Vinnychenko D. High-voltage systems of electrodischarge processing of carbon-containing gases.

Українська версія

Thesis for the degree of Candidate of Sciences (CSc)

State registration number

0419U003144

Applicant for

Specialization

  • 05.09.03 - Електротехнічні комплекси та системи

11-06-2019

Specialized Academic Board

Д 26.187.01

Institute of Electrodynemics, NAS of Ukraine

Essay

The оbject of research: High-voltage systems of electrodischarge obtaining carbon nanomaterials from carbon-containing gases. The aim of research:is the development new principles of construction high-voltage systems of electrodischarge processing carbon-containing gases in inter-electrode gap with variable length, based on parametric regulation of bipolar voltage of it breakdown and forming regulated high-frequency discharge currents in gases . Methods of research: theoretical and experimental research, physical modeling, mathematical methods, computer modeling. Theoretical and practical results and innovations: the important scientific task of creating new principles for the construction of high-voltage electrodischarge systems for processing carbon-containing gases was solved. The interconnection of the characteristics of the high-voltage power supply of electrodischarge processing of carbon-containing gases with the productivity and specific energy consumption of the electrotechnological process of the production of carbon nanmaterials is determined. New methods, experimental high-voltage electrotechnical systems and electrodischarge reactors for the synthesis of nanocarbon, for which patents of Ukraine have been obtained, are developed. A number of high-voltage systems for electrodischarge processing of carbon-containing gases have been developed. A subject degree of introduction: are used in LLC "Компанія СВІТ". Scientific results are used in the educational process in the education of specialists in the specialty 151 "Automation and Computer-Integrated Technologies" by the Department of Computerized Control Systems of the Institute of Automation and Electrical Engineering of the NUOS named after S. Makarov (Mykolaiv). Effectiveness of implantation: a significant technical and economical effect has been obtained, which is to increase the quality and productivity of the units of electrodischarge synthesis of nanocarbon with the unique properties, from carbon-containing gases. Sphere of use: production of carbon nanomaterials.

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