Prof. XueQin Zhang | High Voltage Engineering | Best Researcher Award

Published on by Natural Scientist Awards

Prof. XueQin Zhang | High Voltage Engineering | Best Researcher Award

Associate Professor at Southwest Jiaotong University, China

Prof. XueQin Zhang is an Associate Professor and Ph.D. Supervisor at the School of Electrical Engineering, Southwest Jiaotong University. She is a recognized provincial-level talent in Sichuan and leads the “Line Safety and Protection in Complex Environments” direction within China’s National Key Innovation Team for Traction Power Supply Safety in Rail Transit. Her research specializes in high voltage technology, focusing on discharge mechanisms and detection techniques for external insulation in complex environments. Prof. Zhang has published 60 SCI/EI-indexed papers, co-authored the 3rd edition of High Voltage Technology, and holds 6 national patents. She has served as the principal investigator or key contributor to 15 national and provincial-level projects, including 7 funded by the National Natural Science Foundation of China. A member of IEEE and CIGRE, she has contributed to 2 IEEE standards and delivered keynote speeches at major international conferences. Her work has earned her multiple awards, highlighting her significant contributions to electrical engineering research.

Publication Profile

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Academic and Professional Background

Prof. XueQin Zhang is an accomplished Associate Professor and Ph.D. Supervisor at the School of Electrical Engineering, Southwest Jiaotong University. Renowned for her expertise in high voltage technology, she is recognized as a provincial-level talent in Sichuan Province and plays a leading role in national scientific initiatives. Specifically, she heads the “Line Safety and Protection in Complex Environments” research direction under the National Key Innovation Team for Traction Power Supply Safety in Rail Transit. Her research primarily investigates the discharge mechanisms and the development of key detection technologies related to external insulation performance in complex and challenging environmental conditions. With a commitment to advancing rail transit safety and electrical engineering standards in China, she contributes both academically and practically to the field. Through her leadership and innovation, Prof. Zhang continues to drive impactful research that enhances the reliability and safety of power systems in critical infrastructure settings

Research Focus

Prof. XueQin Zhang’s research primarily focuses on high voltage engineering and power system insulation performance, with a strong emphasis on safety and reliability in electrified railway systems. Her work spans several cutting-edge areas, including electrothermal ice-melting techniques, aging evaluation of composite insulators using hyperspectral imaging, and insulation performance under extreme environmental conditions such as rain, pollution, and high altitudes. She integrates advanced modeling techniques like IDBO-BiGRU and IPCA-SVM into electrical diagnostics, showcasing her expertise in artificial intelligence applications in power systems. Prof. Zhang also explores the interaction of electric fields, thermal stress, and environmental factors, aiming to enhance operational efficiency and safety in high-speed rail infrastructure. Her research on flashover characteristics, neutral current analysis, and insulation aging prediction reflects a holistic approach to railway electrical safety. Overall, her work contributes significantly to smart grid resilience, traction power supply protection, and insulation technology—making her a vital contributor to modern railway electrification and high-voltage engineering. ⚡

Publication Top Notes

  • Electrical-thermal conduction and distribution characteristics of the catenary system for electrified railway applying electrothermal ice-melting techniqueApplied Thermal Engineering, 2025

  • Evaluation of the hygrothermal aging state of composite insulators based on hyperspectral imaging technology and the IDBO-BiGRU modelMeasurement, 2025

  • Contribution analysis of neutral current for the substations invaded by stray current from multiple metro linesInternational Journal of Electrical Power and Energy Systems, 2025 🚇🔌

  • A novel pixel-level aging status evaluation method on on-site post insulatorsAdvanced Engineering Informatics, 2025

  • Lifetime prediction and aging characteristics of silicone rubber under synergistic heat-moisture interactionEngineering Failure Analysis, 2025

  • A pixel-level assessment method of the aging status of silicone rubber insulators based on hyperspectral imaging technology and IPCA-SVM modelExpert Systems with Applications, 2025 | 📄 Citations: 1 🤖📊

  • Ice Melting Mechanism and Key Technologies for High-speed Railway Contact Networks: a Systematic ReviewSystematic Review, 2025

  • Flashover Characteristics of Roof Insulator on High-Speed Trains Under Heavy Rain ConditionsIEEE Transactions on Dielectrics and Electrical Insulation, 2025

  • A Cooperative Optimization Method of Electric Field-Flow Field for Roof Insulators of High-Speed TrainsIEEE Transactions on Transportation Electrification, 2025

  • AC Pollution Flashover Characteristics and Altitude Correction of Train Roof Insulators at High AltitudeIEEE Transactions on Dielectrics and Electrical Insulation, 2025