Department No. 49

Department of Pulsed Electrical Systems (No. 49)

HeadPETRYCHENKO Serhiy Viktorovych, Ph.D., Senior Researcher
Phone+38 (0512) 55-82-52
Email office.iipt@nas.gov.ua
ІІПТ НАН України Електрогідравлічне обладнання
Технології ІІПТ Технології ІІПТ
Технології ІІПТ Технології ІІПТ
Технології ІІПТ Технології ІІПТ
Технології ІІПТ Технології ІІПТ

Main areas of activity

  • research and development of physical and technological principles for creating high-voltage controlled electrical systems and complexes for pulse technologies;
  • theoretical and experimental studies of discharge-pulse processes in technological load, aimed at coordinating and optimizing the operating modes of electrical systems and complexes for pulse technologies;
  • theoretical and experimental studies of discharge-pulse processes in multiphase solid-liquid systems under the pulsed action of high-intensity energy flows on them, aimed at the development and creation of promising technological applications and equipment for the processing and recycling of materials and environments;
  • development and creation of high-voltage pulsed capacitive energy storage devices for pulsed electrical systems and complexes.

Scientific research work

Developed electrical equipment

1. Powerful pulse current generators (GIS M)

2. High-frequency source of high-voltage pulses

3. Intelligent control systems for pulse-discharge technologies (PIT)

4. High-voltage pulse capacitors

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List of publications by researchers of the Department of “Pulse Electrical Systems” (No. 49) for the period from 2020 to 2025.

  1. Electrospark Method in Galvanic Wastewater Treatment for Heavy Metal Removal / O. Petrov, S. Petrichenko et al. Applied Sciences (MDPI). 2020, 10(15), 5148.
    https://doi.org/10.3390/app10155148
  2. Electric spark method of purification of galvanic waste waters / K. Przystupa, S. Petrichenko et al. Przeglad Elektrotechniczny. 2020. Vol. 12. P. 230–233.
    http://doi.org/10.15199/48.2020.12.50
  3. Optimization of the Process of Fine Electric Discharge Dispersion / A. Malyushevskaya et al. Surface Engineering and Applied Electrochemistry. 2020. Vol. 56. P. 400–406.
    https://doi.org/10.3103/S1068375520030114
  4. Thermodynamic Description of Chemical Reactions in a Titanium–Aluminum–Hexamethylenetetramine System under Conditions of Self-Propagating, High Temperature Synthesis / A. Yushchishina et al. Surface Engineering and Applied Electrochemistry. 2020. Vol. 56. P. 469–473.
    https://doi.org/10.3103/S1068375520040171
  5. Electrical Explosion of Conductors to Produce Nanosized Carbides and to Apply Functional Coatings / L. Boguslavskii et al. Surface Engineering and Applied Electrochemistry. Vol. 56. P. 590–600.
    https://doi.org/10.3103/S1068375520050038
  6. Determination of control system information coordinates of high voltage installations for electrodischarge treatment of carbon-containing gases / D. Vinnychenko et al. Technical Electrodynamics. 2020. No. 5. P. 84-87.
    https://doi.org/10.15407/techned2020.05.084
  7. Creation of nanostructural carbide coatings on material surfaces using products of refractory wire electroexplosion / L. Boguslavsky et al. Journal of Physical Studies. 2020. Vol. 24. P. 3501-1–3501-8.
    https://doi.org/10.30970/jps.24.3501
  8. The Influence of the characteristics of the Resonant Power Source on the Productivity of Electric-discharge Installations for Carbon-containing Gas Processing at Different Pressures in the Reaction Zone / D. Vinnychenko et al. IEEE 40th International Conference on Electronics and Nanotechnology. 2020. P. 767-770.
    https://doi.org/10.1109/ELNANO50318.2020.9088905
  9. Energy parameters of the serial-to-serial resonant converter with pulse-number control for wireless power transfer / G. Pavlov, M. Pokrovskiy, I. Vinnichenko, D. Vinnichenko et al. IEEE 4th International Conference on Intelligent Energy and Power Systems. 2020. P. 296–300.
    https://doi.org/10.1109/IEPS51250.2020.9263195
  10. Electrospark Purification of Galvanic Effluents from Heavy Metal Ions in the Flow Reactor / S. Petrichenko et. al. Surface Engineering and Applied Electrochemistry. 2021. Vol. 57. P. 148–153.
    https://doi.org/10.3103/S1068375521010105
  11. Extraction of Cellulose from Flax Fiber by Electric Discharge Cavitation / A. Malyushevskaya et. Al. Surface Engineering and Applied Electrochemistry. 2021. Vol. 57. P 228–232.
    https://doi.org/10.3103/S1068375521020058
  12. Optimization of Extraction Processes of Water-Soluble Polysaccharides under the Electric Field Action / A. Malyushevskaya et. al. Przeglad Elektrotechniczny. 2021. Vol. 12. P. 73–76.
    https://doi.org/10.15199/48.2021.12.12
  13. Search for the Ways of Implementation of the Hybrid Method for Obtaining Hardening Composite Coating with Onion-like Carbon and Metal Carbides during Electrical Conductors Explosion / N. Nazarova et. al. IEEE 3rd Ukrainian Conference on Electrical and Computer Engineering. 2021. P. 490–495.
    https://doi.org/10.1109/UKRCON53503.2021.9575266
  14. The Dependence of the Deviation of the Output Stabilized Current of the Resonant Power Supply during Frequency Control in the Systems of Materials Pulse Processing / D. Vinnychenko, N Nazarova et. al. Modeling, Control and Information Technologies. 2021. No. 5. P. 100–104.
    https://doi.org/10.31713/MCIT.2021.32
  15. Green Approach to Intensify the Extraction Processes of Substances from Plant Materials / A. Malyushevskaya et. al. Journal of Ecological Engineering. 2022. Vol. 23. P. 197–204.
    https://doi.org/10.12911/22998993/150060
  16. Analysis of Materials for a Working Dielectric of a Monoblock multifunctional HV pulse capacitor / A. Malushevskaya et. al. Surface Engineering and Applied Electrochemistry. 2022. Vol. 58. P. 299–304.
    https://doi.org/10.3103/S1068375522030103
  17. Extraction from Amber Raw Materials under Electric Spark Action / V. Chornyi, S. Petrichenko et. al. Surface Engineering and Applied Electrochemistry. 2022. Vol. 58. P. 386–392.
    https://doi.org/10.3103/S1068375522040044
  18. Intensifying the Processes of Polysaccharide Extraction from Raw Materials under the Action of an Electric Current / A. Malyushevskaya et. al. Surface Engineering and Applied Electrochemistry. 2022. Vol. 58. P. 402–411.
    https://doi.org/10.3103/s1068375522040111
  19. Study of the Effect of Transformer Windings Coupling Coefficient to Flyback Resonant Converter for Wireless Energy Transfer on its Output Characteristics // G. Pavlov, I. Vinnychenko, N. Nazarova et. al. 2022 IEEE 3rd KhPI Week on Advanced Technology. 2022. P. 1–6.
    https://doi.org/10.1109/KhPIWeek57572.2022.9916434
  20. Transformerless High-Voltage Resonant Charging Systems for Capacitive Energy Storage Devices for Electro-Discharge Technologies / D. Vinnychenko, N. Nazarova et al. 2022 IEEE 41st International Conference on Electronics and Nanotechnology. 2022. P. 727–731.
    https://doi.org/10.1109/ELNANO54667.2022.9927052
  21. Peculiarities of the Evolution of Electrical Discharge Cavitation in a Magnetic Field / A. Malyushevskaya et. al. Surface Engineering Applied Electrochemistry. 2022. Vol. 58. P. 158–166.
    https://doi.org/10.3103/S1068375522020053
  22. Structure of carbon nanospheres modified with oxygen-containing groups and halogens / A. Rud, N. Kornienko, I. Polunkin, L. Boguslavskii et. al. Applied Nanoscience. 2023. Vol. 13. P. 6929–6937.
    https://doi.org/10.1007/s13204-023-02817-2
  23. Synergy Effect during Water Treatment by Electric Discharge and Chlorination / A. Malyushevskaya et. al. Environments (MDPI). 2023, 10(6), 93.
    https://doi.org/10.3390/environments10060093
  24. Optimizing Energy Efficiency of Dielectric Materials' Electrodischarge Dispersion as One Sustainable Development Green Trend / A. Malyushevskaya, S. Petrychenko et. al. Energies (MDPI). 2023, 16(20), 7098.
    https://doi.org/10.3390/en16207098
  25. Structure and properties of carbon-containing nanostructured coatings on metal surfaces obtained by electric discharge in gas and electric explosion of electrical conductors / D. Vinnychenko, N. Nazarova et. al. Applied Nanoscience. 2023. Vol. 13. P. 7315–7320.
    https://doi.org/10.1007/s13204-023-02907-1
  26. Research on the characteristics of a high-voltage transformerless resonant charger for a capacitive storage device / D. Vinnychenko, N. Nazarova, I. Vinnychenko. Technical Electrodynamics. 2023. No. 2. P.21–27.
    https://doi.org/10.15407/techned2023.02.021
  27. The Regularities of Titanium and Tungsten Carbide Formation from Products of Electric Explosion Destruction of Conductors / Yu. O. Adamchuk et. al. Surface Engineering and Applied Electrochemistry. 2023. Vol. 59. P. 281–289
    https://doi.org/10.3103/S1068375523030043
  28. Eco-Friendly Principles on the Extraction of Humic Acids Intensification from Biosubstrates // A. Malyushevskaya et. al. Journal of Ecological Engineering. 2023 Vol. 24. P. 317–327.
    https://doi.org/10.12911/22998993/156867
  29. Intensification of the Processes of Extraction of Humic Acids from Biosubstrates under the Action of Electric Discharges / A. Malyushevskaya et. al. Surface Engineering and Applied Electrochemistry. 2023. Vol. 59. P. 479–488.
    https://doi.org/10.3103/S1068375523040087
  30. Study of Photocatalytic Activity of Titanium and Tungsten Oxides Obtained by an Electric Explosion of Metal Conductors in the Air / Yu. O. Adamchuk et. al. Surface Engineering and Applied Electrochemistry. 2023. Vol. 59. P. 798–802.
    https://doi.org/10.3103/S1068375523060030
  31. Improving the Efficiency of Water Purification from Heavy Metals using the Electric Spark Method / S. Petrichenko, A. Malushevskaya et. al. Journal of Ecological Engineering. 2024. Vol. 25. P. 1–9.
    https://doi.org/10.12911/22998993/189230
  32. Hybrid Water Disinfection Process Using Electrical Discharges / A. Malyushevskaya et. al. Processes (MDPI). 2024, 12(9), 1846.
    https://doi.org/10.3390/pr12091846
  33. Development of method for frequency regulation of output current in high-voltage transformerless resonant chargers of capacitive energy storage devices / D. Vinnychenko, N. Nazarova et. al. Eastern-European Journal of Enterprise Technologies. 2024. Vol. 1. P. 6–15.
    https://doi.org/10.15587/1729-4061.2024.299031
  34. Synthesis of nanocarbon by high-voltage breakdown of hydrocarbons / N. Kuskova, A. Malyushevskaya et. al. Eastern-European Journal of Enterprise Technologies. 2024. Vol. 6. P. 6–16.
    https://doi.org/10.15587/1729-4061.2023.292774
  35. Influence of the Discharge Circuit Inductance on the Process of Galvanic Wastes Electrospark Purification / S. Petrichenko, K. Przystupa, A. Maliushevska et. al. Przeglad Elektrotechniczny. 2024. Vol. 10. P. 132–135.
    https://doi.org/10.15199/48.2024.10.24
  36. Static Characteristics of Flyback Resonant Converter for Wireless Energy Transfer in Ship Degaussing Systems / G. Pavlov, I. Vinnychenko, N. Nazarova et. al. 2024 IEEE 7th International Conference on Smart Technologies in Power Engineering and Electronics. 2024. P. TT1.23.1-TT1.23.5.
    https://doi.org/10.1109/STEE63556.2024.10748094
  37. Influence of Resonant Frequency on Power of the High-Voltage Transformer-Less Resonant Charger of Capacitive Energy Storage Device / D. Vinnychenko, N. Nazarova et. al. 2024 IEEE 7th International Conference on Smart Technologies in Power Engineering and Electronics. 2024. P. TT1.54.1-TT1.54.5.
    https://doi.org/10.1109/STEE63556.2024.10747907
  38. Optimizing electric discharge cavitation processes as a green solution for environmental safety / A. Malyushevskaya et. al. Journal of Ecological Engineering. 2025. Vol. 26. P. 28–35.
    https://doi.org/10.12911/22998993/201436
  39. Conditions for obtaining nanosized tungsten carbide powders by high-frequency electrospark treatment / D. Vinnychenko, N. Nazarova, Yu. Adamchuk et. al. Molecular Crystals and Liquid Crystals. 2026 (published online: 28 Aug 2025). Vol. 770. P. 1–11.
    https://doi.org/10.1080/15421406.2025.2550792
  40. The Currents Superposition Principle of High-Voltage Transformerless Resonant Chargers of Capacitive Energy Storage Device / D. Vinnychenko, N. Nazarova. 2025 IEEE 6th KhPI Week on Advanced Technology. 2025, P. 1–6. https://doi.org/10.1109/KhPIWeek61436.2025.11288720

  1. Avials: history of creation, overview of prospects / A. Sinchuk. Scientific Technical Journal Metal Science and Treatment of Metals. 2021. Vol. 27. Pp. 23–37.https://doi.org/10.15407/mom2021.02.023
  2. Research of the resonant flyback converter for contact less battery charging / G. Pavlov, V. Vinnychenko, I. Vinnychenko. Shipbuilding and Marine Infrastructure. 2021. No. 1. P. 36–44.
    https://doi.org/10.15589/smi2021.1(15).3
  3. Efficiency of modification of hypereutectic silumin with fine-crystalline ligature AL-P / A. Sinchuk, O. Merkulov. Casting processes. 2021. No. 4. P. 40-47.
    https://plit-periodical.org.ua/index.php/plit/article/view/81
  4. Influence of resonant circuit frequency on the power of a three-phase high-voltage transformerless resonant charger / D. Vinnychenko, I. Vinnychenko, N. Nazarova. Shipbuilding and Marine Infrastructure. 2023. No. 1. P. 4-12.
    https://doi.org/10.15589/smi2022.1(17).01
  5. Peculiarities of the distribution of the characteristics of the thermopower effect on the liquid metal system when using the superposition of rectified and pulsed currents / A. Ivanov, S. Petrichenko, O. Sadovyi. Collection of scientific works of the Admiral Makarov National Shipbuilding University. 2024. Vol. 4. Pp. 108–113.
    https://doi.org/10.15589/znp2024.4(497).15
  6. Problems of methodology of research of processes and phenomena during energy treatment of liquid metal system / V. Tsurkin, S. Petrichenko, O. Sadovyi. Collection of scientific papers of the Admiral Makarov National Shipbuilding University. 2024. Vol. 4. Pp. 124–130.
    https://doi.org/10.15589/znp2024.4(497).18
  7. Simulation modeling of electromagnetic and energy characteristics of conductive electric current treatment of melt / S. Petrichenko, A. Ivanov, O. Sadovyi. Collection of scientific papers of the Admiral Makarov National Shipbuilding University. 2024. Vol. 4. Pp. 114–119.
    https://doi.org/10.15589/znp2024.4(497).16

  1. Electrospark cleaning of galvanic discharges from heavy metal ions in the flow mode/ S. Petrychenko, P. Tsolyn, A. Yushchyshina. Electronic processing of materials. 2020 Vol. 56, No. 5. P. 109–114.
    https://doi.org/10.5281/zenodo.4045711
  2. Extraction from amber raw materials in the conditions of electric spark impact / V. Cherny, S. Petrychenko, T. Mysyura, N. Popova, V. Zavyalov. Electronic processing of materials. 2021. Vol. 57, No. 5. P. 58–65.
    https://doi.org/10.52577/eom.2021.57.5.58
  3. Features of the evolution of electric discharge cavitation in a magnetic field / A. Malyushevskaya, P. Malyushevsky. Electronic processing of materials. 2021. Vol. 57, No. 2. P. 25–33.
    https://doi.org/10.52577/eom.2021.57.2.25
  4. Analysis of materials for the working dielectric of a monoblock multifunctional high-voltage pulse capacitor / V. Gunko, , A. Dmytryshyn, A. Malyushevskaya, S. Toporov. Electronic processing of materials. 2021. Vol. 57, No. 2. P. 54–60.
    https://doi.org/10.52577/eom.2021.57.2.54
  5. Determination of the boundaries of the region of "strong inhomogeneity" of the electric field in various dielectrics of the high-voltage pulse capacitor section / A. Dmytryshyn. Electronic processing of materials. 2021. Vol. 57, No. 4. P. 61–65.
    https://doi.org/10.52577/eom.2021.57.4.61
  6. Intensification of polysaccharide extraction processes from vegetable raw materials under the action of electric current / A. Malyushevskaya, V. Tsurkin, A. Ivanov, A. Yushchyshina. Electronic processing of materials. 2021 Vol. 57, No. 5. P. 66–77.
    https://doi.org/10.52577/eom.2021.57.5.66
  7. Laws of formation of titanium and tungsten carbides from products of electro-explosive destruction of conductors / Yu. Adamchuk, S. Chushchak, L. Boguslavskyi, A. Sinchuk. Electronic processing of materials. 2021. Vol. 57, No. 6. P. 50–59.
    https://doi.org/10.52577/eom.2021.57.6.50
  8. Intensification of humic acid extraction processes from biosubstrates under the action of electric discharges/ A. Malyushevskaya, A. Yushchyshina. Electronic processing of materials. 2022. Vol. 58, No. 4. P. 70–80.
    https://doi.org/10.52577/eom.2022.58.4.70
  9. Prospects for the improvement of the method of electroerosion disintegration of heavy pseudoalloys / S. Chushchak., L. Boguslavskyi, A. Malyushevskaya. Electronic processing of materials. 2023. Vol. 59, No. 1. P. 1–13.
    https://doi.org/10.52577/eom.2023.59.1.01
  10. Study of the photocatalytic activity of titanium and tungsten oxides obtained by the electro-explosion of metallic conductors in air / Yu. Adamchuk, L. Boguslavskyi, A. Yushchyshina, A. Sinchuk. Electronic processing of materials. 2023. Vol. 59, No. 2. P. 48–54.
    https://doi.org/10.52577/eom.2023.59.2.48

  1. Electrodischarge extraction of humic acids / A. Malyushevskaya, H. Yushchishina // XXVII International Scientific and Practical Multidisciplinary Academic Notes. Theory, Methodology and Practice, 12-15 July 2022, Prague, Czech Republic.
    https://isg-konf.com/uk/multidisciplinary-academic-notes-theory-methodology-and-practice-2/
  2. Optimizing energy efficiency of dielectric materials' electrodischarge dispersion / A. Malyushevskaya, S. Petrychenko, K. Przystupa, O. Mitryasova, O. Kochan. 210-211.
    https://omega.polsl.pl/info/conference/PSLa34a09587bea4ec6b10b00575d6e919e/

  1. Carbon nanospheres: synthesis and structure. 149.http://nano-conference.iop.kiev.ua/assets/files/nano22bookOfAbstracts.pdf
  2. Structure and properties of carbon-containing nanostructured coatings on metal surfaces obtained by electric discharge in gas and electric explosion of electrical conductors / D. Vinnychenko, N. Nazarova, L. Boguslavskii, S. Chuschak, Y. Adamchuk, A. Chuschak, O. Vyshnevskyi // INTERNATIONAL RESEARCH AND PRACTICE CONFERENCE “NANOTECHNOLOGY AND NANOMATERIALS”, August 25-27, 2022, Lviv, p. 394.
    http://nano-conference.iop.kiev.ua/assets/files/nano22bookOfAbstracts.pdf
  3. Synthesis of tungsten carbides submicron powder with high-frequency electroerosion method / D. Vinnychenko, N. Nazarova, Y. Adamchuk, I. Vinnychenko, O. Vyshnevskyi //Abstract Book of participants of the International research and practice conference, August 16–19, 2023, Bukovel. – Kyiv: LLC APF POLYGRAPH SERVICE, 2023. – P. 24.
  4. Study of the photocatalytic activity of titanium and tungsten oxides obtained by the electric explosion of metal conductors in air / Y. Adamchuk, L. Boguslavsky, A. Yushchyshyna, Y. Vyzhol // Proceedings of the V International Scientific and Practical Conference “Prospects of modern science and education”, 7-10 February2023, Stockholm, p. 71.
    https://isg-konf.com/prospects-of-modern-science-and-education/
  5. Investigation of the electrical strength of the dielectric system of immersion high-voltage pulse capacitors / V. Gunko, O. Tanasova, T. Feschuk // Proceedings of the All-Ukrainian Scientific and Technical Conference “Automation and Electrical Engineering” − Mykolaiv: NUK, 2023, pp. 27-29.
    https://www.researchgate.net/publication/375715743
  6. Creation of high-voltage pulse capacitors for electrohydropulse installations for processing water intake wells / V. Gunko, O. Tanasova, I. Perekupka // Proceedings of the All-Ukrainian Scientific and Technical Conference “Automation and Electrical Engineering” − Mykolaiv: NUK, 2023, pp. 29–31.
    https://www.researchgate.net/publication/375715743
  7. Preparation of nanocarbon by the high-voltage breakdown of hydrocarbons / A. Maliushevska, N. Kuskova // Proceedings of the 12th International Conference “Nanotechnologies and Nanomaterials” (NANO-2024), 21 – 24 August 2024, Uzhhorod.
  8. Conditions for obtaining nanosized tungsten carbides powders by the high-frequency electrospark treatment / D. Vinnychenko, N. Nazarova, Y. Adamchuk, I. Vinnychenko // Proceedings of the 12th International Conference "Nanotechnologies and Nanomaterials" (NANO-2024), 21-24 August 2024, Uzhhorod.
  9. Research of long-term electrical strength (resource) of the dielectric system of immersion high-voltage pulse capacitors / V. Gunko, O. Tanasova, T. Feschuk // Materials of the All-Ukrainian Scientific and Technical Conference «Modern Problems of Automation and Electrical Engineering» (SPAE 2024), April 24-25, 2024, Mykolaiv. – NUK. P. 58-61.
  10. Creation of energy-intensive high-voltage pulse capacitors for immersion electric discharge installations / V. Gunko, O. Tanasova, I. Perekupka // Materials of the All-Ukrainian Scientific and Technical Conference «Modern Problems of Automation and Electrical Engineering» (SPAE 2024), April 24-25, 2024, Mykolaiv. – NUK. P. 61-63.
  11. Self-propagating high-temperature synthesis of MAX phases of the Ti–Al–C system using nanocarbon / A. Maliushevska, N. Kuskova // The International research and practice conference "Nanotechnology and nanomaterials" (NANO-2025), 20-23 August 2024, Bukovel, p. 101.
  12. Adaptation of the submersible part of the electric discharge device for processing vertical oil wells to the operating conditions in horizontal wells / A. Malyushevska, V. Gunko, I. Perekupka, O. Tanasova // Proceedings of the All-Ukrainian Scientific and Technical Conference "Modern Problems of Automation and Electrical Engineering" (SPAE-2025), April 29-30, 2025, Mykolaiv. – NUK. P. 14.
  13. Creation of well-hole high-voltage pulse capacitors intended for operation at high ambient temperatures / V. Gunko, O. Tanasova, T. Feshchuk // Materials of the All-Ukrainian Scientific and Technical Conference «Modern Problems of Automation and Electrical Engineering» (SPAE-2025), April 29-30, 2025, Mykolaiv. – NUK. P. 19.
  14. Electric discharge iron tungstate as a catalyst for wastewater purification from azo-dyes / A. Maliushevska, S. Petrichenko // Proceedings of the International Conference "European Green Dimensions: Fundamental, Applied, and Industrial Aspects", June 5−7, 2025, Mykolaiv: PMBSNU, 2025. P. 50.

  1. Antonina P. Malyushevskaya, Koszelnik P.; Mitryasova, O.; Yushchishina A.; Mats A.; Papciak D.; Zdeb MM Mechanism and Synergy Effect of the Hybrid Water Disinfection Process Using Electric Discharges Combined with Chlorination. Preprints, (2024), 2024061713.https://doi.org/10.20944/preprints202406.1713.v1preprint

  1. Petrichenko S., Yushchishina A., Mitryasova O., Pohrebennyk V. Modernization of the water treatment process from heavy metals. Water Supply and Wastewater Disposal: Designing, Construction, Operation and Monitoring. - Lublin: Wydawnictwo Politechniki Lubelskiej, 2020. 348 p. P. 211–220. ISBN: 978-83-7947-409-7. https://rock.pollub.pl/entities/publication/fe04d77a-9fe6-44f3-bc76-ba2e5b869bdb
  2. Vinnychenko D., Nazarova N., Adamchuk Yu., Vinnychenko I., Vyshnevskyi O. Synthesis of Tungsten Carbides Submicron Powders by High-Frequency Electrospark Treatment Method. Nanooptics and Nanoelectronics, Nanobiotechnology, and Their Applications. NANO 2023. Springer Proceedings in Physics. - 2024. - Vol. 312. P. 385–395.
    https://doi.org/10.1007/978-3-031-67527-0_27
  3. Malyushevskaya, A., Kuskova, N. (2025). Preparation of Nanocarbon by the High-voltage Breakdown of Hydrocarbons. In: Fesenko, O., Yatsenko, L. (eds) Functional Nanomaterials, Nanocatalysts, Nanotechnologies, and Their Applications. NANO 2024. Springer Proceedings in Physics, vol 321. Springer, Cham. P. 185–203. ISBN 978-3-031-99135-6.
    https://doi.org/10.1007/978-3-031-99136-3_14
  4. Maliushevska A., Mitryasova O. (2025). Eco-Friendly Water Disinfection Using High-Voltage Electric Discharge. European Green Dimensions: Fundamental, Applied, and Industrial Aspects: Monograph / Eds: Olena Mitryasova, Chad Staddon. – Mykolaiv: PMBSNU; Bristol: UWE, 2025. – P. 131–162. ISBN 978-617-8176-43-3.
    https://dspace.chmnu.edu.ua/jspui/handle/123456789/2804

  1. Patent of Ukraine (invention), filed 04/23/2019; published 12/01/2021, Method for obtaining a composite coating of metal surfaces, No. 124839. https://sis.nipo.gov.ua/uk/search/detail/1706602
  2. Patent of Ukraine (invention), filed on 11/30/2020; published on 05/05/2021, Method for extracting target substances from plant raw materials, No. 147411. https://sis.nipo.gov.ua/uk/search/detail/1591997
  3. Patent of Ukraine (utility model), filed on 29.11.2021; published on 19.10.2022, High-voltage pulse current generator, No. 152028.https://sis.nipo.gov.ua/uk/search/detail/1711166
  4. Patent of Ukraine (utility model), filed 18.10.2021; published 03.03.2022, Method for producing humic acids, No. 150577. https://sis.nipo.gov.ua/uk/search/detail/1682534
  5. Patent of Ukraine (invention), filed 12/12/2019; published 09/14/2022, Installation for obtaining composite coating of internal surfaces of metal hollow parts, No. 126291. https://sis.nipo.gov.ua/uk/search/detail/1705575
  6. Patent of Ukraine (invention), filed 12/21/2021; published 09/21/2022, Method for obtaining a composite coating of metal surfaces, No. 126361. https://sis.nipo.gov.ua/uk/search/detail/1706602
  7. Patent of Ukraine (utility model), filed 17.10.2022; published 03.05.2023, Method of disintegration of scrap of W-Ni-Fe pseudoalloy, No. 152965. https://sis.nipo.gov.ua/uk/search/detail/1734960
  8. Patent of Ukraine (utility model), filed on 12.12.2022; published on 12.07.2023, Method of resonant charging of a powerful high-voltage capacitive energy storage device, No. 153469. https://sis.nipo.gov.ua/uk/search/detail/1747755
  9. Patent of Ukraine (utility model), filed 07/24/2023; published 02/15/2024, Method of discharge-pulse wastewater treatment, No. 155315. https://sis.nipo.gov.ua/uk/search/detail/1784160
  10. Patent of Ukraine (utility model), filed on 15.04.2024; published on 13.11.2024, Method of disinfecting natural waters, No. 157685. https://sis.nipo.gov.ua/uk/search/detail/1826996
  11. Patent of Ukraine (utility model), filed 08.07.2024; published 01.01.2025, Method of combined electric discharge dispersion of metals and alloys, No. 158141. https://sis.nipo.gov.ua/uk/search/detail/1835497
  12. Patent of Ukraine (invention), filed on 12.12.2022; published on 16.07.2025, Method of resonant charging of a powerful high-voltage capacitive energy storage device, No. 129732. https://sis.nipo.gov.ua/uk/search/detail/1866342
  13. Patent of Ukraine (utility model), filed on 23.05.2025; published on 05.11.2025, Method of creating cavitation by high-voltage electric discharge in an aqueous environment, No. 161093. https://sis.nipo.gov.ua/uk/search/detail/1884455
  14. Patent of Ukraine (invention), filed on 29.11.2021; published on 22.01.2025, High-voltage pulse current generator, No. 129130. https://sis.nipo.gov.ua/uk/search/detail/1837445

List of researchers of the department (full name, position, academic degree, academic title. ORCID or Scopus ID):

Petrychenko Serhiy Viktorovych

Leading Researcher

Candidate of Technical Sciences, Senior Researcher.

Link

Malyushevska Antonina Pavlovna

Senior Researcher

Candidate of Technical Sciences, Associate Professor.

Link

Nazarova Natalia Stanislavivna

Senior Researcher

Candidate of Technical Sciences, Associate Professor.

Link

Adamchuk Yuriy Olegovich

Junior Research Fellow.

Link

Rachkov Oleksiy Nikolaevich

Junior Research Fellow.

Link

Gunko Viktor Ivanovych

Head of the research and technology sector.

Link

Repurchase Inna Andreevna

Head of the design team.

Link

Tanasova Olena Dmitrievna

Leading design engineer.

Link

Feshchuk Tetyana Anatoliivna

Leading process engineer.

Link

Institute

Structure

Science

Contacts

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