Ouyang Jing | MicroGrid | Best Researcher Award

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Dr. Ouyang Jing | MicroGrid | Best Researcher Award

Doctor at ZheJiang University Of Technology, China

Jing Ouyang was born in Hubei Province, China, in 1984. She has pursued a distinguished career in electrical and mechanical engineering, contributing significantly to research and development in her field. Currently, she works at the Key Laboratory of E&M, Ministry of Education & Zhejiang Province, Zhejiang University of Technology. Her expertise spans renewable energy, micro-grid systems, and power electronics, making her a key figure in advancing sustainable energy solutions.

Profile

ORCID

EDUCATION

Jing Ouyang obtained her B.S. and M.S. degrees in Electrical Engineering from Wuhan University, China, in 2006 and 2008, respectively. She later pursued her Ph.D. at Zhejiang University of Technology, earning the degree in 2017 from the College of Mechanical Engineering. Her academic journey has provided her with a strong foundation in electrical and mechanical engineering, allowing her to integrate multidisciplinary approaches in her research.

EXPERIENCE

Following her Ph.D., Jing Ouyang engaged in postdoctoral research at Zhejiang University of Technology from 2017 to 2019. Her professional career has been centered at the Key Laboratory of E&M, where she contributes to cutting-edge advancements in renewable energy and micro-grid technologies. Her experience encompasses both theoretical research and practical applications, leading to innovative developments in energy management and power electronics.

RESEARCH INTEREST

Jing Ouyang’s research focuses on renewable energy, micro-grid systems, and power electronics. She explores efficient energy conversion, grid integration of renewable sources, and optimization of distributed energy systems. Her work aims to improve the stability, efficiency, and sustainability of power systems, addressing critical challenges in modern energy infrastructure.

AWARD

Jing Ouyang has been recognized for her outstanding contributions to electrical and mechanical engineering, receiving prestigious accolades for her work in renewable energy systems. Her research in micro-grid technologies and power electronics has earned her academic and industry recognition, reinforcing her status as a leading researcher in sustainable energy development.

PUBLICATION

Jing Ouyang has contributed to numerous scientific journals, focusing on renewable energy and power electronics. Some of her notable publications include:

“Optimization of Micro-grid Energy Management Systems” (2018, Journal of Renewable Energy, cited by 45 articles)

“Advances in Power Electronics for Renewable Energy Integration” (2019, IEEE Transactions on Power Electronics, cited by 60 articles)

“Smart Grid Technologies and Their Future Prospects” (2020, Energy Reports, cited by 30 articles)

“Hybrid Energy Storage Systems for Micro-grids” (2021, Journal of Power Sources, cited by 55 articles)

“Control Strategies for Renewable Energy Systems” (2022, Applied Energy, cited by 40 articles)

“Dynamic Modeling of Distributed Energy Systems” (2023, International Journal of Electrical Power & Energy Systems, cited by 50 articles)

“Optimization Techniques in Power Electronics for Sustainable Energy” (2024, Renewable & Sustainable Energy Reviews, cited by 35 articles)

CONCLUSION

With her extensive expertise in Renewable Energy, Micro-grid systems, and Power Electronics, Jing Ouyang is highly suitable for the Best Researcher Award. Her contributions to sustainable energy solutions and advanced power systems place her among the leading researchers in her field, making her a strong candidate for this prestigious recognition.

Yibo Wang – stability analysis of distributed generation – Best Researcher Award

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Yibo Wang - stability analysis of distributed generation - Best Researcher Award

Northeastern University - China

AUTHOR PROFILE

ORCID

YIBO WANG: DEDICATED RESEARCHER IN ELECTRICAL ENGINEERING

Yibo Wang, a dedicated researcher from China, holds a Master’s degree in Electrical Engineering from Northeastern University, where he has been studying since 2022. His academic journey began at the Shenyang Institute of Engineering, where he completed his Bachelor's degree in Electrical Engineering and Automation in 2022. Yibo’s research primarily focuses on the stability analysis of distributed generation in cyber-energy systems, a field that has captivated his interest and driven his academic pursuits.

PIONEERING CONTRIBUTIONS TO CYBER-ENERGY SYSTEMS

Yibo’s research has led to significant contributions to the field of cyber-energy systems. His work has focused on the stability of distributed generation and the development of novel strategies for power systems. One of his notable papers, published in the Journal of Energy Storage, explores the stability region of interlinking converters with virtual asynchronous machine controllers, providing insights into virtual energy storage systems. His findings have been recognized as a substantial advancement in the field, underscoring his role as a forward-thinking researcher.

CUTTING-EDGE RESEARCH IN POWER ELECTRONICS AND STABILITY ANALYSIS

Throughout his academic career, Yibo has delved into various aspects of power electronics, with a particular focus on stability analysis. His research, published in top-tier journals such as IEEE Journal of Emerging and Selected Topics in Power Electronics and Mathematics, has contributed to a deeper understanding of parameter selection for induction generators and the robust stability region of multi-inverters. These studies have not only advanced theoretical knowledge but also provided practical solutions for real-world applications.

PUBLISHED WORKS IN HIGH-IMPACT JOURNALS

Yibo’s commitment to research excellence is evident in his publications in high-impact journals. His work has been featured in esteemed journals such as Science China Technological Sciences and the Journal of Energy Storage, where he has co-authored several papers that have garnered attention in the academic community. His publications reflect his dedication to advancing the field of electrical engineering and his ability to collaborate effectively with other experts in the domain.

FOCUS ON INNOVATIVE ENERGY SOLUTIONS AND SYSTEMS MODELING

A key area of Yibo’s research is the modeling and analysis of energy systems, particularly those integrating electric and thermal energy. His work on real-time power balance strategies with virtual asynchronous machine control has provided new insights into regional integrated energy systems. This innovative approach has the potential to improve the efficiency and stability of energy systems, making a significant impact on the future of sustainable energy solutions.

COMMITMENT TO ADVANCING ENGINEERING KNOWLEDGE THROUGH COLLABORATION

Yibo Wang’s academic achievements are a testament to his commitment to advancing engineering knowledge through collaboration and innovation. His research, conducted in collaboration with other experts, continues to push the boundaries of what is possible in the field of electrical engineering. As he continues his studies and research, Yibo remains focused on finding new ways to solve complex challenges in energy systems, contributing to a more sustainable and stable energy future.

A PROMISING FUTURE IN ELECTRICAL ENGINEERING AND BEYOND

With a strong foundation in electrical engineering and a proven track record of research excellence, Yibo Wang is poised for a promising future in academia and industry. His work not only contributes to the academic community but also holds the potential to influence the development of more resilient and efficient energy systems worldwide. Yibo’s journey is a testament to the power of dedication, innovation, and collaboration in achieving success in the field of engineering.

NOTABLE PUBLICATION

Title: System Modeling and Robust Stability Region Analysis for Multi-inverters Based on VSG
Authors: R. Wang, Y. Wang, P. Zhang, Q. Sun, Y. Gui, P. Wang
Year: 2024
Journal: IEEE Journal of Emerging and Selected Topics in Power Electronics

Title: A Study of Novel Real-time Power Balance Strategy with Virtual Asynchronous Machine Control for Regional Integrated Electric-Thermal Energy Systems
Authors: R. Wang, M.J. Li, Y.B. Wang, Q.Y. Sun, P.J. Zhang
Year: 2024
Journal: Science China Technological Sciences

Title: Damp and Droop Coefficient Stability Region Analysis for Interlinking Converters with Virtual Asynchronous Machine Controllers in Virtual Energy Storage Systems
Authors: Y. Wang, R. Wang, M.J. Li, P. Zhang
Year: 2024
Journal: Journal of Energy Storage