This book showcases the latest research trends, methodologies, and experimental findings across a wide spectrum of cutting-edge topics, as a prominent academic conference in the field of electrical engineering in China. These include electrical technology, power systems, electromagnetic emission techniques, and electrical equipment, reflecting the field's close alignment with ongoing advancements in multiple technological domains.
The objective of the proceedings is to provide a comprehensive interdisciplinary platform for researchers, engineers, academics, and industry professionals to present innovative research and development outcomes in electrical engineering. This forum encourages the exchange of ideas that integrate knowledge from diverse disciplines, fostering deeper insights into complex engineering challenges.
This book serves as a valuable reference for researchers and graduate students, offering a rich resource for exploring state-of-the-art theories and practical solutions in electrical engineering.

Consists of papers presented at ACCES 2025 Highlights the recent advances made in the area of Electrical Engineering Serves as a reference for researchers and practitioners in academia and industry

Autorentext

Prof. Qingxin Yang is a president of China Electrotechnical Society. National Candidate of the New Century Hundred-Thousand-Ten Thousand Talents Project, Provincial-level Young/Middle-aged Expert with Outstanding Contributions, Provincial-level Managed Outstanding Expert, Recipient of the State Council Special Government Allowance. He has previously served as the president of Tianjin Polytechnic University (2014-2018) and the president of Tianjin University of Technology (2006 2014).Research Focus (since 1983): Numerical computation of engineering electromagnetic fields and magnetic technology applications.
Key Academic Contributions: Developed parameter coupling algorithms for electromagnetic dynamic characteristics; established finite element methods for 3D permanent magnetic fields with arbitrary magnetization directions; innovated separation techniques for engineering eddy current and hysteresis losses; pioneered finite element computation of giant magnetostrictive effects; created mesh-free methods for electromagnetic field numerical computation; designed annular permanent magnets for large-diameter Czochralski single crystal furnaces.

Dianguo Xu (fellow, IEEE) received the B.S. degree in control engineering from Harbin Engineering University, Harbin, China, in 1982, and the M.S. and Ph.D. degrees in electrical engineering from Harbin Institute of Technology (HIT), Harbin, China, in 1984 and 1989, respectively. In 1984, he was with the Department of Electrical Engineering, HIT as an assistant professor. Since 1994, he has been a professor with the Department of Electrical Engineering, HIT. He was the dean of School of Electrical Engineering and Automation, HIT from 2000 to 2010. He was the vice president of HIT from 2014 to 2020. He authored and coauthored more than 600 technical papers. His research interests include renewable energy generation technology, power quality mitigation, sensorless vector controlled motor drives, high performance servo system.

Xuerong Ye (senior member, IEEE) received the B.S., M.S., and Ph.D. degrees in electrical engineering from Harbin Institute of Technology, Harbin, China, in 2003, 2005, and 2009, respectively. He is currently the dean of the School of Electrical Engineering and Automation, Harbin Institute of Technology, Harbin, China. His main research interests include failure analysis of electric apparatus and electronics, reliability assessment, and robust design of quality consistency. Dr. Ye is a fellow of IET and an associate editor for IEEE Access and Journal of Power Electronics.

Qiuyue Nie was born in Liaoning, China, in 1982. She received the Ph.D. degree in plasma physics from the Dalian University of Technology, Dalian, China, in 2010. She is currently a professor with the School of Electrical Engineering and Automation, Harbin Institute of Technology, Harbin, China. Her research interests include the plasma generation technologies and their applications.

Yueshi Guan (senior member, IEEE) was born in Heilongjiang, China, in 1990. He received the B.S., M.S., and Ph.D. degrees in electrical engineering from the Harbin Institute of Technology, Harbin, China, in 2013, 2015, and 2019, respectively. From 2021 to 2024, he was an associate professor. Since 2024, he has been a professor with the Department of Electrical and Electronics Engineering, HIT. His research interests include the areas of high-frequency and very-high-frequency converters, single-stage ac/dc converter, and high conversion ratio converters.

Inhalt

Research on the Influence of Rail Deposition Layer on the Contact Characteristics of ArmatureRail Interface in Rail Gun.- Inertial and damping based on optimal control for grid-forming converter.- A Cloud-Edge Collaboration Framework for External Force Damage Detection in Distribution Network.- Design of Protection Method for ELCID test.- Study on the Influence of Temperature on the DC Electrical Properties of Cross-linked Polyethylene Cable Insulation Materials.- A Bi-Level Reserve Capacity Calculation Method for Distribution Networks and DER Aggregation Zones Based on Analytical Target Cascading.- Theoretical and Applied Review of Infrared Imaging Technology in High-Voltage Bushing Fault Diagnosis.- Numerical Simulation of Audio-frequency Magnetotelluric Method for Goaf under Transmission Towers.- Study on the Diffusion Law of Pyrolytic Characteristic Gases in the Outer Sheath of High-voltage Cables based on Computational Fluid Simulation.- Research on Hybrid Control Strategy for High-Voltage High-Power LLC Resonant Converters.- A Single-Stage Power-Conversion AC-DC Wireless Power Transfer System with Bridgeless Power Factor Correction Rectifier and Resonant Inductive Coupling. Principle, Design and Application of the DC Chopper for VSC-HVDC based Offshore Wind Farm Integration.- A Hybrid Double Parallel Converter with Voltage Self-balancing and Its Control Method.- Research on passivity-based control of three-phase voltage PWM rectifier with constant power load.- A precise blocking recloser scheme for distribution lines.