Hassan Moradi | Properties and Performance | Best Researcher Award
Assoc. Prof. Dr. Hassan Moradi | Razi University | Iran
Dr. Hassan Moradi is an Associate Professor in the Electrical Engineering Department at Razi University, Kermanshah, where he leads the Intelligent Industrial Systems Laboratory. He obtained his M.S. and Ph.D. degrees in Electrical Engineering from Shahid Beheshti University, Tehran, in 2007 and 2011, respectively, and joined Razi University in 2011 as an Assistant Professor before being promoted to Associate Professor. His primary research interests include the design, modeling, and control of electric machines, drives, and power electronic converters with applications in microgrids, HVDC/MTDC grids, and renewable energy systems. Over the course of his career, he has supervised numerous graduate students and authored more than 121 scientific publications in reputable international journals and conferences published by IEEE, Elsevier, Springer, IET, and Taylor & Francis. His work spans a wide range of electric machines, including Switched Reluctance Motors (SRM), Permanent Magnet (PM) machines, Brushless DC (BLDC) machines, Induction Motors (IM), and advanced superconducting applications in power systems. His current research focuses on high-temperature superconducting (HTS) DC cables, particularly their modeling, analysis, and applications under both static and dynamic conditions, with the goal of enhancing efficiency, minimizing energy losses, and improving the reliability of future power delivery systems. He has made notable contributions in comparing conventional HVDC cables with superconducting DC cables in terms of insulation performance, monitoring, and operational reliability, addressing some of the most critical challenges in renewable energy integration and modern power system stability. Beyond academic research, Moradi has provided consultancy in electric machine design and development and has contributed to industrial projects, especially in the field of SRM, where he is currently completing the design and testing of an outer-rotor SRM at his laboratory. His scholarly record includes 74 published documents with 464 citations by 363 sources, reflecting an h-index of 12. He has served as an editorial board member for the International Conference on Electric Machines and Drives (ICEMD) organized by the Iranian Society of Electric Machines and Drives and is preparing two books on Synchronous Reluctance Machines and General Machine Design. A professional member of IEEE and IET, he has collaborated with several leading international scholars, including Prof. Kumars Rouzbehi, Prof. Amin Hajizadeh, Prof. Fazel Mohammadi, Prof. Ali Mehrizi-Sani, and Prof. Vijay K. Sood, advancing sustainable energy technologies and intelligent industrial systems.
Featured Publications
Heidary, A., Radmanesh, H., Rouzbehi, K., & CheshmehBeigi, H. M. (2020). A multifunction high-temperature superconductive power flow controller and fault current limiter. IEEE Transactions on Applied Superconductivity, 30(5), 1–8.
Afjei, E., Toliyat, H., & Moradi, H. (2006). A novel hybrid brushless DC motor/generator for hybrid vehicles applications. 2006 International Conference on Power Electronic, Drives and Energy Systems, 1–6.
Ghiasi, Z., Faghihi, F., Shayegani-Akmal, A. A., & CheshmehBeigi, H. M. (2021). FEM analysis of electric field distribution for polymeric insulator under different configuration of non-uniform pollution. Electrical Engineering, 103(6), 2799–2808.
Bagheri, S., & CheshmehBeigi, H. M. (2021). DC microgrid voltage stability through inertia enhancement using a bidirectional DC–DC converter. 7th Iran Wind Energy Conference (IWEC2021), 1–5.
CheshmehBeigi, H. M., & Afjei, E. (2013). Design optimization of a homopolar salient-pole brushless DC machine: Analysis, simulation, and experimental tests. IEEE Transactions on Energy Conversion, 28(2), 289–297.
Fatemi, S. A., Cheshmehbeigi, H. M., & Afjei, E. (2009). Self-tuning approach to optimization of excitation angles for switched-reluctance motor drives. 2009 European Conference on Circuit Theory and Design, 851–856.
Mousavi, M. H., CheshmehBeigi, H. M., & Ahmadi, M. (2023). A DDSRF-based VSG control scheme in islanded microgrid under unbalanced load conditions. Electrical Engineering, 105(6), 4321–4337.
Cheshmehbeigi, H. M., Yari, S., Yari, A. R., & Afjei, E. (2009). Self-tuning approach to optimization of excitation angles for switched-reluctance motor drives using fuzzy adaptive controller. 2009 13th European Conference on Power Electronics and Applications, 1–10.