已见刊论文：

[1]张志杰, 姚伟, 严才, 高磊, 文劲宇. 交直流混联系统非线性自适应广域附加控制器的设计[J]. 电力系统保护与控制, 2021, 49(23): 137-147.【R1806】

[2]Hongyu Zhou，Wei Yao，Xiaomeng Ai，Dahu Li，Jinyu Wen，Chenghao Li．Comprehensive review of commutation failure in HVDC transmission systems[J]．Electric Power Systems Research，2022， 205：107768．【1-2211】

[3]刘新苗, 卢洵, 娄源媛, 赵一帆, 魏利屾, 姚伟. 基于时序运行模拟的风火打捆最优容量配比整定[J].电力系统保护与控制, 2021, 49(21): 53-62.【R2002】

[4]Yifan Zhao, Wei Yao, Jiajun Nan, Xiaomeng Ai, Jiakun Fang, Jinyu Wen, Shijie Cheng. Resilient Adaptive Wide-Area Damping Control to Mitigate False Data Injection Attacks[J]. IEEE Systems Journal, vol. 15, no. 4, pp. 4831-4842, Dec. 2021.【1-2201】

[5]Runfeng Zhang, Wei Yao, Zhongtuo Shi, Lingkang Zeng, Yong Tang, Jinyu Wen. A Graph Attention Networks-based Model to Distinguish the Transient Rotor Angle Instability and Short-Term Voltage Instability in Power Systems[J]. International Journal of Electrical Power and Energy Systems,2022,137:107783.【1-2201】

[6]姚伟, 熊永新, 姚雅涵, 李勇, 辛焕海, 文劲宇. 海上风电柔直并网系统调频控制综述[J]. 高电压技术, 2021, 47(10): 3397-3413.【2101】

[7]姚雅涵, 姚伟, 熊永新, 张靖, 文劲宇. 经多端直流并网的海上风电场调频协同控制和风机转速恢复策略[J]. 高电压技术, 2021, 47(10): 3537-3548. 【1-2203】

[8]周泓宇, 李培平, 姚伟, 高东学, 李程昊, 文劲宇. 抑制直流后续换相失败的电化学储能有功控制策略[J]. 电力系统自动化, 2021, 45(19): 70-79. 【1-2211】

[9]李培平, 姚伟, 高东学, 张景超, 李程昊. 基于电化学储能的多馈入直流系统暂态控制及影响因素分析[J]. 电工技术学报, 2021, 36(S1):154-167.【1-2211】

[10]Hongyu Zhou, Wei Yao, Xiaomeng Ai, Jing Zhang, Jinyu Wen, Chenghao Li, Coordinated power control of electrochemical energy storage for mitigating subsequent commutation failures of HVDC[J]. International Journal of Electrical Power & Energy Systems, 2022, 134, 107455.【1-2211】

[11]Wei Yao, Jiajun Nan, Yifan Zhao, Jiakun Fang, Xiaomeng Ai, Wenping Zuo, Jinyu Wen， Shijie Cheng. Resilient wide-area damping control for inter-area oscillations to tolerate deception attacks [J]. IEEE Transactions on Smart Grid, vol. 12, no. 5, pp. 4238-4249, Sept. 2021.

[12]Kun Sun, Wei Yao, Cai Yan, Jinyu Wen. Impedance Modeling and Analysis of Medium-Frequency Oscillation Caused by VSC-HVDC Connected to Local Weak Grid and DFIG-Based Wind Farms[J]. Frontiers in Energy Research, 2021, 9: 693903. 【1-2202】

[13]Yao, W, Yan, C, Liu, X, Zhang, Chuan-Ke, Jiang, L, Wen, J. Coordinated design of delay-dependent wide-area damping controllers considering multiple time delays. IET Generation, Transmission & Distribution[J]. 2021; 15: 1996– 2007. 【1-2203】

[14]李佳，夏勇军，严才，姚伟，姚兵，文劲宇．混合多馈入直流系统VSC-HVDC和滤波器的无功协调控制[J]．电力自动化设备．2021 41(6): 100-106 【R1905】

[15]李舟平，姚伟，曾令康，马士聪，文劲宇．基于长短期记忆网络的电网故障区域定位与故障传播路径推理[J]．电力自动化设备．2021 41(6): 164-170. 【R1808】

[16]王钦，姚伟，艾小猛，方家琨，文劲宇，杨晓波，谢海莲，黄杏. 含大规模面板级直流优化器的分布式光伏并网系统动态建模[J]．电网技术，2021，45(02): 559-570.

[17]Yongxin Xiong, Jianfeng Wen, Wei Yao, Siqi Lin, Xiaomeng Ai, Jinyu Wen. Two-Level Combined Control Scheme of VSC-MTDC Integrated Offshore Wind Farms for Onshore System Frequency Support [J]. IEEE Transactions on Power Systems. 2021, 36(1): 781-792.

[18]Qunlei Wen, Ke Yang, Danji Huang, Gao Cheng, Xiaomeng Ai, Youwen Liu, Jiakun Fang, Huiqiao Li, Lin Yu, Tianyou Zhai, Schottky Heterojunction Nanosheet Array Achieving High-Current-Density Oxygen Evolution for Industrial Water Splitting Electrolyzers, Advanced Energy Materials[J]. Advanced Energy Matertials. 2021, 11, 2102353.

[19]吴云芸,方家琨,艾小猛*,薛熙臻,胡伟,沈煜,文劲宇.计及多种储能协调运行的数据中心实时能量管理[J].电力自动化设备,2021,41(10):82-89.

[20]魏利屾,冯宇昂,方家琨,艾小猛,文劲宇.现货市场环境下新能源并网接入对市场出清的影响[J].上海交通大学学报,2021,55(12):1631-1639.DOI:10.16183/j.cnki.jsjtu.2021.329.

[21]Bo Zhou, Jiakun Fang, Xiaomeng Ai, Wei Yao, Jinyu Wen. Flexibility-Enhanced Continuous-Time Scheduling of Power System under Wind Uncertainties, IEEE Transactions on Sustainable Energy, vol. 12, no. 4, pp. 2306-2320, 2021.【R1703，R1704】

[22]Li K, Ai X, Fang J, et al. Coordination of Macro Base Stations for 5G Network with User Clustering[J]. Sensors, 2021, 21(16): 5501. 【5-2202】

[23]周博, 艾小猛, 方家琨, 姚伟, 文劲宇. 计及超分辨率风电出力不确定性的连续时间鲁棒机组组合[J]. 电工技术学报, 2021, 36(07): 1456-1467.【R1704】

[24]Bo Zhou, Jiakun Fang, Xiaomeng Ai, Chengxiang Yang, Wei Yao, Jinyu Wen. Dynamic Var Reserve-Constrained Coordinated Scheduling of LCC-HVDC Receiving-End System Considering Contingencies and Wind Uncertainties[J]. IEEE Transactions on Sustainable Energy, 2021, 12(1): 469-481.【R1703，R1704】

[25]Lingling Le, Jiakun Fang, Menglin Zhang*, Kaiwen Zeng, Xiaomeng Ai, Qiuwei Wu,Jinyu Wen. Data-Driven Stochastic Unit Commitment Considering Commercial Air Conditioning Aggregators to Provide Multi-Function Demand Response[J]. International Journal of Electrical Power & Energy Systems, 2021, 129:106790.【R1909】

[26]Chao Zheng, Jiakun Fang, Shaorong Wang, Xiaomeng Ai, Zhou Liu, Zhe Chen. Energy Flow Optimization of Integrated Gas and Power Systems in Continuous Time and Space[J]. IEEE Transactions on Smart Grid, 2021, 12(3): 2611-2624.

[27]Mengxuan Shi, Mohammad Shahidehpour, Xia Chen, et al. Optimal Consensus-Based Event-Triggered Control Strategy for Resilient DC Microgrids [J]. IEEE Transactions on Power system, vol. 36, no. 3, pp. 1807-1818, May 2021. 【国家重点研发计划项目2017YFB0902600以及国家自然科学基金51977088】

[28]Mengxuan Shi, Xia Chen, Mohammad Shahidehpour, et al. Observer-Based Resilient Integrated Distributed Control Against Cyberattacks on Sensors and Actuators in Islanded AC Microgrids [J]. IEEE Transactions on Smart Grid. vol. 12, no. 3, pp. 1953–1963, May. 2021. 【国家自然科学基金51821005】

[29]Linfang Yan, Xia Chen, Jianyu Zhou, et al. Fully Distributed Energy Management in Smart Grids Based on Diffusion Strategy[J].International Journal of Electrical Power & Energy Systems, vol. 129, pp.106759, July.2021. 【国家重点研究发展计划2017YFB0902700和国家自然科学基金51821005】

[30]Mengxuan Shi, Xia Chen, Jianyu Zhou, Yin Chen*, and Jinyu Wen. Frequency Restoration and Oscillation Damping of Distributed VSGs in Microgrid With Low Bandwidth Communication [J]. IEEE Transactions on Smart Grid, vol. 12, no.2, pp.1011-1021, Mar. 2021. 【国家重点研发计划项目2017YFB0903604以及国家自然科学基金51977088】

[31]Jianyu Zhou, Mengxuan Shi, Xia Chen, Yin Chen*, Jinyu Wen, and Haibo He, A Cascaded Distributed Control Framework in DC Microgird [J]. IEEE Transactions on Smart Grid, vol. 12, no.1, pp.205-214, Jan. 2021. 【国家重点研发计划项目2017YFB0903604以及国家自然科学基金51977088】

[32]Siyuan Chen, Qiufan Yang, Jianyu Zhou, and Xia Chen. Cooperative Control Strategy for Distributed Wind-Storage Combined System Based on Consensus Protocol[J]. International Journal of Electrical Power & Energy Systems, vol.127, pp.106681, May 2021 【国网科技项目521500190017】

[33]Siyuan Chen, Qiufan Yang, Jianyu Zhou, and Xia Chen. A model predictive control method for hybrid energy storage systems[J]. CSEE Journal of Power and Energy Systems, vol. 7, no. 2, pp. 329-338, March 2021 【国网科技项目521500190017】

[34]H. Su, Y. Ye, and X. Chen*, and H. He. “Necessary and Sufficient Conditions for Consensus in Fractional-Order Multiagent Systems via Sampled Data Over Directed Graph,” IEEE Trans. Syst., Man, Cybern., vol. 51, no. 4, pp. 2501-2511, April 2021.

[35]Housheng Su, Xin Wang, Xia Chen and Zhigang Zeng. “Second-Order Consensus of Hybrid Multiagent Systems,” IEEE Trans. Syst., Man, Cybern., vol. 51, no. 10, pp.6503-6512, Oct. 2021.

[36]Q. Yang, J. Zhou, X. Chen and J. Wen. “Distributed MPC-Based Secondary Control for Energy Storage Systems in a DC Microgrid,” IEEE Trans. Power Syst., vol. 36, no. 6, pp. 5633-5644, Nov. 2021. 【国家自然科学基金51821005】

[37]H. Su, J. Chen, X. Chen and H. He, "Adaptive Observer-Based Output Regulation of Multiagent Systems With Communication Constraints," in IEEE Transactions on Cybernetics, vol. 51, no. 11, pp. 5259-5268, Nov. 2021.

[38]Haobo Zhang, Wang Xiang, Weixing Lin, Jinyu Wen. Grid Forming Converters in Renewable Energy Sources Dominated Power Grid: Control Strategy, Stability, Application, and Challenges[J]. Journal of Modern Power Systems and Clean Energy, vol. 9, no. 6, pp. 1239-1256, November 2021.

[39]Binye Ni, Wang Xiang, Meng Zhou, Xiaojun Lu, Wenping Zuo, Jinyu Wen. A Mechanical DCCB with Re-Closure Capability and Its Performance in MMC based DC Grid[J]. International Journal of Electrical Power and Energy Systems. vol.121, 106218, 2020. 【R1801】

[40]孟沛彧, 向往, 邸世民, 郝为瀚, 文劲宇.大规模海上风电多电压等级混合级联直流送出系统[J].电力系统自动化,2021,45(21):120-128.【R2011】

[41]肖遥遥, 沈煜, 杨帆, 左文平, 文劲宇, 杨志淳. 基于故障状态变量积分的级联H桥变流器功率单元开路故障检测[J]. 电网技术, 2021, 45(11): 4213-4225.【R1815】

[42]邸世民, 向往, 林卫星, 文劲宇. 混合级联直流输电系统主动谐波补偿控制[J]. 电力系统自动化, 2021, 45(22): 134-145.【R2011】

[43]Wang Xiang, Saizhao Yang, Grain Philip Adam, Haobo Zhang, Wenping Zuo, Jinyu Wen. DC Fault Protection Algorithms of MMC-HVDC Grids: Fault Analysis, Methodologies, Experimental Validations, and Future Trends[J]. IEEE Transactions on Power Electronics, vol. 36, no. 10, pp. 11245-11264, Oct. 2021. 【R1801】

[44]Shuai Cao, Xin Zhang, Wang Xiang, Jinyu Wen. A Power Flow Transfer Entropy Based AC Fault Detection Method for the MTDC Wind Power Integration System[J]. IEEE Transactions on Industrial Electronics, vol. 68, no. 11, pp. 11614-11620, Nov. 2021.

[45]Wang Xiang, Haobo Zhang, Saizhao Yang, Meng Zhou, Weixing Lin, Jinyu Wen. A Differential Pilot Protection Scheme for MMC-Based DC Grid Resilient to Communication Failure[J]. IEEE Journal of Emerging and Selected Topics in Power Electronics, vol. 9, no. 5, pp. 5631-5645, Oct. 2021. 【R1812】

[46]Saizhao Yang, Wang Xiang, Jinyu Wen. An Improved DC Fault Protection Scheme Independent of Boundary Components for MMC Based HVDC Grids[J]. IEEE Transactions on Power Delivery, vol. 36, no. 4, pp. 2520-2531, Aug. 2021. 【R1801】

[47]Xiaojun Lu, Wang Xiang, Weixing Lin, Jinyu Wen. Analysis of Wideband Oscillation of Hybrid MMC Interfacing Weak AC Power System[J]. IEEE Journal of Emerging and Selected Topics in Power Electronics, vol. 9, no. 6, pp. 7408-7421, Dec. 2021. 【R1915】【R1816】

[48]Xiaojun Lu, Wang Xiang, Weixing Lin, Jinyu Wen. Comparative Study of Small-Signal Stability Under Weak AC System Integration for Different VSCs[J]. IEEE Journal of Emerging and Selected Topics in Power Electronics, vol. 9, no. 4, pp. 4482-4499, Aug. 2021. 【R1915】【R1816】

[49]Saizhao Yang, Wang Xiang, Meng Zhou, Wenping Zuo, Jinyu Wen. A Single-End Protection Scheme for Hybrid MMC HVDC Grids Considering the Impacts of the Active Fault Current-Limiting Control[J]. IEEE Transactions on Power Delivery, vol. 36, no. 4, pp. 2001-2013, Aug. 2021. 【R1801】

[50]Binye Ni, Wang Xiang, Meng Zhou, Wei Yao, Wenping Zuo, Weixing Lin, Jinyu Wen. An Adaptive Fault Current Limiting Control for MMC and Its Application in DC Grid[J]. IEEE Transactions on Power Delivery, vol. 36, no. 2, pp. 920-931, April 2021. 【R1801】【R1811】

[51]曹帅, 向往, 左文平, 张欣, 文劲宇. 风电经柔性直流电网外送系统的交流故障诊断与穿越控制策略[J]. 中国电机工程学报, 2021, 41(04): 1295-1306+1537.【R1812】

[52]孟沛彧, 向往, 迟永宁, 王志冰, 荆江平, 文劲宇. 一种适用于大规模新能源远距离外送的分层混联输电系统[J]. 中国电机工程学报, 2021, 41(10):3349-3363+3661.【R1906】

[53]张港华, 胡伟, 沈煜, 左文平, 肖遥遥, 文劲宇. 阻抗隔离型中压并联式UPS控制策略研究[J]. 智慧电力, 2021,49(02):15-22. 【202009095】

[54]韩鸣宇, 左文平, 周猛, 肖遥遥, 文劲宇. 适用于直流电网的推挽式直流自耦变压器及其控制策略[J]. 智慧电力, 2021,49(02):23-30.【202010058】

[55]贺永杰, 向往, 周家培, 赵静波, 文劲宇. LCC-MMC串联型混合直流输电系统小信号建模[J]. 电工技术学报, 2021, 36(07): 1492-1506.【R1905】

[56]贺永杰, 向往, 赵静波, 鲁晓军, 倪斌业, 文劲宇. 一种用于LCC–HVDC系统小干扰稳定性分析的改进动态相量模型[J].电网技术,2021,45(04):1417-1428.【R1905】

[57]曹帅, 向往, 左文平, 张欣, 文劲宇. 风电经柔性直流电网外送系统的交流故障诊断与穿越控制策略[J]. 中国电机工程学报, 2021, 41(04): 1295-1306. 【R1812】

[58]孟沛彧, 王志冰, 迟永宁, 杨睿璋, 向往. 适应多能源基地远距离输送电能的混合四端直流输电系统控制策略研究[J]. 电工技术学报, 2020, 35(S2): 523-534.

[59]韩伟, 孟沛彧, 刘超, 李程昊, 马伟东, 孙仕达. 高压直流输电系统接入下的交流系统不对称故障下序网等值及短路电流算法[J]. 电测与仪表, 2020, 57(23): 38-46.

[60]Zhe Chen*, Yufei Xu, Jiakun Fang, Qing Zeng, Henrik Lund. Optimal Coordination of Flexible Resources in the Gas-heat-electricity Integrated Energy System [J]. Energy, 2021, 223:119729.

[61]Xiangji Zhou, Xianglong lv, Tianshui Yu, Hailing Wang, Lihua Qian*, Pengxiang Lei, Yao Yu, Lin Liu, Shengguo Xia, Jiakun Fang. Conformal shell amorphization of nanoporous Ag-Bi for efficient formate generation [J]. ACS Applied Materials & Interfaces, 2020, 12(28), 31319-31326.

[62]Xizhen Xue, Xiaomeng Ai, Jiakun Fang*, Wei Yao, and Jinyu Wen. Real-time Schedule of Integrated Heat and Power System: A Multi-dimensional Stochastic Approximate Dynamic Programming Approach. International Journal of Electrical Power & Energy Systems, vol. 134, 2022, no. 107427.【5-2202】

[63] 王一,朱涛,张玉欣,卢恩,陈新宇,文劲宇.适应中国电力现货市场发展的容量补偿机制初探[J].电力系统自动化,2021,45(06):52-61.（基金资助：中国南方电网公司科技项目（GDKJXM20200187））

[64]Xinyu Chen, Yaxing Liu, Qin Wang, Jiajun Lv, Jinyu Wen, Xia Chen1, Chongqing Kang, Shijie Cheng, Michael McElroy. Pathway towards Carbon-Neutral Electrical Systems in China by Mid-century with Negative CO2 Abatement Costs Informed by High-Resolution Modeling[J]. Joule. (IF=41.248)

[65]Shaojie Song;Haiyang Lin;Peter Sherman;Xi Yang;Chris P.Nielsen;Xinyu Chen;Michael B.McElroy,Production of hydrogen from offshore wind in China and cost-competitive supply to Japan,Nature Communications,2021,1-8

[66]Tianyu Jin;Xinyu Chen;Jinyu Wen;Qiuwei Wu;Linquan Bai;Yifeng Liu;Yang Cao,Improved Ramping and Reserve Modeling of Combined Heat and Power in Integrated Energy Systems for Better Renewable Integration,IEEE Transactions on Sustainable Energy,2021,1

[67]Xi Chen;Xinyu Chen,Data visualization in smart grid and low‐carbon energy systems: A review,International Transactions on Electrical Energy Systems,2021,e12889

[68]Tianguang Lu,Xinyu Chen;Michael B.McElroy;Chris P.Nielsen;Qiuwei Wu;Hongying He;Qian Ai,A Reinforcement Learning-Based Decision System For Electricity Pricing Plan Selection by Smart Grid End Users,IEEE Transactions on Smart Grid,2021, 2176-2187

[69]Xubin Liu;Xinyu Chen;M. Shahidehpour;Canbing Li;Qiuwei Wu;Yuhang Wu;Jinyu Wen,Active Fault Current Limitation for Low-Voltage Ride-Through of Networked Microgrids,IEEE Transactions on Power Delivery,2021,1

[70]Haiyang Lin;Qiuwei Wu;Xinyu Chen;Xi Yang;Xinyang Guo;Jiajun Lv;Tianguang Lu;Shaojie Song; Michael B.McElroy,Economic and Technological Feasibility of Using Power-to-Hydrogen Technology under Higher Wind Penetration in China,Renewable Energy,2021, 569-580

[71]Peter Sherman;Shaojie Song;Xinyu Chen;Michael B.McElroy,Projected changes in wind power potential over China and India in high resolution climate models,Environmental Research Letters,2021,1

[72]Shaojie Song;Haiyang Lin;Peter Sherman;Xi Yang; Shi Chen;Xi Lu;Tianguang Lu;Xinyu Chen;Michael B.McElroy,Deep Decarbonization of the Indian Economy: 2050 Prospects for Wind, Solar, and Green Hydrogen,Solar, and Green Hydrogen,2021,1