2025 5th Power System and Green Energy Conference (PSGEC 2025)
Aug. 20 to 23, 2025 | Hong Kong, SAR, China
https://www.psgec.org

2025 5th Power System and Green Energy Conference (PSGEC 2025) will be held in Hong Kong from Aug. 20 to 23, 2025. PSGEC 2025 is co-organized by Shanghai Jiao Tong University and City University of Hong Kong, technically sponsored by IEEE Hong Kong Section and Shanghai University of Electric Power, supported by Specialized Committee on Digital Twin of Integrated Energy Systems, China Simulation Federation, Sichuan University, South China University of Technology, North China Electric Power University, Chongqing University, Southeast University, Shandong University, Journals Center, China Electric Power Research Institute, Journal of Global Energy Interconnection, Qingluan Technology (Chengdu) Co., Ltd, and Shanghai Peike Technology Co., Ltd. , and media supported by Journal Proceedings of the CSEE, Automation of Electric Power System, Power System Protection and Control, New Type Power Systems, POWER SYSTEM TECHNOLOGY, High Voltage Engineering, Electric Power Automation Equipment, Electric and Machines and Control, Electric Power Engineering Technology, Electric Power Information and Communication Technology, Electric Machines and Control Applications, Electric Power Construction, NANFANG NENGYUAN JIANSHE, NEIMENGU DIANLI JISHU, CSEE Journal of Power and Energy Systems(CSEE JPES), Journal of Modern Power Systems and Clean Energy, Protection and Control of Modern Power Systems, High Voltage, Global Energy Interconnection, Cyber-Physical Energy Systems, Energy Conversion and Economics, Bjx.com.cn, AR Dianqi, ESS-BatteryHorizon, Smart Power & Energy Security etc.


●Publication & Indexing
1) All the accepted and presented papers will be submitted for inclusion into IEEE Xplore（ISBN: 979-8-3315-3774-6）subject to meeting IEEE Xplore’s scope and quality requirements. The publisher will submit articles to Engineering Village, Scopus, Web of Science and other databases for review and indexing after publication.

2) Selected papers with great extension will be recommended to publish in international journals.

PSGEC 20234/2022/2021 has all been indexed by EI Compendex.
See more indexing info. https://psgec.org/pub.html

●Speakers
Prof. CHUNG Shu Hung Henry
City University of Hong Kong, Hong Kong S.A.R, China
Biography: Henry Shu-Hung Chung received the B.Eng. and Ph.D. degrees in electrical engineering from Hong Kong Polytechnic University, Hong Kong, in 1991 and 1994, respectively.
Since 1995, he has been with the City University of Hong Kong, where he is currently the Dean of Students, a Chair Professor with the Department of Electrical Engineering, and the Director of the Centre for Smart Energy Conversion and Utilization Research. He has published two books, authored ten research book chapters, and more than 500 technical papers including 250 refereed journal papers in his research areas, and holds 80 patents. His current research interests include renewable energy conversion technologies, lighting technologies, energy harvesting, smart grid technologies, and computational intelligence for power electronic systems.
Dr. Ching is Fellow of IEEE. He was recipient of 2021 IEEE PELS R. David Middlebrook Achievement Award for his contribution to energy utilization technologies for smart cities. He received CityU Outstanding Research Award in 2020 and CityU Teaching Excellence Awards in 2018 and 2022, respectively. He is currently an Associate Editor for the IEEE Transactions on Power Electronics and the IEEE Journal of Emerging and Selected Topics in Power Electronics. He was the Editor-in-Chief of the IEEE Power Electronics Letters 2014–2018. He was also the Chair of the Technical Committee of the High-Performance and Emerging Technologies, IEEE Power Electronics Society in 2010–2014. He was the recipient of numerous industrial awards for his invented energy saving technologies

Prof. Qian Ai
Shanghai Jiao Tong University, China
Biography: Ai Qian obtained his Bachelor's Degree from Shanghai Jiaotong University, followed by a Master's Degree from Wuhan University, and culminated his academic pursuits with a Ph.D. from Tsinghua University. After a period of postdoctoral research in at the University of Bath and Nanyang Technological University, he returned to Shanghai Jiaotong University in 2003, where he was appointed as a professor in the electrical engineering department. His research focuses on power system operation, virtual power plants, microgrids, power quality power system simulation, big data and its application in power systems regional energy network.
Professor Ai Qian has published over 300 papers and 9 books, including 180 SCI/EI papers. He has more than 20 authorized patents. He has presided over 3 National Natural Funds, 2 National Key Research and Development Programs, and many projects of State Grid and provincial and ministerial levels. Professor Ai Qian is also actively involved in academic editorial work, serving on the editorial boards of several prestigious journals including Electric Power Automation Equipment, Power System Protection and Control, and Distributed Energy. He is a member of many technical committees, including the IEEE Technical Committee on Power Systems, IEEE Technical Committee on Intelligent Control, and IFAC Technical Committee on Adaptive and Learning Systems. He serves as the editor board member of Electric Power Automation Equipment, Power System Protection and Control and Distributed Energy. He is senior member of IEEE.

●Special Sessions
Special Session I: Resilience enhancement strategy of power system against extreme events
Chair: Assoc. Prof. Chuan He, Sichuan University, China

Vice Chair: Assoc. Prof. Lu Nan, Sichuan University, China

In the face of an increasingly unpredictable climate and the rising frequency of extreme weather events, ensuring the resilience of power systems has become a paramount concern for utilities, governments, and researchers. Power system resilience refers to the ability of the grid to withstand, adapt to, and rapidly recover from disruptive events, minimizing the impact on electricity supply and maintaining critical services. This special session covers different comprehensive resilience enhancement strategies to address the challenges posed by extreme events.

Related Topic:
1) Fault modeling and fault propagation mechanism under extreme events;
2) Resilience evaluation of new-type power system;
3) Power system planning against extreme events;
4) Power system operation during extreme events;
5) Optimal restoration of power system after extreme events;
6) AI-based applications for improving power system resilience.


Special Session II: Electricity market with a high share of clean energy and energy storage
Chair: Assoc. Prof. Pei Yong, Chongqing University, China

Vice Chair: Prof. Zhifang Yang, Chongqing University, China

The electricity market can optimize the resource allocation of the power sector in different time scales. Different countries have developed their respective market structures and mechanisms. However, most electricity markets are designed for fossil-fuel-dominated power systems. With the increase of clean energy (e.g., hydropower, wind power, and solar power) and energy storage (e.g., pumped hydro and electrochemical), existing market designs might become incompetent to integrate renewables and guarantee power loads. Therefore, it is necessary to study the topic of the electricity market with a high share of clean energy and energy storage.

Related Topic:
• Long-term market for clean energy and energy storage
• Day-ahead and real-time market with a high share of clean energy
• Modeling of hydropower, wind, solar, or storage in the electricity market
• Ancillary service market design
• Pricing of clean energy and energy storage
• Market design with a high share of clean energy
• Coordination of different markets
• Electricity market simulation
• Market behaviors analysis
• Efficient market cleaning technologies


Special Session III: Control and Optimization of New Type Power Systems
Chair: Prof. Daogang Peng, Shanghai University of Electric Power, China



Vice Chair: Assoc. Prof. Huirong Zhao, Shanghai University of Electric Power, China

Vice Chair: Assoc. Prof. Licheng Wang, Shanghai University of Electric Power, China

Vice Chair: Dr. Bogang Qu, Shanghai University of Electric Power, China



In the context of rapid global energy transformation, this session focuses on the research and practical applications related to new type power systems. Here, in-depth discussions revolve around innovative control techniques that can adeptly handle the fluctuating power flows resulting from the extensive integration of renewable energy sources. Advanced control and optimization strategies are devised to guarantee the stability and reliability of new type power systems, regardless of the intermittent nature of renewables. This session, indeed, paves the way for the construction of a cleaner, more efficient, and reliable power ecosystem, fostering a vibrant environment for knowledge exchange and innovation generation.

Related Topic:
• Variable Renewable Energy Sources Forecasting
• Economic Dispatch Optimization
• Control Strategies for Different Energy Storage Technologies
• Control and Optimization of Integrated Energy System
• Aggregation and Optimization of Virtual Power Plant
• Energy Management of the Integrated Energy System and the Virtual Power Plant
• Collaborative Modeling and Optimization of Power Transmission and Carbon emissions


Special Session IV: Nexus Between Smart Energy and Intelligent Transportation Systems under Dual Carbon Target
Chair: Prof. Sheng Chen, Hohai University, China

Vice Chair: Assoc. Prof. Si Lv, Nanjing University of Posts and Telecommunications, China

Moving towards a low-carbon future, the proliferation of electric/hydrogen vehicles and the wide deployment of energy refueling stations would greatly deepen the interdependence of energy and transportation systems, accelerating the formation of integrated energy-transportation system (IETS). The development in intelligent transportation system is creating many emerging concepts such as car sharing and autonomous driving. These factors would profoundly reshape the human-driving dominated IETS. Meanwhile, advances in power-to-hydrogen, PV-ESS integrated charging station, etc. have also enriched the connotation in energy sector. The above revolution calls for advanced modeling and simulation techniques, as well as opening up a new direction in the IETS research field.

Related Topic:
-Modeling and simulation of IETS
-Low carbon operation & planning of IETS
-Mechanism design for stimulating flexibilities in IETS
-Synergy analysis between intelligent transportation system and smart energy system
-Resilience enhancement and vulnerability analysis of IETS
-Cyber-physical analysis of IETS


Special Session V: AI-aided control for more electric transportation system
Chair: Dr. Pengfeng LIN, Shanghai Jiao Tong University, China

Vice Chair: Assoc. Prof. Fei Gao, Shanghai Jiao Tong University, China

This special session explores the cutting-edge integration of artificial intelligence with control systems for advancing electrified transportation. As the world moves toward sustainable mobility, the complexity of managing electric transportation systems demands innovative solutions. This session brings together researchers, engineers, and practitioners to discuss how AI technologies can enhance the control, efficiency, and reliability of electric vehicles, charging infrastructure, and integrated transportation networks.

Machine learning approaches for optimizing power management and distribution in electric vehicles, advanced predictive control strategies for battery management systems, AI-driven solutions for electric fleet operations, intelligent charging infrastructure coordination, and robust control methods for electric propulsion systems. The session welcomes contributions addressing both theoretical frameworks and practical implementations, with particular emphasis on real-world applications and challenges in transitioning to more electric transportation systems. Topics of interest include but are not limited to the following.

Related Topic:
• Deep learning techniques for dynamic power allocation and energy management
• Reinforcement learning applications in electric vehicle control systems
• AI-enhanced fault detection and predictive maintenance
• Smart charging strategies and vehicle-to-grid integration
• Neural network-based control for electric propulsion systems
• Multi-agent systems for coordinating electric transportation networks
• Hybrid AI approaches for improving system reliability and efficiency
• Real-time optimization of electric vehicle performance and range
• AI solutions for electric public transportation systems
• Intelligent control strategies for electric aerospace applications

●CFP Topics
included but not limited to
AI Applications in Power Systems
Diagnostics & Condition Monitoring
Distributed Generation
Electrical Machines and Transformers
Electricity Market and Power System Economics
Energy Storage, Fuel Cell Technologies, and Trends
Electrical Vehicles, Grid to Vehicle (G2V) and Vehicle to Grid (V2G)
Energy Efficiency
Energy Management
High Voltage Systems
HVDC and FACTS Devices
Industrial Automation and Control
Modelling and Simulation

Modeling Cyber-physical Smart Grids and Demand Response Management
Power Electronics and Drives
Power Engineering Education
Power Quality (PQ)
Power System Operation and Planning
Power System Reliability
Power Systems Control & Protection
Renewable Energy including Modelling, Operation, Control and Integration
Safe and Resiliency through Community-Scale Micro-Grids
Solar Power Systems, Energy and Water Management and Sustainability
Smart Grid Development
Sustainable Energy Technologies
Transmission and Distribution

●Paper Submission
You can submit your full paper through electronic submission system:
https://cmt3.research.microsoft.com/PSGEC2025

●Notes
1. Manuscripts must be written in English;
2. The manuscript should be written in accordance with the standard of template;
3. The paper should be no less than 5 pages and no longer than 10 pages;
4. Plagiarism is prohibited;
5. Duplicate submission is prohibited;

●Call for participants
1,Presenter: As presenter, you need to submit the abstract and title of your presentation before register. For further information, please contact us at: psgec@vip.163.com
2,Listener:You are welcome to attend this great event. You need to complete the registration as Listener before the registration deadline.
3,Reviewer: We sincerely welcome professors, associate professors, teachers and other experts in these areas join the conference as a reviewer. Welcome to send email to psgec@vip.163.com for further information.

●Contact Us:
For all general questions, please contact
Ms. Chou
Email: psgec@vip.163.com
Cellphone: +86-17723329879
WeChat: APISE17358663189
Website: https://www.psgec.org/