Scientific Activity of the Department

Scientific Activity of the Department

1. Research on Superconducting Technologies

• Modeling and diagnostics of superconducting conductors.
• Analysis of cryogenic, thermal, magnetic, and dynamic phenomena, as well as the propagation of resistive zones in HTS conductors.
• Design and testing of prototypes of superconducting fault current limiters (SFCL).
• Design and testing of prototypes of superconducting magnetic energy storage systems (SMES).
• Design and testing of superconducting transformer prototypes.
• Design and testing of cryogenic systems cooled either by direct contact or by cryocoolers.

2. Plasma Technologies and High-Voltage Power Engineering

• Design and testing of non-thermal plasma reactors for scientific, environmental, and industrial applications.
• Analysis of the structure and parameters of electrical discharges.
• Investigation of the energy efficiency of plasma-chemical processes.
• Design of specialized transformers and power converters for supplying plasma installations.
• Studies of electromagnetic interference generated by plasma reactors.
• Integration of plasma systems with renewable energy sources.

3. Applications of Technologies in Environmental Engineering and Medicine

• Development of technologies for waste processing and pollutant neutralization using electrochemical and plasma-based methods.
• Plasma technologies for the sterilization of soil, air, surfaces, and water.
• Classification of pathological changes, analysis of biological images, and development of medical measurement systems.

4. Modeling, Automation, and Metrology

• Analysis of the impact of electromagnetic fields on living organisms.
• Investigation of the effects of electromagnetic fields in aviation technology.
• Development of medical measurement systems, modern sensors, and biomedical components.
• Application of artificial neural networks for the analysis of measurement data and the detection of anomalies in diagnostic systems.

5. Applications of Electrical Engineering in Materials Engineering

• Research on electrical nanomaterials, dielectrics, and functional thin films, as well as their practical applications.
• Studies on carbon nanotubes, graphene, and fullerenes, including their electrical conductivity, mechanical strength, and applications in electronics, energy systems, and biomedicine.

6. Diagnostics and Modeling of Power Engineering Systems

• Electromagnetic–thermal simulations of power system components.
• Methods for monitoring and predictive assessment of the condition of electrical equipment.