CALL FOR PAPERS
Special Issue: Key Technologies for Flexible and Efficient Power Supply in New Type Power Systems
Summary
With the continuous deepening utilization of new energy sources such as wind and solar energy, the rapid rise of energy storage technologies, and the widespread adoption of electric vehicles and rail transit, modern power systems are gradually evolving into new type power systems dominated by power electronic equipment and synchronous machines. These systems achieve high operational efficiency and flexibility through efficient power conversion and control strategies. Additionally, intelligent control technologies, acting as the neural center of the system, enhance the flexibility and response speed of energy utilization, ensuring the stability and efficiency of the system when facing variable loads and multiple input sources.
This special issue focuses on the key technologies for flexible and efficient power supply in new type power systems, emphasizing the critical role of new energy and energy storage technologies. We explore their theoretical foundations, technological innovations, and integrated applications in actual energy systems, with a particular focus on their performance in different application scenarios. Our aim is to promote the intelligent and sustainable development of key technologies for flexible and efficient power supply, providing new perspectives and solutions for the clean transition of the energy industry. We are seeking original work that has not been published through other channels.
Topics of interest (include but are not limited to)
1. Converter topologies and design theories for new type power systems
2. Power electronic technologies and control methods for new type power systems
3. Stability analysis and control methods for new type power systems
4. Operational mechanisms and economic dispatch research for power systems in the context of new energy
5. Optimization control methods and optimal dispatch strategies for multi-energy coupling systems
6. Research on energy storage technologies in new type power systems
7. Fault detection, identification, and control methods in new type power systems
8. Research on energy trading and market mechanisms in new type power systems
Period for Submission
1 August 2024 — 31 January 2025
URL of Submission
1) https://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=10352418
Guest Editor-in-Chief
Prof. Tao Jin, Fuzhou University
Email: jintly@fzu.edu.cn
Dr. Tao Jin is a Professor of Fuzhou University. He is an IET Fellow and a Senior Member of IEEE. He has awarded as one of the top 2% of global scientists, and received the Fujian Electric Power Technology Outstanding Contribution Award. He is the co-editor-in-chief of the international journal ESTA and serves on the editorial boards of journals such as PCMP, High Voltage, and Scientific Reports. He has published two books and approximately 240 SCI/EI-indexed papers in renowned journals, with 82 papers published in JCR Q1 journals as the first author or corresponding author.
Guest Co-Editor-in-Chief
Prof. Dongsheng Yang, Northeastern University
Email: yangdongsheng@mail.neu.edu.cn
Dr. Dongsheng Yang is a professor of Northeastern University. He is an IET Fellow. He serves as the deputy director of the Intelligent Adaptive Collaborative Optimization Control Professional Committee of the Chinese Association for Artificial Intelligence, and the deputy director of the Parallel Control Professional Committee of the Chinese Association of Automation. He is also an associate editor of journals such as IEEE Transactions on Cybernetics and IEEE Transactions on Neural Networks and Learning Systems.
Prof. Sheng Lin, Southwest Jiaotong University
Email: slin@swjtu.edu.cn
Dr. Sheng Lin is a Professor of Southwest Jiaotong University. He is an IET Fellow and an IEEE Senior Member. He currently serves as the Deputy Secretary-General of the IEEE PES (China) Protection and Control Technology Committee. He has led four projects funded by the National Natural Science Foundation of China He has published over 130 academic journal papers, with more than 100 indexed by SCI/EI, authored two monographs, and holds over 60 authorized invention patents. He has received several scientific and technological awards.
Dr. Yunzhi Lin, China Railway Electrification Bureau Group Co., Ltd
Email: yunzhilin@hotmail.com
Dr. Yunzhi Lin serves as the Chief Engineer at China Railway Electrification Bureau Group Co., Ltd.. He is the director of the National Engineering Research Center for Railway Traction Power Supply Technology. He has received over ten awards. As the primary inventor, he holds 23 authorized invention patents and has registered 11 software copyrights. As the first or corresponding author, he has published 18 papers in domestic and international journals, authored seven academic monographs, and co-edited seven national or industry standards.
Prof. Yonghui Sun, Hohai University
Email: yhsun@hhu.edu.cn
Dr. Yonghui Sun is a Professor of Hohai University. He has been listed in the global top 2% of scientists for "Lifetime Scientific Influence" (2022-2023) and has appeared in the "Annual Scientific Influence Rankings" for four consecutive years (2020-2023). He has published over 120 journal papers, with more than 100 indexed by SCI, including five ESI highly cited papers, and holds more than 50 authorized invention patents. As a principal contributor, he has received several awards such as the 2010 First Prize for Science and Technology from Jiangsu Province.