Advances in Simulation, Stability, and Integrated Energy Technologies for New Power Systems

This session focuses on the technological forefront of ensuring the secure and efficient operation of new power systems with high penetration of renewables and power electronics. It covers a complete technical chain from component to system level: in modeling and simulation, it discusses advanced technologies such as electromagnetic transient modeling, real-time digital simulation, and hardware-in-the-loop testing to provide high-fidelity tools for system analysis and validation; in stability analysis and control, it delves into key issues like grid-forming/following control, wind power integration stability, and small-signal stability to address challenges arising from reduced system inertia and strength; in system integration and operation, it addresses the modeling, multi-energy complementary optimization, resilience enhancement, and market mechanisms for low-carbon transition in integrated energy systems. This session aims to build a bridge between academia and industry, fostering collaborative innovation and development in simulation tools, stability theory, and system operational optimization strategy. Topics of interest include, but are not limited to:

1. Electromagnetic transient modeling and simulation technologies for new power systems

2. Real-time digital simulation technologies for power electronic systems

3. Hardware-in-the-loop (HIL) testing technologies and platforms for power electronic systems

4. Grid-forming and grid-following technology for new power systems

5. Power system stability of wind turbine grid integration

6. Small-signal stability analysis method for new power systems

7. Modeling, analysis, and operational optimization of integrated energy systems

8. High-penetration renewable energy and multi-energy complementary coordinated operation

9. Uncertainty, resilience, and secure operation of integrated energy systems

10. Market-oriented applications of integrated energy systems for low-carbon transition

Chair:  

PanWu, Shanghai Jiao Tong University, China

PanWu, Ph.D., is a postdoctoral fellow at the School of Electrical Engineering, Shanghai Jiao Tong University. His primary research focuses on electromagnetic transient modeling and simulation algorithms for new power systems, as well as the development of real-time simulation platforms. He has published over 10 SCI/EI-indexed papers (including 6 as first or corresponding author) in top-tier journals such as IEEE Transactions on Industrial Electronics and the Journal of China Electrical Engineering, and holds 7 authorized invention patents (including 2 U.S. patents). His work has earned him honors including the Best Session Presentation at international conferences and the Outstanding Paper Award from the Chinese Society for Electrical Engineering. Dr. Wu has participated in 4 major research projects, including the National Key R&D Program and General Program of the National Natural Science Foundation of China. He received the Second Prize in the Teaching Achievement Evaluation of the Chinese Association for System Simulation and the National Grand Prize in the University Electronic and Electrical Engineering Innovation Competition. As a key technical contributor, he has been involved in the development of his team’s real-time simulation platform for power electronic systems, achieving a simulation step as low as 100 ns and supporting switching frequencies up to 200 kHz—a capability at the internationally leading level.

Co-chairs ：

JinXu, Shanghai Jiao Tong University, China

JinXu, Ph.D., associate professor and doctoral supervisor at the School of Electrical Engineering, Shanghai Jiao Tong University. His main research focus is on real-time simulation technologies for the integration of new energy into power systems. He has published over 20 SCI papers and over 40 EI papers. He has developed a real-time simulation platform for power electronic systems and successfully solved problems such as high-frequency power electronic virtual power loss and general equivalent modeling for multi-port cascaded devices. His research results have been cited by international renowned simulation technology teams such as EMTP-RV and RTDS. He was selected for the 2020 Postdoctoral Innovation Talent Support Program (only 8 people in the national electrical engineering field were selected), and received funding from the National Science Foundation of China, and the China Postdoctoral Foundation. He has organized the IET RPG New Energy Modeling Special Issue and the PEDG 2023 Real-Time Simulation Special Topic.

YizhuoMa, Electric Power Planning & Engineering Institute, China

Yizhuo Ma, Ph.D., is a joint postdoctoral fellow at China Electric Power Planning & Engineering Institute and Tsinghua University. His main research focuses on stability analysis and control of renewable energy power systems, as well as electricity markets. He has published more than 10 SCI/EI indexed papers in top journals, including IEEE Transactions on Power Systems and Journal of Modern Power Systems and Clean Energy, with 9 papers as the first or corresponding author. He has also participated in 4 major projects, including the National Key R&D Program of China.

ChuangLi, State Grid Shanghai Municipal Electric Power Company, Electric Power Research Institute, China

ChuangLi, Ph.D., is a Joint Postdoctoral Fellow at Shanghai Jiao Tong University and State Grid Shanghai Electric Power Co. His main research interests focus on the application of artificial intelligence technologies in integrated energy systems. He has published 8 papers as first or corresponding author in journals such as IEEE Transactions on Power Systems, Applied Energy, and Automation of Electric Power Systems. He holds 4 authorized invention patents and has participated in two national key research projects. His work has received several honors including ESI Highly Cited Paper, CAST F5000 Top Papers, and the Excellent Paper Award of Automation of Electric Power Systems. Currently, Dr. Li serves as a reviewer for journals such as Applied Energy, Smart Power, Global Energy Interconnection, Electric Power Engineering Technology, and Zhejiang Electric Power, and has been honored as an Outstanding Reviewer for Zhejiang Electric Power for two consecutive years.