· Design of low-inertia electric motors with non-magnetic armatures, control systems included
· Development of transformer-type electric heaters
· Elaboration of theoretical principles and designs of low-speed linear induction motors
· Elaboration of theoretical principles and constructions of electric machines used in super high-vacuum systems and aggressive media
· Elaboration of theoretical principles and designs of multi-pole low-speed rotary high-torque motors with compound coil-distributed windings
· Elaboration of theoretical principles, calculation methods and designs of electromechanical energy converters based on magnetic field modulation.
· Development of high-torque electric motors and electric drives based on them
· Elaboration of calculation methods and procedures of electromagnetic parameters of electric machines and mechanisms of various designs and principles of operation
Main Lines of Training
Staff members of the school teach general and specific engineering disciplines, theoretical electrical engineering, general electrical engineering and electromechanics to undergraduate and graduate students specialising in electromechanics as well as postgraduate (doctoral) students majoring in “Eelectromechanics”