Assist. Prof.  Dr. Dogan Celik | Power Electronics | Editorial Board Member 

Professor | Van Yuzuncu Yıl University | Turkey

Assist. Prof.  Dr. Doğan Çelik is a prominent researcher known for his significant contributions to microgrids, distributed generation, power quality improvement, and electric vehicle (EV) systems. His work integrates advanced control strategies with modern smart grid and renewable energy technologies, supporting the transition toward efficient, reliable, and sustainable power networks. With strong academic experience and active involvement in research and supervision, he has contributed to the advancement of electrical power systems, distributed generation coordination, power electronics, and EV charging and grid-integration methods. His research focuses on microgrid optimization, power quality enhancement, active filtering, smart grid digitalization, EV charging strategies including V2G, and advanced control methods such as sliding mode control, PR controllers, Lyapunov-based techniques, and Kalman filtering. His publications in reputable international journals have received notable citations, reflecting the technical relevance and practical value of his work. Through ongoing research collaborations and innovative contributions, he continues to support global efforts aimed at strengthening modern energy infrastructure and accelerating the deployment of intelligent, sustainable electrical systems.

Profiles: Google Scholar

Featured Publications

1. Mahmud, K., Town, G. E., Morsalin, S., & Hossain, M. J. (2022). Investigation and analysis of effective approaches, opportunities, bottlenecks and future potential capabilities for digitalization of energy systems and sustainable … Electric Power Systems Research, 212, 108251.

2. Abujubbeh, A., Mossa, M. A., & Chaari, O. (2019). A comprehensive survey on control strategies of distributed generation power systems under normal and abnormal conditions. Annual Reviews in Control, 47, 102–117.

3. Çelik, D., Niazi, K. A. K., & Ahmad, M. W. (2022). Lyapunov-based harmonic compensation and charging with three-phase shunt active power filter in electrical vehicle applications. International Journal of Electrical Power & Energy Systems, 137, 107564.

4. Darwish, M. K., Abdelaziz, A. Y., & El-Naggar, K. M. (2019). Current control based power management strategy for distributed power generation system. Control Engineering Practice, 85, 90–104.

5. Çelik, D., Khan, M. A., & Hossain, M. J. (2023). Kalman Filter-Based Super-Twisting Sliding Mode Control of Shunt Active Power Filter for Electric Vehicle Charging Station Applications. IEEE Transactions on Power Delivery, 38(2), 1547–1556.