| Дата публикации | Название | Авторы |
| 2022 | Analysis of Coupled Thermal and Electromagnetic Processes in Linear Induction Motors Based on a Three-Dimensional Thermal Model | Goman, V.; Prakht, V.; Dmitrievskii, V.; Sarapulov, F. |
| 2023 | Analysis of Performance Improvement of Passenger Car Synchronous Homopolar Generator with the Addition of Ferrite Magnets | Prakht, V.; Dmitrievskii, V.; Kazakbaev, V. |
| 2022 | Comparative Study of Electrically Excited Conventional and Homopolar Synchronous Motors for the Traction Drive of a Mining Dump Truck Operating in a Wide Speed Range in Field-Weakening Region | Prakht, V.; Dmitrievskii, V.; Kazakbaev, V.; Anuchin, A. |
| 2021 | Comparative Study of Energy Consumption and co2 Emissions of Variable-Speed Electric Drives with Induction and Synchronous Reluctance Motors in Pump Units | Goman, V.; Prakht, V.; Kazakbaev, V.; Dmitrievskii, V. |
| 2023 | Comparative Study of Induction and Wound Rotor Synchronous Motors for the Traction Drive of a Mining Dump Truck Operating in Wide Constant Power Speed Range | Dmitrievskii, V.; Prakht, V.; Valeev, E.; Paramonov, A.; Kazakbaev, V.; Anuchin, A. |
| 2020 | Comparative study of induction motors of IE2, IE3 and IE4 efficiency classes in pump applications taking into account CO2 emission intensity | Goman, V.; Prakht, V.; Kazakbaev, V.; Dmitrievskii, V. |
| 2020 | Comparison between rare-earth and ferrite permanent magnet flux-switching generators for gearless wind turbines | Prakht, V.; Dmitrievskii, V.; Kazakbaev, V.; Ibrahim, M. N. |
| 2023 | Comparison of Differential Evolution and Nelder–Mead Algorithms for Identification of Line-Start Permanent Magnet Synchronous Motor Parameters | Paramonov, A.; Oshurbekov, S.; Kazakbaev, V.; Prakht, V.; Dmitrievskii, V.; Goman, V. |
| 2021 | Comparison of flux-switching and interior permanent magnet synchronous generators for direct-drivenwind applications based on nelder-mead optimal designing | Prakht, V.; Dmitrievskii, V.; Kazakbaev, V.; Andriushchenko, E. |
| 2022 | Comparison of Interior Permanent Magnet and Synchronous Homopolar Motors for a Mining Dump Truck Traction Drive Operated in Wide Constant Power Speed Range | Dmitrievskii, V.; Prakht, V.; Kazakbaev, V.; Anuchin, A. |
| 2019 | Design and Mathematical Modeling of Gearless SMC Flux Reversal Motor | Prakht, V.; Dmitrievskii, V.; Kazakbaev, V.; Golovanov, D.; Gerada, D. |
| 2019 | Design optimization of a permanent-magnet flux-switching generator for direct-drive wind turbines | Dmitrievskii, V.; Prakht, V.; Kazakbaev, V. |
| 2023 | Design Optimization of a Synchronous Homopolar Motor with Ferrite Magnets for Subway Train | Dmitrievskii, V.; Prakht, V.; Kazakbaev, V. |
| 2021 | Design optimization of a traction synchronous homopolar motor | Dmitrievskii, V.; Prakht, V.; Anuchin, A.; Kazakbaev, V. |
| 2022 | Design Optimization of the Magnet-Free Synchronous Homopolar Motor of a Subway Train | Dmitrievskii, V.; Prakht, V.; Kazakbaev, V.; Anuchin, A. |
| 2019 | Efficiency analysis of low electric power drives employing induction and synchronous reluctance motors in pump applications | Kazakbaev, V.; Prakht, V.; Dmitrievskii, V.; Ibrahim, M. N.; Oshurbekov, S.; Sarapulov, S. |
| 2020 | Energy consumption comparison of a single variable-speed pump and a system of two pumps: Variable-speed and fixed-speed | Oshurbekov, S.; Kazakbaev, V.; Prakht, V.; Dmitrievskii, V.; Gevorkov, L. |
| 2019 | Energy efficiency analysis of fixed-speed pump drives with various types of motors | Goman, V.; Oshurbekov, S.; Kazakbaev, V.; Prakht, V.; Dmitrievskii, V. |
| 2021 | Feasibility Study of Direct-on-Line Energy-Efficient Motors in a Pumping Unit, Considering Reactive Power Compensation | Kazakbaev, V.; Oshurbekov, S.; Prakht, V.; Dmitrievskii, V. |
| 2020 | Feasibility study of pump units with various direct-on-line electric motors considering cable and transformer losses | Kazakbaev, V.; Prakht, V.; Dmitrievskii, V.; Golovanov, D. |
| 2018 | Gearless generator with magnets on the stator for wind turbine | Dmitrievskii, V.; Prakht, V. |
| 2021 | Improving reliability and energy efficiency of three parallel pumps by selecting trade-off operating points | Oshurbekov, S.; Kazakbaev, V.; Prakht, V.; Dmitrievskii, V. |
| 2021 | Increasing Service Life and System Efficiency of Parallel Pumps Using Combined Pump Regulation | Oshurbekov, S.; Kazakbaev, V.; Prakht, V.; Dmitrievskii, V. |
| 2022 | Indirect Efficiency Measurement Method for Line-Start Permanent Magnet Synchronous Motors | Kazakbaev, V.; Paramonov, A.; Dmitrievskii, V.; Prakht, V.; Goman, V. |
| 2021 | Inverter Volt-ampere Capacity Reduction by Optimization of the Traction Synchronous Homopolar Motor | Prakht, V.; Dmitrievskii, V.; Anuchin, A.; Kazakbaev, V. |
| 2023 | Investigation of the Effect of the Voltage Drop and Cable Length on the Success of Starting the Line-Start Permanent Magnet Motor in the Drive of a Centrifugal Pump Unit | Paramonov, A.; Oshurbekov, S.; Kazakbaev, V.; Prakht, V.; Dmitrievskii, V. |
| 2020 | Life cycle energy cost assessment for pump units with various types of line-start operating motors including cable losses | Kazakbaev, V.; Prakht, V.; Dmitrievskii, V.; Oshurbekov, S.; Golovanov, D. |
| 2020 | Novel rotor design for high-speed flux reversal motor | Dmitrievskii, V.; Prakht, V.; Kazakbaev, V. |
| 2021 | Optimal design of a high-speed flux reversal motor with bonded rare-earth permanent magnets | Prakht, V.; Dmitrievskii, V.; Kazakbaev, V. |
| 2018 | Optimal design of a high-speed single-phase flux reversal motor for vacuum cleaners | Dmitrievskii, V.; Prakht, V.; Kazakbaev, V.; Sarapulov, S. |
| 2019 | Optimal design of a novel three-phase high-speed flux reversal machine | Prakht, V.; Dmitrievskii, V.; Kazakbaev, V.; Oshurbekov, S.; Ibrahim, M. N. |
| 2020 | Optimal design of gearless flux-switching generator with ferrite permanent magnets | Prakht, V.; Dmitrievskii, V.; Kazakbaev, V. |
| 2020 | Optimum design of high-speed single-phase flux reversal motor with reduced torque ripple | Dmitrievskii, V.; Prakht, V.; Kazakbaev, V.; Golovanov, D. |
| 2023 | Performance Comparison of Traction Synchronous Motors with Ferrite Magnets for a Subway Train: Reluctance versus Homopolar Variants | Dmitrievskii, V.; Kazakbaev, V.; Prakht, V. |
| 2022 | Study of the Effect of Throttling on the Success of Starting a Line-Start Permanent Magnet Motor Driving a Centrifugal Fan | Paramonov, A.; Oshurbekov, S.; Kazakbaev, V.; Prakht, V.; Dmitrievskii, V. |
| 2023 | Synchronous Homopolar Generator without Permanent Magnets for Railway Passenger Cars | Prakht, V.; Dmitrievskii, V.; Kazakbaev, V. |
| 2018 | Synchronous reluctance generator with ferrite magnets for wind turbine | Dmitrievskii, V.; Prakht, V.; Kazakbaev, V. |
| 2020 | Traction synchronous homopolar motor: Simplified computation technique and experimental validation | Dmitrievskii, V.; Prakht, V.; Anuchin, A.; Kazakbaev, V. |
