Top Youth Talent at North China Electric Power University, China.
Yu-Ling He is a distinguished professor and Vice Dean at North China Electric Power University, specializing in mechanical engineering and electromechanical systems. He holds a Ph.D. in Power Machinery and Engineering and has held various academic and leadership roles, including Vice Dean of the Hebei Engineering Research Center and Vice President of the Hebei Society for Vibration Engineering. His research focuses on advanced design, manufacturing, and intelligent maintenance of electric machines, with notable contributions to the modeling and analysis of complex electromechanical systems. His work is recognized through multiple awards, including the Top Youth Talent of Hebei Province and various technical innovation awards. Dr. He is also an IEEE Senior Member and has authored numerous influential publications and patents in his field. His collaborative efforts extend globally, enhancing the impact of his research in both academic and industrial applications.
Profile
Yu-Ling He has a robust academic foundation with degrees in Mechanical Engineering, Electrical Engineering, and Mechatronics Engineering from North China Electric Power University, where he also completed his Ph.D. in Power Machinery and Engineering. His journey from Lecturer to Professor at the same institution highlights a continuous trajectory of academic excellence and leadership. Notable achievements include his role as an Academic Visitor at the University of Nottingham and his recognition as Dr. Excellent graduate of Beijing City and various talent awards in Hebei Province.
Professional Experience
Yu-Ling He has held prestigious roles including Vice Dean of the Department of Mechanical Engineering, North China Electric Power University, and Vice President and Secretary General of the Hebei Society for Vibration Engineering. His professional journey is marked by leadership roles and contributions to various academic and research committees, enhancing his influence in the field of mechanical and electrical engineering.
Research Interests
His research focuses on advanced design, manufacturing, and intelligent maintenance of electric machines, mathematical modeling in complex electromechanical systems, and intelligent mechatronics equipment development. These interests drive innovative solutions in power machinery and engineering.
Research Skills
Yu-Ling He demonstrates exceptional research skills in electromechanical systems, vibration engineering, and fault diagnosis. His proficiency in mathematical modeling and intelligent systems has led to significant advancements in understanding and improving electric machinery performance.
Research Contributions
Yu-Ling He’s contributions are extensive, including leading significant projects funded by the National Natural Science Foundation of China and other high-profile grants. His work addresses complex issues such as thermal load characteristics, mechanical properties of stator-winding systems, and vibration suppression in electric machines.
Geographic Impact
His research has had a substantial impact in China and internationally, with collaborations extending to institutions such as the University of Nottingham and contributions to global conferences. His work supports advancements in electric power systems and machinery across diverse geographic locations.
Collaborative Efforts
Yu-Ling He’s collaborative efforts are evident in his roles with various academic journals and societies, such as IEEE and the Chinese Society for Vibration Engineering. His partnerships with international experts and his involvement in multi-national research projects underline his commitment to global scientific progress.
Applied Research
His applied research includes the development of systems for vibration suppression, fault detection, and intelligent maintenance. Projects like the Small New Robot for residual obstacle removal and the intelligent external dust removal system showcase practical applications of his research in enhancing industrial and environmental systems.
Specific Projects and Publications
Yu-Ling He has led numerous projects and published extensively in high-impact journals such as IEEE Transactions on Industrial Electronics and IET Electric Power Applications. His work includes innovative models for electromechanical characteristics and fault analysis in synchronous generators, contributing valuable knowledge to the field.
Environmental Health
Although his primary focus is on mechanical and electrical engineering, his research into advanced maintenance systems and fault detection indirectly supports environmental health by improving the efficiency and reliability of power generation and reducing potential environmental impacts from machinery failures.
Vector Control, Parasitology, and Infectious Diseases
Yu-Ling He’s research does not directly address vector control, parasitology, or infectious diseases. His work is more centered on engineering and mechanical systems rather than biomedical applications.
Awards and Recognition
Yu-Ling He has received numerous awards, including the Top Youth Talent of Hebei Province, Young Star Pacesetter of Hebei Province, and several technical invention and progress awards. His achievements reflect his outstanding contributions to mechanical and electrical engineering.
Conclusion
Yu-Ling He is a distinguished researcher whose extensive academic background, innovative research, and significant contributions to the field of mechanical and electrical engineering make him a strong candidate for the Best Researcher Award. His impactful research, leadership roles, and global collaborations highlight his excellence and dedication to advancing engineering science.
Publications Top Notes
- A comprehensive study on electromagnetic torque and rotor UMP based on an improved 3D static air-gap eccentricity model
📝 Authors: Xu, M.-X., He, Y.-L., Zhang, W., Pang, Z.-W., Gerada, D.
📅 Year: 2024
- Mechanical properties and insulation damage of PMSG stator end windings with eccentricity considerations
📝 Authors: Dai, D.-R., He, Y.-L., Xu, M.-X., Fu, Z.-X., Gerada, D.
📅 Year: 2024
- Reliability Evaluation of Distribution Network with Electric Vehicles and Distributed Generations Based on Network Equivalence and Sequential Monte Carlo Method
📝 Authors: Wang, H., Li, K., Liu, Z., Sun, K., Yang, P.
📅 Year: 2024
- Cable Conduit Defect Recognition Algorithm Based on Improved YOLOv8
📝 Authors: Kong, F., Zhang, Y., Zhan, L., Zheng, H., Dai, D.
📅 Year: 2024
- A Novel MOWSO algorithm for Microgrid multi-objective optimal dispatch
📝 Authors: He, Y.-L., Wu, X.-W., Sun, K., Zeng, S.-M., Zhang, Y.
📅 Year: 2024
- Impact of rotor interturn short circuit on stator thermal response characteristics in turbo generator
📝 Authors: Zhang, W., He, Y., Xu, M., Wang, X., Li, J.
📅 Year: 2024
- Multi-objective capacity estimation of wind – solar – energy storage in power grid planning consideration policy effect
📝 Authors: Huan, J., Zhang, X., He, Y., Han, Z., Wang, H.
📅 Year: 2024
- Degradation State Evaluation of Wind Turbine Generator Set Pitch Bearing Based on Multivariant Refined Composite Multiscale Fluctuation Dispersion Entropy and Cumulative Euclidean Distance Matrix Measure
📝 Authors: Wang, X., Li, Y., Fu, R., He, Y.
📅 Year: 2024
- Impact of inter-turn short fault on winding insulation temperature rising characteristic in PMSG
📝 Authors: He, Y., Li, Y., Zhang, W., Xu, M., Wang, X.
📅 Year: 2024
- Impact of RISC fault position on stator thermal behavior in synchronous generators
📝 Authors: Zhang, W., He, Y.-L., Xu, M.-X., Wang, X.-L., Gerada, D.
📅 Year: 2024