2017-2019年度最佳论文奖(约1500选8)
[2] 《中国电机工程学报》2021年度“高影响力论文”奖
[3] 2020《全球能源互联网》年度优秀审稿专家
[4] 2020 IEEE Trans. on Sustainable Energy期刊优秀审稿人
[5] IEEE能源互联网与能源系统集成(EI2)会议最佳论文奖(2018年度)
[6] 2018 IEEE Trans. on Power Systems 期刊优秀审稿人
[7] 2018 IEEE Trans. on Sustainable Energy 期刊优秀审稿人
[8] 2017 IEEE Trans. on Power Systems 期刊优秀审稿人
五、代表性论文
[1] Jiahao Liu, Cheng Wang*, Junbo Zhao, Bendong Tan, Tianshu Bi, “Simplified Transient Model of DFIG Wind Turbine for Power System Frequency Dynamics Analysis”, IEEE Trans. Power Systems, in press.
[2] Jingyao Wang, Yao Li, Jiayu Bian, Zhiyong Yu, Min Zhang, Cheng Wang*, Tianshu Bi, “Multi-stage resilient operation strategy of urban electric–gas system against rainstorms”, Applied Energy, 348(2023), 121507.
[3] Cheng Wang*, Rui Zhang, Tianshu Bi, “Energy Management of Distribution-level Integrated Electric-Gas Systems with Fast Frequency Reserve”, IEEE Trans. Power Systems, in press.
[4] Jiahao Liu, Cheng Wang*, Junbo Zhao, Tianshu Bi, “RoCoF Constrained Unit Commitment Considering Spatial Difference in Frequency Dynamics”, IEEE Trans. Power Systems, in press, DOI: 10.1109/TPWRS.2023.3240776
[5] Cheng Wang, Ahmed Rabee*, Han Zhang, Zhang Xian*, Jianpeng Ren, Qiyue Jia, Tianshu Bi, “Two-stage distributionally robust strategic offering in pool-based coupled electricity and gas market”, Energy, 2023, 265, 126288.
[6] Ahmed Rabee, Cheng Wang*, H Anis, Tianshu Bi, “Feasibility Constrained Online Calculation for Real-time Optimal Power Flow: A Convex Constrained Deep Reinforcement Learning Approach”, IEEE Trans. Power Systems, in press, DOI: 10.1109/TPWRS.2022.3220799
[7] Cheng Wang*,Hongyu Liu, Kehong Wu, Qiyue Jia, Tianshu Bi, “Optimal Gas-Power Flow Calculation with Lightweight Gas Flow Dynamics”, IEEE Trans. Smart Grid, 2023, 14(2), 965-978.
[8] Jiahao Liu, Cheng Wang*, Tianshu Bi, Guoyi Xu, “Online Estimation of POI-level Aggregated Inertia Considering Frequency Spatial Correlation”, IEEE Trans. Power Systems, 2023, 38(4), 3232-3244.
[9] Cheng Wang*, Qiyue Jia, Yile Liang, “Energy Management of Integrated Electric-Gas Prosumers with Peer-to-Peer Trading: A GNE Approach”, CSEE Journal of Power and Energy Systems. In press.
[10] Zhaohao Ding, Kaiyuan Yu, Cheng Wang*, Wei-Jen Lee, “Transmission Line Overload Risk Assessment Considering Dynamic Line Rating Mechanism in High Wind Penetrated Power System: A Data-Driven Approach”, IEEE Trans. Sustainable Energy, 2022, 13(2), 1112-1122.
[11] Chuang Liu, Cheng Wang*, Yuzhang Lin, Tianshu Bi, “Robust Unit Commitment of Integrated Electric-Heat Systems with Weather Parameter Driven Uncertainties”, IEEE Systems Journal. 2022, 16(3), 4641-4652.
[12] Ahmed Rabee, Cheng Wang*, Sheng Chen, Ce Shang, Tianshu Bi, “Distributionally Robust Day-ahead Operation of Power Systems with Two-stage Gas Contracting”, Energy, 2021, 231,120840.
[13] Jingyao Wang, Cheng Wang*, Yile Liang, Tianshu Bi, et.al. “Data-Driven Chance-Constrained Optimal Gas-Power Flow Calculation: A Bayesian Nonparametric Approach”, IEEE Trans. Power Syst. 2021, 36(5), 4683-4698.
[14] Cheng Wang*, Zhihao Gong, Chuan He, Hongjun Gao, Tianshu Bi, “Data-driven Adjustable Robust Unit Commitment of Integrated Electric-Heat Systems”, IEEE Trans. Power Syst., 2021, 36(2), 1385-1398.
[15] Nan Jia, Cheng Wang*, Yao Li, Nian Liu, Tianshu Bi, “Two-stage Robust Dispatch of Multi-Area Integrated Electric-Gas Systems: A Decentralized Approach”, CSEE Journal of Power and Energy Systems. In press. DOI: 10.17775/CSEEJPES.2021.04010.
[16] Ahmed R. Sayed, Cheng Wang*, Wei Wei, Tianshu Bi, Mohammad Shahidehpour, “Robust Operational Equilibrium for Electricity and Gas Markets Considering Bilateral Energy and Reserve Contracts”, IEEE Trans. Power Syst., 2021, 36(4), 2891-2905.
[17] Nan Jia, Cheng Wang*, Wei Wei, Tianshu Bi, “Decentralized Robust Energy Management of Multi-Area Integrated Electric-Gas Systems”, J. Modern Power Syst. Clean Ener., 2021, 9(6), 1478-1489.
[18] Cheng Wang*, Ning Gao, Jianhui Wang, Nan Jia, Tianshu Bi, Kenneth Martin, “Robust Operation of a Water-Energy Nexus: A Multi-energy Perspective”, IEEE Trans. Sustain. Energy, 2020, 11(4), 2698-2712.
[19] Cheng Wang*, Zhihao Gong, Yile Liang, Wei Wei, Tianshu Bi, “Data-Driven Wind Generation Admissibility Assessment of Integrated Electric-Heat Systems: A Dynamic Convex Hull Based Approach”, IEEE Trans. Smart Grid, 2020, 11(5), 4531-4543.
[20] Cheng Wang*, Song Wang, Feng Liu, Tianshu Bi, Tiezhu Wang, “Risk-Loss Coordinated Admissibility Assessment of Wind Generation for Integrated Electric-Gas Systems”, IEEE Trans. Smart Grid, 2020, 11(5), 4454-4465.
[21] Nian Liu, Linjie Zhou, Cheng Wang*, Xinghuo Yu, Xiyuan Ma, “Heat-electricity Coupled Peak Load Shifting for Multi-energy Industrial Parks: A Stackelberg Game Approach”, IEEE Trans. Sustain. Energy, 2020, 11(3), 1858 - 1869.
[22] Cheng Wang*, Chuang Liu, Yuzhang Lin, Tianshu Bi, “Day-ahead Dispatch of Integrated Electric-Heat Systems Considering Weather-Parameter-Driven Residential Thermal Demands”, Energy, 2020, 203, 1-15.
[23] Ahmed R. Sayed, Cheng Wang*, Junbo Zhao, Tianshu Bi, “Distribution-level Robust Energy Management of Power Systems Considering Bidirectional Interactions with Gas Systems”, IEEE Trans. Smart Grid, 2020, 11(3), 2092-2105.
[24] Yile Liang, Wei Wei, Cheng Wang*, “A Generalized Nash Equilibrium Approach for Autonomous Energy Management of Residential Energy Hubs”, IEEE Trans. Indus. Info., 2019, 15(11), 5892 - 5905.
[25] Cheng Wang*, Rui Gao, Wei Wei, Shafie-khah Miadreza, Tianshu Bi, Joao Catalao, “Risk-based Distributionally Robust Optimal Gas-Power Flow With Wasserstein Distance”, IEEE Trans. Power Syst., 2019, 34(3), 2190 - 2204.
[26] Cheng Wang*, Wei Wei, Jianhui Wang, Tianshu Bi, “Convex Optimization Based Adjustable Robust Dispatch for Integrated Electric-Gas Systems Considering Gas Delivery Priority”, Applied Energy, 2019, 239, 70-82.
[27] Ahmed R. Sayed, Cheng Wang*, Tianshu Bi, “Resilient Operational Strategies for Power Systems Considering the Interactions with Natural Gas Systems”, Applied Energy, 2019, 241, 548-566.
[28] Cheng Wang, Rui Gao, Feng Qiu*, Jianhui Wang, Linwei Xin., “Risk-Based Distributionally Robust Optimal Power Flow With Dynamic Line Rating”, IEEE Trans. Power Syst., 2018, 33(6), 6074-6086.
[29] Cheng Wang, Wei Wei*, Jianhui Wang, Lei Wu, Yile Liang, “Equilibrium of Interdependent Gas and Electricity Markets with Marginal Price Based Bilateral Energy Trading”, IEEE Trans. Power Syst., 2018, 33(5), 4854-4867.
[30] Cheng Wang, Wei Wei*, Jianhui Wang, Linquan Bai, Yile Liang, Tianshu Bi, “Convex Optimization Based Distributed Optimal Gas-Power Flow Calculation”, IEEE Trans. Sustain. Energy, 2018, 9(3): 1145-1156.
[31] Cheng Wang, Wei Wei, Jianhui Wang, Feng Liu*, Shengwei Mei, “Strategic Offering and Equilibrium in Coupled Gas and Electricity Markets”, IEEE Trans. Power Syst., 2018, 33(1): 290-306.
[32] Cheng Wang, Wei Wei*, Jianhui Wang, Feng Liu, Feng Qiu, Shengwei Mei, “Robust Defense Strategy for Gas-Electric Systems Against Malicious Attacks”, IEEE Trans. Power Syst., 2017, 32(4): 2953-2965.
[33] Cheng Wang, Feng Liu*, Jianhui Wang, Feng Qiu, Wei Wei, Shengwei Mei, “Robust Risk-Constrained Unit Commitment with Large-scale Wind Generation: An Adjustable Uncertainty Set Approach”, IEEE Trans. Power Syst., 2017, 32(1): 723-733.
[34] Cheng Wang, Feng Liu*, Jianhui Wang, Wei Wei, Shengwei Mei, “Risk-Based Admissibility Assessment of Wind Generation Integrated into a Bulk Power System”, IEEE Trans. Sustain. Energy, 2016, 7(1): 325-336.
[35] Ning Gao, Cheng Wang*, Nian Liu, Tianshu Bi, “Chance-Constrained Operation of the Water-Energy Nexus with Conflicting Objectives”, IET Energy Systems Integration, 2021, 3(2), 184-201.
[36] 李瑶, 王程*, 毕天姝. 考虑随机-极端扰动的新型电力系统一次调频备用优化[J/OL]. 中国电机工程学报: 1-15. [2023-05-05].
[37] 杨牧青, 王程*, 葛辰雨, 毕天姝, 王新刚, 周专. 考虑多阻尼状态与限幅环节的新能源电力系统一次调频备用整定[J/OL]. 中国电机工程学报: 1-15. [2022-09-04].
[38] 张蕊, 王程*, 王海云, 于希娟, 陈茜, 毕天姝. 主动支撑电网频率的园区多能微网优化运行[J]. 中国电机工程学报, 2023, 43(03), 889-904.
[39] 刘家豪, 王程*, 毕天姝. 面向新能源电力系统频率时空动态的节点等效惯量指标及其应用[J/OL]. 中国电机工程学报: 1-16 [2022-08-03].
[40] 许康平, 王程*, 毕天姝. 基于气网动态代理模型的电-气综合能源系统最优能流计算[J]. 中国电机工程学报, 2023, 43(09), 3415-3429.
[41] 王敬尧, 王程*, 许康平, 毕天姝, 王新刚, 周专. 基于气网动态精细化建模的区域电-气综合能源系统机会约束最优能流[J]. 电力自动化设备, 2023, 43(03), 12-19.
[42] 张涵, 王程*, 毕天姝. 融合物理与数据知识的电力系统扰动后频率在线快速计算方法[J]. 电网技术, 2022, 46(11), 4325-4335.
[43] 王程*, 吴科宏, 贾起越, 王敬尧, 毕天姝. 基于显式差分的区域电-气综合能源系统动态能流计算方法[J]. 中国电机工程学报, 2022, 42(16), 5775-5785+6155.
[44] 胡俊杰, 刘雪涛, 王程*. 考虑网络约束的能量枢纽灵活性价值评估[J]. 中国电机工程学报, 2022, 42(05), 1799-1813.
[45] 丁肇豪, 余开媛, 王程*. 考虑动态输送容量机制的电力传输线过载风险评估[J]. 电力系统自动化, 2021, 45(09): 146-152.
[46] 张勇, 李晨, 贾楠, 刘念, 王程. 基于改进二阶锥松弛的多区域电-气综合能源系统优化调度快速求解方法[J]. 电力自动化设备, 2020, 40(07): 39-45+52+46-47.
[47] 陈柏沅, 王程*, 吴陈硕 ,刘念 ,何帅. 基于联合出清机制的电-热综合能源市场均衡分析[J]. 电网技术, 2020, 44(08): 2848-2858.
[48] 王程*, 汪松, 毕天姝. 含燃气发电综合能源系统风电消纳能力评估[J].中国电机工程学报, 2020, 40(07): 2192-2201+2398.
六、授权发明专利
[1] 一种电力系统风电消纳能力评估方法,专利号:ZL 201811454403.8
[2] 一种具有紧密耦合关系的水-能联系网络模型的建立方法, 专利号:ZL 201910568710.7
[3] 一种考虑响应延时的储能快速调频控制方法,专利号:ZL 202110922975.X
[4] 一种考虑调速器限幅的同步机系统频率响应解析计算方法,专利号:ZL 202111593772.7
[5] 一种电-气综合能源系统的最优能流计算建模方法,专利号:ZL 202210544456.9
[6] 主动支撑主网频率的电-气综合能源系统运行控制方法,专利号:ZL 202210939289.8
[7] 一种适用所有阻尼状态的频率响应解析计算方法,专利号:ZL 202111492815.2
[8] 一种考虑调速器一般型死区的频率响应解析计算方法,专利号:ZL 202111560721.4
[9] 一种考虑调速器强化型死区的同步机系统频率响应解析计算方法,专利号:ZL 202111566050.2
[10] 一种天然气系统动态建模方法,专利号:ZL 202210534573.7
[11] 一种计及调速器死区与限幅环节的机组组合优化方法,专利号:ZL 202210157881.2
[12] 一种考虑调速器限幅环节频率稳定约束的建模方法,专利号:ZL 202210852308.3
[13] 一种电热综合能源系统风电消纳能力评估的方法,专利号:ZL 201911193254.9
[14] 一种基于显式差分的电-气综合能源系统动态能流的获取方法,专利号:ZL 202110684263.9
[15] 一种物理-数据联合驱动的电力系统频率预测方法,专利号:ZL 202110922955.2
[16] 一种考虑规模化电制氢运行特性的优化调度方法,专利号:ZL 202310393691.5[17] 一种考虑节点频率变化率约束的电力系统机组组合方法,专利号:ZL 202211423286.5
[18] 一种新能源电力系统频率态势的在线预测方法,专利号:ZL 202110812162.5
[19] 一种多能源网络与配水网耦合运行的优化方法,专利号:ZL 202010377682.3
[20] 基于QPSO的电力系统惯量及一次调频能力评估方法,专利号:ZL 202310518388.3