Dr. Shiqi Zhang - Electrical engineering - Young Scientist Award
Yanshan University - China
Professional Profile
Early Academic Pursuits
Shiqi Zhang's academic journey began with a solid foundation in electrical engineering. After completing his Bachelor's degree, he pursued a Master's degree in Electrical Engineering at Curtin University. His master's thesis focused on enhancing energy systems, which set the stage for his future research. Currently, as a Ph.D. candidate at Yanshan University, Zhang continues to specialize in hydrogen converters and system energy management, pushing the boundaries of renewable energy technologies.
Professional Endeavors
Throughout his academic career, Zhang has been deeply involved in innovative research projects. His work focuses on integrating renewable energy sources with hydrogen production systems and developing high-efficiency power converters for electrolysis. He has been proactive in applying for national patents, with 27 applications to his name, and has authored 9 SCI/EI-indexed journal articles. Zhang's contributions extend beyond academia, involving significant consultancy and industry-sponsored projects, notably the National Natural Science Foundation of China project on medium-voltage photovoltaic grid-connected inverters and the National Key R&D Program of China on new energy technologies.
Contributions and Research Focus
Zhang's research is centered on the design and optimization of power converters for renewable energy applications. He has developed dynamic models and control strategies for hydrogen production technologies, contributing significantly to green energy solutions. His work aims to enhance the efficiency and stability of Electrical engineering renewable energy systems, particularly through innovative power converters and energy management methods. Zhang's research has resulted in several patents and publications, demonstrating his commitment to advancing renewable energy technologies.
Accolades and Recognition
Shiqi Zhang's innovative work has earned him prestigious awards and recognition. He has received two Gold Awards at the China International "Internet+" Innovation and Entrepreneurship Competition, highlighting his contributions to renewable energy research. His patents and publications reflect his significant impact on the Electrical engineering field, showcasing his dedication to developing cutting-edge technologies that support global efforts toward carbon neutrality.
Impact and Influence
Zhang's research has had a considerable impact on the field of renewable energy. His contributions to the development of high-efficiency power converters and energy management systems have advanced the understanding and application of hydrogen production technologies. By addressing key issues in renewable energy integration, Zhang's work supports the transition to sustainable energy practices. His research not only propels technological advancements but also contributes to Electrical engineering environmental sustainability.
Legacy and Future Contributions
As Shiqi Zhang continues his research and professional endeavors, his future contributions are expected to further influence the field of renewable energy. His ongoing projects and collaborations aim to develop new technologies and strategies for efficient energy management and hydrogen production. Zhang's work will likely continue to inspire and guide future researchers, contributing to the global efforts in achieving sustainable energy solutions and carbon neutrality. His legacy in the field of electrical engineering and renewable energy is marked by his dedication to innovation, research excellence, and environmental sustainability.
NOTABLE PUBLICATIONS
Overview of electrolyser and hydrogen production power supply from industrial perspective 2024(3)
A Novel Phase-Locked Loop Structure to Enhance Converter Stability in Weak Grids 2023(2)
Overview of US patents for energy management of renewable energy systems with hydrogen 2023(10)
A Multi-Level Fuzzy Evaluation Method for the Reliability of Integrated Energy Systems 2023(3)