Mr. Dongpeng Han | Operating Mechanism | Best Researcher Award

Assistant | Liaoning University of Technology | China

Mr. Dongpeng Han is a dedicated academic and researcher in the field of electrical engineering with a specialization in electrical apparatus and its control. He has established his career through contributions to advanced control systems for high-voltage vacuum circuit breakers, combining theory with experimental practice. His work reflects a strong balance of scientific depth and practical application, focusing on innovative approaches to improving operational reliability and control strategies in motor operating mechanisms. Through his teaching and research, he continues to contribute to the development of sustainable and efficient solutions in modern power systems.

Publication Profile

ORCID

Education Background

Mr. Dongpeng Han completed his Master’s diploma in electrical engineering with a focus on apparatus and control systems. His academic training involved intensive research on the control system of motor operating mechanisms for vacuum circuit breakers, including designing, manufacturing, and debugging signal processing and switching power supply circuits. He also developed experimental platforms to test circuit breaker performance under various voltages and strategies. This educational foundation provided him with both theoretical expertise and hands-on technical experience, shaping his skills as a scholar and laying the groundwork for his continued contributions in high-voltage electrical research.

Professional Experience

Mr. Dongpeng Han is currently serving as a full-time teacher at the School of Electrical Engineering, Liaoning University of Technology, located in Jinzhou, China. In this role, he is actively engaged in teaching undergraduate and graduate students, sharing his expertise in electrical apparatus, control systems, and motor operating mechanisms. His professional journey demonstrates a deep commitment to both pedagogy and applied research. By blending academic instruction with his ongoing research projects, he ensures that his students gain insights into cutting-edge technological developments while developing the practical skills necessary for engineering practice.

Awards and Honors

Throughout his academic and professional career, Mr. Dongpeng Han has distinguished himself as a researcher and teacher who integrates practical innovation with theoretical advancement. His recognition is rooted in the originality and quality of his work on motor operating mechanisms for high-voltage vacuum circuit breakers. By publishing in internationally recognized journals and collaborating with fellow scholars, he has earned acknowledgment from the scientific community. His continued engagement in impactful research projects reflects the professional respect he has garnered and positions him as a promising figure in the electrical engineering discipline.

Research Focus

Mr. Dongpeng Han’s research is centered on the design, control, and optimization of motor operating mechanisms for high-voltage vacuum circuit breakers. He has explored advanced control strategies and built experimental platforms to evaluate breaker performance under different voltages and control parameters. His studies emphasize flexible operation control strategies that enhance the efficiency, safety, and reliability of power systems. By addressing challenges in signal processing circuits and power supply designs, his work bridges fundamental engineering principles with practical applications, contributing significantly to modern electrical system stability and innovation in apparatus control technology.

Publication Notes

Title: Research on Flexible Operation Control Strategy of Motor Operating Mechanism of High Voltage Vacuum Circuit Breaker
Published Year: 2025
Citation: 1

Conclusion

Mr. Dongpeng Han has developed into a skilled academic and researcher whose expertise in electrical apparatus and control systems continues to expand. His educational background, combined with professional teaching and research engagements, reflects his passion for advancing high-voltage engineering technologies. With a focus on flexible operation control strategies for motor operating mechanisms, his contributions extend both to the academic sphere and practical engineering applications. He stands as a promising contributor to the ongoing evolution of reliable and efficient electrical systems, shaping future progress in power engineering research and education.