Professor

Phone No: +98 21 84062312

Email: ardebili@kntu.ac.ir

Personal website: http://wp.kntu.ac.ir/ardebili

Education:

       Ph.D.: Electrical machines, University of Cardiff, UK, 1990.

       M.Sc.: Electrical engineering, University of Tabriz, Iran, 1975.

       B.Sc.: Electrical engineering, University of Tabriz, Iran.

 

Research Interest:

• Design, Modeling, and Manufacturing of Electrical Machines
• Design and Simulation of PMSM for Low-speed Direct Drive Application
• Design and Simulation of Axial Flux PM-Generators for Direct Drive coupled wind Turbine
• Magnetic Materials

Biography:

Mohammad Ardebili received the M.S. degree from the University of Tabriz, Iran, in 1976, and the Ph.D. degree from the University of Wales, Cardiff, U.K., in 1991, both in electrical engineering. He is currently a Professor and the Head of the Electrical Machines and Drives Laboratory with the Electrical Engineering Department, K. N. Toosi University of Technology, Tehran, Iran. His research interests include electrical machines and drives, magnetic materials, design and modeling of PM machines, and wind generators.

Selected journal papers:

1. Fard, J.R., Ardebili, M., “Dynamic performance of the novel axial flux-switching permanent magnet motor,” COMPEL – The International Journal for Computation and Mathematics in Electrical and Electronic Engineering, 2017.
2. Jamali Arand, S., Ardebili, M., “Cogging torque reduction in axial-flux permanent magnet wind generators with yokeless and segmented armature by radially segmented and peripherally shifted magnet pieces,” Renewable Energy, 2016.
3. Arand, S.J., Ardebili, M., “Multi-objective design and prototyping of a low cogging torque axial-flux PM generator with segmented stator for small-scale direct-drive wind turbines,” IET Electric Power Applications, 2016.
4. Ajily, E., Ardebili, M., Abbaszadeh, K., “Magnet Defect and Rotor Eccentricity Modeling in Axial-Flux Permanent-Magnet Machines via 3-D Field Reconstruction Method,” IEEE Transactions on Energy Conversion, 2016.
5. Naeini, V., Ardebili, M., “ Axial flux PM less synchronous machine with effective field-weakening capability,” Journal of Electrical Engineering, 2016.