· Design of mathematical models of steady-state and transient processes in electric networks that determine the operating mode of their components under normal and emergency conditions
· Development of methods for the calculation of electric fields of power sources of complicated shapes in soils with heterogeneous parameters
· Elaboration of a theory and methods for the calculation of electric strength of gaseous and liquid dielectrics
· Study of the effect of air and underwater cable power transmission lines on the environment
· Further development of electrical installation operation modes and updating their grounding systems to increase reliability and durability
· Study of analogue and digital information transmission modes via air and cable high- voltage lines and diagnostics of homogeneity discontinuity in them
· Development of means to protect power networks of more than 1 kV from overvoltages
· Development of new electrical materials and energy intensive products on their basis
Main Lines of Training
· Training of undergraduate students in “Electric Power Engineering”
· Training of engineers in “High-Voltage Electrical Power Engineering and Electrical Engineering”
· Training of graduate, postgraduate and doctoral students “High-Voltage Engineering” and ”Electrotechnical Materials and Products”
· Design of curricula and introduction of new disciplines related to ensuring reliability, safety and electromagnetic compatibility of power engineering systems with the environment
· Development of laboratory work manuals and teaching aids to provide training of qualified and competent specialists in new areas of electrical power engineering.