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清华大学电机系

清华大学电机系本科生

清华大学电机系研究生

清华大学电机系校友会

清华大学能源互联网创新研究院

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Current Location: Home > faculties > Chen Laijun

Chen Laijun

Associate Professor

Research Direction

Planning of renewable energy、Compressed air energy storage、Integrated energy system

West Main Building, Tsinghua University Beijing, 100084, P. R. China

chenlaijun@tsinghua.edu.cn

010-62795814

  • Biography
  • Teaching
  • Research Project
  • Publications
  • Social service

Laijun Chen received the B.E. degree and the Ph.D. degree in electrical engineering from Tsinghua University in 2002 and 2011, respectively. Since 2012, he has been with the Department of Electrical Engineering, Tsinghua University, where he has been an Associate Professor since 2014.He has been engaged in counterpart support work at Qinghai University since 2013, and concurrently serves as the deputy dean of the School of Energy and Electrical Engineering and the deputy director of Qinghai Key Laboratory of Efficient Utilization of Clean Energy. awarded Ministry of Education of Young Talent Program and the leading talent of National High-level Talents Special Support Program.In addition,he serves as the Vice Chairman of IEEE PES China Membership Committee, a member of Grid-connected Energy Storage and Operation Control Technology Sub-committee of the IEEE PES Technical Committee–China, a member of Electrotechnical mathematics Professional Committee of Chinese Society for Electrical Engineering, a member of Energy Storage/Integrated System Professional Committee of Chinese Renewable Energy Society, a member of Renewable Energy and Energy Storage Professional Committee of Chinese Association of Automation, etc. He is a member of editorial board/youth editorial board of Science China Technological Sciences, CSEE Journal of Power and Energy Systems, Protection and Control of Modern Power Systems,High Voltage Engineering, Renewable Energy Resources and other journals. He has presided 4 National Natural Science Foundation of China, 1 National Key Research and Development Programme project. He has published more than 120 journal papers (including more than 50 SCI journal papers), and authorised more than 80 invention patents. He has won more than 10 provincial and ministerial awards, including 1 first prize of Qinghai Provincial Scientific and Technology Award, 1 first prize of Anhui Provincial Scientific and Technology Award, 1 special prize of Science and Technology Invention Award of China Electrotechnical Society.

1.Undergraduates Courses

Electrical and Electronic Technology

The Fundamentals of Conputer Programming

2.Honors received by Mentored students

1)Outstanding Graduate of Tsinghua University:

Guo Yan (2016)、Sun Yingcong (2024)

2)Tsinghua Outstanding Master's Thesis Award:

Wang Yuyang (2019)、Xiong Yufeng (2022)、Yuan Wenkai (2023)

3)Outstanding Master's Graduate of Tsinghua University:

Wang Yuyang (2019)、Xiong Yufeng (2022)

4)Beijing Municipal Outstanding Graduate:

Xiong Yufeng (2022)、Tian Xin (2024)

5)IEEE Power & Energy Society (PES) Outstanding Student Scholarship:

Xiong Yufeng (2021)

5)National Scholarship for Graduate Students (Qinghai University):

Du Xili (2022)、Jia Qiwei (2022)

1. Selected Academic Funds

1) Electricity-Carbon Coordinated Regulation Technology for Wide-area Distributed New Energy Clusters and Multi-source Clean Energy Systems

(National Key R&D Program on Smart Grid, 2024-2028)

2) Critical Technologies and Demonstration of Distributed Compressed Air Energy Storage with Microgrid Security Supply

(National Key Research and Development Program, 2020-2022)

3) Collaborative Planning and Optimal Dispatch of Shared Energy Storage in High-penetration Renewable Energy Power Systems

(NSFC Joint Fund Key Project, 2023-2026)

4) Game-theoretic Mechanism Design and Operational Decision-making for Shared Energy Storage Systems

(NSFC General Program, 2021-2024)

5) Key Technologies for Photovoltaic Hydrogen Production and Fuel Cell-based Cogeneration Systems

(Qinghai Provincial Key R&D Program, 2020-2022)

Selected Industry Projects

1) Grid-Storage Cooperative Control Technology for Large-scale Renewable Energy Integration with CAES (2024-2025)

2) Pumped CAES System and Intelligent Dispatch in Gutianxi Basin (2024-2025)

3) Megawatt-scale CAES System Development and Demonstration (2024-2025)

4) Grid-connection Characteristics Analysis and Testing Technology for CAES Systems (2023-2026)

5) Source-Storage-Grid Collaborative Planning for Hybrid AC/DC Systems with Integrated Wind-Solar-Thermal-Storage (2023-2025)

6) Optimal Capacity Allocation of Hybrid CAES in High-penetration Renewable Power Systems (2023-2024)

7) Process Design and System Integration Optimization for CAES Plants (2023-2024)

8) Adaptability and Development Strategy of Novel Energy Storage in Gansu's New Power System (2023-2024)

9) Coupling Scheme and Economic Analysis of Nuclear/RE-CAES Integration (2023-2024)

10) Big Data-driven Multi-dimensional Power Quality Assessment for Modern Power Systems (2022-2023)

11) Submersible Flexible CAES Key Technologies (2021-2024)

12) Feasibility Analysis on Critical Energy Storage Technologies and Industrialization Pathways (2019-2020)

13) Grid-supportive Control Technology for Renewable Energy Generation (2018-2019)

14) Testing, Evaluation and Grid Control of Virtual Synchronous PV Plants (2017-2018)

15) Non-supplementary Fired CAES Plant System Research (2017-2018)

16) Impact Analysis and Microgrid Control for DG-integrated Distribution Networks (2016-2017)

17) Grid Integration Technology for CAES Generation Systems (2016-2017)

18) Technical Consulting on CAES Solutions (2016-2017)

19) Novel Energy Storage System Development (2016-2017)

20) Protection and Control Strategies for DG Grid Integration (2015-2016)

21) Online Harmonic Monitoring and Mitigation Technology (2015-2016)

22) Development Prospects of CAES Generation (2015-2016)

23) Active Distribution Network Optimization and Control (2014-2015)

24) DC Distribution Network Technology Research (2014-2015)

25) Grid Integration Technology for Distributed Generation (2014-2015)

26) Intelligent Control Technology for CAES Systems (2013-2014)

1.Selected Abstracts from Journal Papers

1) Sen Cui, Laijun Chen, Siyuan Chen, et al. Dynamic modeling and analysis of compressed air energy storage for multi-scenario regulation requirements, Journal of Energy Storage, 2024, 100: 113227.

2) Hanchen Liu, Laijun Chen, Sen Cui,et al. Distributionally robust dispatch of power system with advanced adiabatic compressed air energy storage for frequency security, Journal of Energy Storage, 2024, 98: 112782.

3) Zhongjie Guo, Wei Wei, Laijun Chen,et al. Distribution System Operation With Renewables and Energy Storage: A Linear Programming Based Multistage Robust Feasibility Approach, IEEE Transactions on Power Systems, 2022, 37(1): 738-49.

4) Sicheng Deng, Laijun Chen, Xiaonan Lu, et al. Event-Based Distributed Frequency Control in Harsh Communication Conditions, IEEE Transactions on Industrial Informatics, 2022, 18(6): 3777-86.

5) Laijun Chen, Yuyang Wang, Xiaonan Lu, et al. Resilient Active Power Sharing in Autonomous Microgrids Using Pinning-Consensus-Based Distributed Control, IEEE Transactions on Smart Grid, 2019, 10(6): 6802-11.

6) Zaichuang Wang, Laijun Chen , Xiaozhu Li,et al. A two-stage optimization approach-based energy storage sharing strategy selection for limited rational users, Journal of Energy Storage, 2024, 93: 112098.

7) Zhiao Li, Laijun Chen, Wei Wei,et al. Risk Constrained Self-Scheduling of AA-CAES Facilities in Electricity and Heat Markets: A Distributionally Robust Optimization Approach, CSEE Journal of Power and Energy Systems, 2024, 10(3): 1159-67.

8) Laijun Chen, Shengwei Mei, Bin Wang, Hanchen Liu, Wang Zou, Tianwen Zheng, Renfeng Chen. Research Progress and Prospects of Coal-fired Power Coupled Compressed Air Energy Storage Technology, Proceedings of the CSEE, 2024, 44(18): 7264-7275.

9) Qingmiao Zhang, Laijun Chen, Xiaozhu Li, Shengwei Mei. Optimal Decision-making for Electricity Trading Between Industrial Park Operators and Distributed PV-Storage Users Based on Stackelberg Game, Acta Energiae Solaris Sinica, 2024, 45(01): 450-456.

10) Yingcong Sun, Laijun Chen, Xiaozhu Li, Shengwei Mei. Optimal Allocation of Centralized Shared Energy Storage for New Energy Plant Clusters Considering Resource Correlation, Acta Energiae Solaris Sinica, 2024, 45(07): 2-9.

11) Xiaoling Su, Laijun Chen, Chaofan Zhao, Bowen Cao, Lize Liu. Low-carbon Economic Operation of Electricity-Hydrogen-Transportation Coupled Distribution Network Considering Energy Self-sufficiency Rate and Shared Hydrogen Storage, High Voltage Engineering, 2024, 50(06): 2424-2432.

12) Sen Cui, Laijun Chen, Siyuan Chen, Zhengtang Sun, Shengwei Mei. Primary Frequency Regulation Strategy for Advanced Adiabatic Compressed Air Energy Storage Based on Optimal Dynamic Power Compensation, High Voltage Engineering, 2024, 50(00): 1-10.

13) Guohua Wang, Tong Zhang, Laijun Chen, Shengwei Mei. Engineering-oriented Modeling and Advanced Exergy Analysis of Advanced Adiabatic Compressed Air Energy Storage Systems, Global Energy Interconnection, 2024, 7(02): 127-135.

14) Changxing Yang, Xiaozhu Li, Laijun Chen,et al. Intra-Day and Seasonal Peak Shaving Oriented Operation Strategies for Electric-Hydrogen Hybrid Energy Storage in Isolated Energy Systems, Sustainability, 2024, 16(16): 7010.

15) Kangxiang Wang, Laijun Chen, Xiaozhu Li,et al. Research on compressed air energy storage systems using cascade phase-change technology for matching fluctuating wind power generation, Frontiers in Energy Research, 2024, 12:1352540.

16) Yingcong Sun, Hongxun Hui, Taoyi Qi, Laijun Chen. Multitime Scale Optimization of Urban Micro-Grids Considering High Penetration of PVs and Heterogeneous Energy Storage Systems, IEEE Internet of Things Journal, 2024, 11(14): 24428-38.

17) Lize Liu, Xiaoling Su, Laijun Chen,et al.Elite Genetic Algorithm Based Self-Sufficient Energy Management System for Integrated Energy Station, IEEE Transactions on Industry Applications, 2024, 60(1): 1023-33.

18) Zaichuang Wang, Laijun Chen, Xiaozhu Li,et al. A Nash bargaining model for energy sharing between micro-energy grids and energy storage, Energy, 2023, 283: 1219065.

19) Wenkai Yuan, Laijun Chen, Tianwen Zheng, et al. Transient stability constrained distributed optimal dispatch for microgrids: A state-based potential game approach, IET Renewable Power Generation, 2023, 17(6): 1609-21.

20) Yang Si, Laijun Chen, Xuelin Zhang,et al.Capacity Allocation of Hybrid Power System with Hot Dry Rock Geothermal Energy, Thermal Storage, PV Based on Game Approaches, Journal of Modern Power Systems and Clean Energy, 2023, 11(1): 290-301.

21) Xiaozhu Li, Laijun Chen, Fan Sun, et al. Share or not share, the analysis of energy storage interaction of multiple renewable energy stations based on the evolution game, Renewable Energy, 2023, 208:679-92.

22) Xiaozhu Li, Laijun Chen, Yibo Hao,et al. Sharing hydrogen storage capacity planning for multi-microgrid investors with limited rationality: A differential evolution game approach, Journal of Cleaner Production, 2023, 417: 138100.

23) Sicheng Deng, Laijun Chen, Baosen Zhang, et al. Distributed secondary optimal control for self-maintaining microgrids on pelagic islands, IET Renewable Power Generation, 2023, 17(12): 3049-62.

24) Zaichuang Wang, Laijun Chen, Xiaozhu Li, Shengwei Mei. Low-carbon Optimal Dispatch of Multi-park Energy Systems Under Cooperative Game-based Energy Sharing Mode,High Voltage Engineering, 2023, 49(4): 1380-1391.

25) Xin Tian, Laijun Chen, Xiaozhu Li, Wenkai Yuan. Optimal Operation Strategy for Distributed PV Community Shared Energy Storage Based on Stackelberg Game and Improved Shapley Value, Power System Technology, 2023, 47(6): 2252-2261.

26) Luyao Sun, Laijun Chen, Yufeng Xiong, Xiaozhu Li, Shengwei Mei. Capacity Optimization of Hydrogen Storage-based Cogeneration Integrated Energy Systems Considering Solar Thermal Collection Units, Electric Power Automation Equipment, 2023, 43(12): 70-76.

27) Xiaozhu Li, Laijun Chen, Xili Du, Jiaxin Wen. Review on Operation Mechanisms and Trading Models of Generation-side Shared Energy Storage, Journal of Electrical Engineering, 2023, 18(1): 188-200.

28) Chenyixuan Ni, Laijun Chen, Xiaotao Chen.et al.Exergy analysis and particle swarm optimization of clean energy router based on a solar-thermal-assisted advanced adiabatic compressed air energy storage system, IET Renewable Power Generation, 2023, 17(9): 2302-14.

29) Zhongjie Guo, Wei Wei, Laijun Chen,et al. Parametric Distribution Optimal Power Flow With Variable Renewable Generation, IEEE Transactions on Power Systems, 2022, 37(3): 1831-41.

30) Jiayu Bai, Wei Wei, Laijun Chen, et al. Robust online operation of power systems with advanced adiabatic compressed air energy storage and renewable generation, Journal of Energy Storage, 2022, 50: 104207.

31) Zaichuang Wang, Laijun Chen, Xiaozhu Li, et al. Capacity Optimization of Distributed PV and Shared Energy Storage for Prosumer Communities Based on Cooperative Game, Transactions of China Electrotechnical Society, 2022, 37(23): 5922-5932.

32) Xiaozhu Li, Laijun Chen, Jun Yin, et al.Capacity Planning of Multi-park Shared Hydrogen Storage Systems for Low-carbon Energy Supply, High Voltage Engineering, 2022, 48(7): 2534-2544.

33) Xiaozhu Li, Laijun Chen, Xili Du, et al. Long-term Planning of Shared Energy Storage for New Energy Plant Clusters Considering Retired EV Battery Degradation Characteristics, Acta Energiae Solaris Sinica, 2022, 43(5): 499-509.

34) Xili Du, Xiaozhu Li, Laijun Chen, et al.Robust Optimal Allocation of Centralized Shared Energy Storage for Multi-scenario Regulation Demands, Transactions of China Electrotechnical Society, 2022, 37(23): 5911-5921.

35) Ning Xin, Laijun Chen, Linrui Ma,et al. A Rolling Horizon Optimization Framework for Resilient Restoration of Active Distribution Systems, Energies, 2022, 15(9): 3096.

36) Guangkuo Li, Laijun Chen, Xiaodai Xue,et al. Multi-mode optimal operation of advanced adiabatic compressed air energy storage: Explore its value with condenser operation, Energy, 2022, 248: 123600.

37) Zhongjie Guo, Wei Wei, Laijun Chen,et al. Optimal Energy Management of a Residential Prosumer: A Robust Data-Driven Dynamic Programming Approach, IEEE Systems Journal, 2022, 16(1): 1548-57.

38) Yue Chen, Wei Wei, Mingxuan Li, Laijun Chen,et al. Flexibility Requirement When Tracking Renewable Power Fluctuation With Peer-to-Peer Energy Sharing, IEEE Transactions on Smart Grid, 2022, 13(2): 1113-25.

39) Zhongjie Guo, Wei Wei, Laijun Chen,et al. Impact of Energy Storage on Renewable Energy Utilization: A Geometric Description, IEEE Transactions on Sustainable Energy, 2021, 12(2): 874-85.

40) Sicheng Deng, Laijun Chen, Xiaonan Lu,et al. Distributed Finite-Time Secondary Frequency Control of Islanded Microgrids With Enhanced Operational Flexibility, IEEE Transactions on Energy Conversion, 2021, 36(3): 1733-42.

41) Tianwen Zheng, Laijun Chen, Yan Guo,et al. A VSG-Based Coordinated DC Voltage Control for VSC-HVDC to Participate in Frequency Regulation, Energies, 2021, 14(9): 2712.

42) Yufeng Xiong, Laijun Chen, Tianwen Zheng,et al. Electricity-Heat-Hydrogen Modeling of Hydrogen Storage System Considering Off-Design Characteristics, IEEE Access, 2021, 9,156768-77.

43) Manshang Wang, Yifan Su, Laijun Chen,et al. Distributed Optimal Power Flow of DC Microgrids: A Penalty Based ADMM Approach, CSEE Journal of Power and Energy Systems, 2021, 7(2): 339-47.

44) Yang Si, Linrui Ma, Laijun Chen,et al. Equivalent Firm Capacity Assessment of HDR-PV Hybrid Power System: A Distributionally Robust Approach, Frontiers in Energy Research, 2021, 9: 791818.

45) Yang Si, Laijun Chen, Linrui Ma,et al. Modeling the Heat-Hydrogen Balance Characteristic of Hydrogen Energy Storage and Cooperative Dispatch of Wind-Hydrogen Hybrid System, Frontiers in Energy Research, 2021, 9: 791829.

46) Zhongjie Guo, Wei Wei, Laijun Chen, et al. Economic Value of Energy Storages in Unit Commitment With Renewables and Its Implication on Storage Sizing, IEEE Transactions on Sustainable Energy, 2021,12(4):2219-2229.

47) Zhongjie Guo, Wei Wei, Laijun Chen, et al. Real-Time Self-Dispatch of a Remote Wind-Storage Integrated Power Plant Without Predictions: Explicit Policy and Performance Guarantee, IEEE Open Access Journal of Power and Energy, 2021, 8: 484-96.

48) Yang Cao, Wei Wei, Laijun Chen,et al. Supply Inadequacy Risk Evaluation of Stand-Alone Renewable Powered Heat-Electricity Energy Systems: A Data-Driven Robust Approach, IEEE Transactions on Industrial Informatics, 2021, 17(3): 1937-47.

49) Jiayu Bai, Wei Wei, Laijun Chen ,et al. Rolling-horizon dispatch of advanced adiabatic compressed air energy storage based energy hub via data-driven stochastic dynamic programming, Energy Conversion and Management, 2021, 243: 114322.

50) Wenkai Yuan, Tianwen Zheng, Laijun Chen, et al. Small-signal Stability Analysis Method for Distributed Generation Networked Systems Based on Dissipation Theory, High Voltage Engineering, 2021, 47(10): 3497-3504.

51) Yufeng Xiong, Yang Si, Tianwen Zheng, et al. Optimal Configuration of Hydrogen Storage in Industrial Park Integrated Energy Systems Based on Stackelberg Game, Transactions of China Electrotechnical Society, 2021, 36(3): 507-516.

52) Yufeng Xiong, Laijun Chen, Tianwen Zheng, et al. Hydrogen Storage Optimization in Low-carbon Park Integrated Energy Systems Considering Electricity-Heat-Gas Coupling Characteristics, Electric Power Automation Equipment, 2021, 41(9): 31-38.

53) Manshang Wang, Sicheng Deng, Tianwen Zheng, et al. Distributed Active Power Control for Microgrids Under Non-ideal Communication Conditions, Power System Technology, 2021, 45(2): 680-688.

54) Yang Si, Laijun Chen, Xiaotao Chen, et al. Capacity Optimization of Hydrogen Storage in Wind-Hydrogen Hybrid Systems Based on Distributionally Robust Approach, Electric Power Automation Equipment, 2021, 41(10): 3-10.

55) Sicheng Deng, Tianwen Zheng, Laijun Chen, et al. Distributed Energy Management Strategy for AC/DC Microgrids to Enhance Power Supply Reliability of Critical Loads, High Voltage Engineering, 2021, 47(1): 55-62.

56) Danman Wu, Jiayu Bai, Wei Wei, Laijun Chen,et al. Optimal bidding and scheduling of AA-CAES based energy hub considering cascaded consumption of heat, Energy, 2021, 233: 121133.

57) Jiayu Bai, Wei Wei, Laijun Chen,et al. Modeling and dispatch of advanced adiabatic compressed air energy storage under wide operating range in distribution systems with renewable generation, Energy, 2020, 206: 118051.

58) Zhongjie Guo, Wei Wei, Laijun Chen,et al. Equilibrium model of a regional hydrogen market with renewable energy based suppliers and transportation costs, Energy, 2021, 220: 119608.

59) Wenyi Zhang, Wei Wei, Laijun Chen,et al. Service pricing and load dispatch of residential shared energy storage unit, Energy, 2020, 202: 117543.

60) Zhongjie Guo, Wei Wei, Laijun Chen,et al. Operation of Distribution Network Considering Compressed Air Energy Storage Unit and Its Reactive Power Support Capability, IEEE Transactions on Smart Grid, 2020, 11(4): 2954-65.

61) Jiayu Bai, Laijun Chen, Feng Liu,et al. Interdependence of electricity and heat distribution systems coupled by an AA-CAES-based energy hub, IET Renewable Power Generation, 2020, 14(3): 399-407.

62) Zhongjie Guo, Wei Wei, Laijun Chen,et al. Fast Screen of Redundant Transmission Constraints in Line Contingency-Constrained Dispatch, IEEE Transactions on Power Systems, 2020, 35(4): 3305-7.

63) Si Sun, Tianwen Zheng, Laijun Chen, et al. Shared Energy Storage Mechanism Based on Combinatorial Double Auction, Power System Technology, 2020, 44(5): 1732-1739.

64) Yang Si, Laijun Chen, Xuelin Zhang, et al. Capacity Optimization of Micro Energy Grids with Enhanced Geothermal Systems Using Hot Dry Rock, Power System Technology, 2020, 44(5): 1603-1611.

65) Laijun Chen, Lifeng Li, Tianwen Zheng, et al. Resonance Suppression Strategy for Parallel Inverters Based on Adaptive Filtering, Power System Technology, 2020, 44(1): 200-207.

66) Zhiao Li, Laijun Chen, Dangwu Liu, et al. Capacity Fee Pricing Method for Energy Storage Power Stations Based on Stackelberg Game, High Voltage Engineering, 2020, 46(2): 519-526.

67) Guangkuo Li, Laijun Chen, Yuguang Xie, et al. Operation Optimization Strategy for Wind-Storage Combined Systems Considering Off-design Characteristics of Compressed Air Energy Storage, High Voltage Engineering, 2020, 46(2): 511-518.

68) Zhaojian Wang, Laijun Chen, Feng Liu, et al. Asynchronous Distributed Power Control of Multimicrogrid Systems, IEEE Transactions on Control of Network Systems, 2020, 7(4): 1960-73.

69) Zhongjie Guo, Wei Wei, Laijun Chen, et al. Sizing energy storage to reduce renewable power curtailment considering network power flows: a distributionally robust optimisation approach, IET Renewable Power Generation, 2020, 14(16): 3273-80.

70) Yujuan Fang, Wei Wei, Shengwei Mei, Laijun Chen, et al. Promoting electric vehicle charging infrastructure considering policy incentives and user preferences: An evolutionary game model in a small-world network, Journal of Cleaner Production, 2020, 258: 120753

71) Yan Guo, Laijun Chen, Xiaonan Lu, et al. Region-Based Stability Analysis for Active Dampers in AC Microgrids, IEEE Transactions on Industry Applications, 2019, 55(6): 7671-82.

73) Si Sun, Laijun Chen, Xinjie Qiu, et al. Cooperative Game-based Planning Model for Generation-side Shared Energy Storage, Global Energy Interconnection, 2019, 2(4): 360-366.

74) Rui Li, Laijun Chen, Shengwei Mei, et al. Modeling of Off-design Operation Characteristics and Wind-Storage Synergy Analysis for Advanced Adiabatic Compressed Air Energy Storage, Automation of Electric Power Systems, 2019, 43(11): 25-33.

75) Sicheng Deng, Laijun Chen, Tianwen Zheng, et al. Distributed Active Power Control Strategy for Microgrids Considering System Time Delay, Power System Technology, 2019, 43(5): 1536-1542.

76) Yanfei Pan, Laijun Chen, Xiaonan Lu, et al. Stability Region of Droop-Controlled Distributed Generation in Autonomous Microgrids, IEEE Transactions on Smart Grid, 2019, 10(2): 2288-300.

77) Yujuan Fang, Laijun Chen, Shengwei Mei,et al. Coal or electricity? An evolutionary game approach to investigate fuel choices of urban heat supply systems, Energy, 2019, 181: 107-22.

78) Yali Dong, Laijun Chen, Shengwei Mei. Observer design for neutral-type neural networks with discrete and distributed time-varying delays, International Journal of Adaptive Control and Signal Processing, 2019, 33(3): 527-44.

79) Tianwen, Zheng, Laijun Chen, Yan Guo,et al. Flexible unbalanced control with peak current limitation for virtual synchronous generator under voltage sags, Journal of Modern Power Systems and Clean Energy, 2018, 6(1): 61-72.

80) Yan Guo, Xiaonan Lu, Laijun Chen,et al. Functional-Rotation-Based Active Dampers in AC Microgrids With Multiple Parallel Interface Inverters, IEEE Transactions on Industry Applications, 2018, 54(5): 5206-15.

81) Lifeng Li, Tianwen Zheng, Yan Guo, et al. Resonance Suppression Method for Parallel Inverters Based on Virtual Impedance Phase Angle Compensation, Power System Technology, 2018, 42(12): 4069-4075.

82) Laijun Chen, Ren Wang, Tianwen Zheng, et al. Model Predictive Control of Virtual Synchronous Generator for Improving Frequency Dynamics in Islanded Microgrids, Automation of Electric Power Systems, 2018, 42(3): 40-47.

83) Tianwen Zheng, Laijun Chen, Yan Guo,et al. Comprehensive control strategy of virtual synchronous generator under unbalanced voltage conditions, IET Generation Transmission Distribution, 2018, 12(7): 1621-30.

84) Shengwei Mei, Rui Li, Laijun Chen, et al. Research Progress and Prospects of Advanced Adiabatic Compressed Air Energy Storage Technology,Proceedings of the CSEE, 2018, 38(10): 2893-2907+3140.

85) Rui Li, Laijun Chen, Shengwei Mei, et al. Stackelberg Game Bidding Strategy for Advanced Adiabatic Compressed Air Energy Storage in Day-ahead Electricity Markets, Control Theory & Applications, 2018, 35(5): 662-667.

86) Guangkuo Li, Laijun Chen, Tianwen Zheng, et al. Preliminary Study on Phase Modulation Operation Mode of Compressed Air Energy Storage Systems, Global Energy Interconnection, 2018, 1(3): 348-354.

87) Xiangyu Wu, Laijun Chen, Chen Shen,et al. Distributed optimal operation of hierarchically controlled microgrids, IET Generation Transmission Distribution, 2018, 12(18): 4142-52.

88) Yanfei Pan, Feng Liu, Laijun Chen,et al. Towards the Robust Small-Signal Stability Region of Power Systems Under Perturbations Such as Uncertain and Volatile Wind Generation, IEEE Transactions on Power Systems, 2018, 33(2): 1790-9.

89) Ren Wang, Laijun Chen, Tianwen Zheng,et al. VSG-based Adaptive Droop Control for Frequency and Active Power Regulation in the MTDC System, CSEE Journal of Power and Energy Systems, 2017, 3(3): 260-8.

90) Yuxin Han, Laijun Chen, Zhaojian Wang, et al. Distributed Optimal Power Flow for DC Distribution Networks Based on Adaptive Step-size ADMM. Transactions of China Electrotechnical Society, 2017, 32(11): 26-37.

91) Laijun Chen, Yuyang Wang, Tianwen Zheng, et al. Consensus-based Distributed Cooperative Control for Parallel Virtual Synchronous Generators, Control Theory & Applications, 2017, 34(8): 1084-1091.

92) Tianwen Zheng, Laijun Chen, Wei Liu, et al. Multi-mode Operation Control of PV Virtual Synchronous Generator Considering Source-side Dynamic Characteristics. Proceedings of the CSEE, 2017, 37(2): 454-464.

93) Rui Li, Laijun Chen, Tiejiang Yuan,et al. Optimal dispatch of zero-carbon-emission micro Energy Internet integrated with non-supplementary fired compressed air energy storage system, Journal of Modern Power Systems and Clean Energy, 2016, 4(4): 566-80.

94) Laijun Chen, Tianwen Zheng, Shengwei Mei,et al. Review and prospect of compressed air energy storage system, Journal of Modern Power Systems and Clean Energy, 2016, 4(4): 529-41.

95) Bin Liu, Laijun Chen, Yuchen Wang, et al. Reserve Cost Allocation for Wind Power Uncertainty: A Coalition Game Approach, Control Theory & Applications, 2016, 33(4): 437-445.

96) Tianyi Chen, Laijun Chen, Tianwen Zheng, et al. Low Voltage Ride-through Control Method for Virtual Synchronous Generators with Smooth Mode Switching, Power System Technology, 2016, 40(7): 2134-2140.

97) Laijun Chen, Ren Wang, Tianwen Zheng, et al. Transient Response Optimization Control of Virtual Synchronous Generator Based on Adaptive Parameter Adjustment, Proceedings of the CSEE, 2016, 36(21): 5724-5731+6014.

98) Zhaojian Wang, Laijun Chen, Feng Liu, et al. Distributed Frequency Control for Multi-microgrids Considering Adjustable Load Capability,Automation of Electric Power Systems, 2016, 40(15): 47-52+66.

99) Tianyi Chen, Laijun Chen, Yuchen Wang, et al. Balanced Current Control Method for Virtual Synchronous Generators Under Unbalanced Grid Voltage Conditions, Power System Technology, 2016, 40(3): 904-909.

100) Laijun Chen, Shengwei Mei An integrated control and protection system for photovoltaic microgrids, CSEE Journal of Power and Energy Systems, 2015, 1(1): 36-42.

101) Tianwen Zheng, Laijun Chen, Tianyi Chen, et al. Virtual Synchronous Generator Technology and Its Prospects, Automation of Electric Power Systems, 2015, 39(21): 165-175.

102) Shengwei Mei, Junjie Wang, Fang Tian, Laijun Chen, et al. Design and engineering implementation of non-supplementary fired compressed air energy storage system: TICC-500. Science China-Technological Sciences, 2015, 58(4): 600-11.

2. Selected Patents

1) Method and System for Calculating Capacity of Energy Storage Device in Wind Farm

CN201910295786.7, 2021, China

2) Method and System for Suppressing Active Power Output Error of Distributed Generation Under Communication Interference

CN201810301068.1, 2019, China

3) Method and System for Estimating Active Power Output Error of Distributed Generation Under Communication Interference

CN201810300070.7, 2020, China

4) Distributed Optimal Power Flow Calculation Method and Device for Radial DC Distribution Network

CN201610784342.6, 2019, China

5) Control Method and System for Virtual Synchronous Generator with Load Grid-connection

CN201510338435.1, 2017, China

6) Model Predictive Control Method for Smoothing Wind Power Fluctuations Using Hybrid Energy Storage

CN201410267717.2, 2016, China

7) Control Method for Smoothing Wind-Solar Power Fluctuations Using Hydropower and Energy Storage

CN201410267684.1, 2016, China

8) Power Allocation Method for Hybrid Energy Storage System

CN201310675017.2, 2015, China

9) Relay Protection Method Suitable for Microgrids

CN201310674915.6, 2017, China

10) Method and Device for Shared Energy Storage Capacity Planning in Renewable Energy Power Stations

CN202110751418.6, 2023, China

11) Method and Device for Evaluating Capacity Value of Shared Energy Storage

CN202110746082.4, 2024, China

12) Peer-to-Peer Electricity Trading Market Design Method and Device with Shared Energy Storage

CN202110726697.0, 2024, China

13) Shared Energy Storage Capacity Optimization Configuration Method and Device Based on Storage Cost

CN202110725157.0, 2024, China

14) Multi-Park Integrated Energy Dispatch Method and System

CN202110560538.8, 2023, China

15) Method and Device for Determining Optimal Bidding Strategy of Energy Storage in Day-Ahead Market

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16) Online Dispatch Method and Device for Wind-Storage Power Station, Electronic Equipment and Storage Medium

CN202110501353.X, 2023, China

17) Energy Hub Equipment and Modeling Method for Advanced Adiabatic Compressed Air Energy Storage

CN202110203988.1, 2023, China

18) Joint Operation Method and System for Geothermal-PV-Thermal Storage

CN202011052526.6, 2022, China

19) Planning Method for Electrochemical Energy Storage Power Station Considering Battery Cycle Life

CN202011004679.3, 2022, China

20) Robust Configuration Method and Device for Wind-Solar-Storage in Power Systems

CN202010601443.1, 2022, China

21) Daily Security Verification and Congestion Management Method Based on Linearized AC Power Flow

CN202010451363.2, 2021, China

22) Robust Economic Dispatch Method for Power Systems Based on Worst-case Scenario Identification

CN202010451359.6, 2022, China

23) Distribution Network Disaster Inference Method and System Based on Tree Bayesian Network

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24) Closed Thermal Storage System and Its Heat Charge-Discharge Method

CN201911012386.7, 2022, China

25) Energy Storage Optimization Configuration Method and System

CN201911007302.0, 2021, China

26) Energy Storage Control Method and System for Improving Grid Inertia Level

CN201911001457.3, 2021, China

27) Gas Storage Device and Method

CN201911001423.4, 2022, China

28) Design Method and Device for Thermal Storage System in Compressed Air Energy Storage

CN201910990365.6, 2021, China

29) Staggered Regenerative Compressed Air Energy Storage System

CN201910989719.5, 2022, China

30) Renewable Energy Accommodation Method and Device Based on Energy Sharing Game

CN201910886588.8, 2022, China

31) Method and System for EV Charging Station Construction Based on Game Theory

CN201910831563.8, 2020, China

32) Thermal Storage Compressed Air Energy Storage Device

CN201910707824.5, 2020, China

33) Feasible Region Analysis Method for Cogeneration Operation of Advanced Adiabatic Compressed Air Energy Storage

CN201910603755.3, 2020, China

34) Multi-energy Cogeneration Compressed Air Energy Storage System

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35) Novel High-Density Compressed Air Energy Storage Power Generation System

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36) High-Temperature Thermal Storage System

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37) Method and Device for Calculating Capacity Subsidy of Compressed Air Energy Storage System

CN201811223786.8, 2020, China

38) Bi-level Game-based Capacity Configuration Method and Device for Compressed Air Energy Storage Plant

CN201811223750.X, 2019, China

39) Coordinated Operation Dispatch Method and Device for Advanced Adiabatic CAES and Wind Power

CN201811217086.8, 2023, China

40) Control Method and Device for Compressed Air Energy Storage Plant

CN201811217082.X, 2020, China

41) Wind-Storage Coordination Control Method and Device for Adiabatic CAES System

CN201811209989.1, 2020, China

42) Method and Device for Estimating Air Storage Chamber Capacity in CAES System

CN201811185944.5, 2020, China

43) Energy Storage Power Generation System and Its Operation Method

CN201810892309.4, 2019, China

44) Multi-stage Centrifugal Compressor Unit for Energy Storage and Its Startup Method

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45) Rapid-response Energy Storage System and Its Operation Method

CN201810828528.6, 2019, China

46) Regenerative Compressed Air Energy Storage System and Its Operation Method

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47) Multi-energy Coupling System

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48) Regenerative System and Method for Compressed Air Energy Storage

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49) Resonance Suppression Method and Device for Parallel Inverters Based on Virtual Impedance

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50) Optimization Method and System for Energy Storage Configuration in Renewable Energy Microgrid

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51) Bi-level Robust Unit Commitment Method Based on Reserve Setting

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52) 10MW Compressed Air Energy Storage Method and System

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53) DC Voltage Control Device, Method and Optimization Method for Renewable Energy VSG Frequency Regulation

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54) Reserve Setting Method and Device for Wind Power Grid Integration Considering Compressed Air Energy Storage

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55) Method and Device for Generating Future Grid Evolution Model of Compressed Air Energy Storage System

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56) Device and Method for Suppressing Shaft Torsional Vibration in Compressed Air Energy Storage System

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57) Economic Evaluation Method and Device for Non-supplementary Fired Compressed Air Energy Storage System

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58) 50MW Adiabatic Compressed Air Energy Storage Method

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59) High-temperature Compound Regenerative Adiabatic Compressed Air Energy Storage System

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60) Multi-stage Compression Method for Compressed Air Energy Storage

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61) Unit Commitment Method and Device for Wind Power Grid Integration Considering Compressed Air Energy Storage

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62) Exhaust Gas Recooling Compressed Air Energy Storage System

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63) Energy Storage Power Generation System and Its Control Method

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64) Energy Storage Refrigeration System and Its Control Method

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65) Islanded Energy System and Its Operation Method

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66) Residual Pressure Comprehensive Utilization System for Compressed Air Energy Storage

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67) Cold-Heat-Power Cogeneration System Based on Solar Energy

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68) Gas Storage System and Its Operation Method

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69) Gas Storage Device and Adjustment Method for Improving Storage Efficiency

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70) Mixed-Integer Programming-based Optimal Dispatch Method for Hydro-Thermal Unit Commitment

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71) Air Purification System for Carbon Fiber Pyrolysis

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72) Method for Recycling Carbon Fiber from Waste Carbon Fiber Reinforced Composites

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73) Independent Micro Energy Network and Its Optimal Configuration Method

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74) Non-supplementary Fired Compressed Air Energy Storage System

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75) Short-circuit Current Calculation Method for Power Systems with Massive Wind Turbines

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76) Control Method and Device for Three-phase Unbalanced Current in Virtual Synchronous Generator

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77) Control Method and Device for Virtual Inertia of Doubly-fed Wind Turbine

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78) Automatic Generation Control Method

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79) Method and Device for Transmitting Communication Information in Distribution Network Communication System

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80) Method for Solving Node Voltage After Partial Changes in Power Grid System

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81) Capacity Configuration Method for Distributed Compressed Air Energy Storage System

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82) Unit Commitment Method for Power System with Regenerative Compressed Air Energy Storage (RCAES)

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83) Power System Energy Storage Optimization Method

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84) Improved EMTP Algorithm for PWM Converter Average Model

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85) Regenerative Compressed Air Energy Storage System and Using Method Thereof

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86) Method and System of Efficiency Evaluation of RCAES System

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Research Awards:

1) Non-supplementary Fired Compressed Air Energy Storage Key Technologies and Demonstration Applications, China Electrotechnical Society Technical Invention Special Prize

2) Key Technologies and Applications of Large-scale Electrochemical Energy Storage for Efficient Support of Renewable Energy Power Systems, First Prize of Qinghai Provincial Science and Technology Progress Award

3) Collaborative Autonomous Regulation Key Technologies and Applications for Renewable Energy Power Systems, First Prize of Qinghai Provincial Science and Technology Progress Award

4) Key Technologies, Equipment, and Applications of Virtual Synchronous Generators Supporting New Power Systems, First Prize of Hebei Provincial Science and Technology Progress Award

5) Key Technologies and Applications of Compressed Air Energy Storage Power Generation,First Prize of Anhui Provincial Science and Technology Progress Award

6) Key Technologies, Equipment, and Applications of Virtual Synchronous Generators Supporting Renewable Energy Power Systems, First Prize of China Electric Power Science and Technology Progress Award

7) Key Technologies and Applications for Flexible Networking and Optimal Dispatch of Distributed PV-Storage Systems, Second Prize of Anhui Provincial Science and Technology Progress Award

8) Key Technologies and Engineering Demonstration of Large-scale Distributed Electrochemical Energy Storage Applications,Second Prize of China Electrotechnical Society Science and Technology Progress Award

9) Key Technologies, Equipment Development, and Engineering Applications for High-efficiency and Reliable Energy Supply in Qinghai-Tibet Railway Stations, Second Prize of Qinghai Provincial Science and Technology Progress Award

Key Technology Development, Equipment Optimization, and Industrial Integration of Non-supplementary Fired Compressed Air Energy Storage, Second Prize of China Renewable Energy Society Science and Technology Progress Award

1) The Vice Chairman of IEEE PES China Membership Committee

2) A member of Grid-connected Energy Storage and Operation Control TechnologySub-committee of the IEEE PES Technical Committee–China

3) A member of Energy Storage System Professional Committee of Chinese Renewable Energy Society

4) A member of electrotechnical mathematics Professional Committee of Chinese Society for Electrical Engineering

5) A member of Integrated System Professional Committee of Chinese Renewable Energy Society

6) Deputy Director of Safety Technology Professional Committee Beijing Society of Electrical Engineering

7) A member of editorial board《Renewable Energy Resources》

8) A member of youth editorial board《Science China Technological Science》

9) A member of youth editorial board《CSEE Journal of Power and Energy Systems》

10) A member of youth editorial board《Protection and Control of Modern Power Systems》

11) A member of youth editorial board《High Voltage Engineering》

A member of youth editorial board《Journal of Electrical Engineering》