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Information × Registration Number 0310U002663, 0109U001760 , R & D reports Title To study physical and technical properties of carbonic nano-materials synthesis through special electrodischarge impact on gaseous and fluid carbonic media. popup.stage_title Теоретично оцінити параметри об'ємної електророзрядної дії на робочі середовища для отримання наноматеріалів та розробити макетні зразки реакторів для плазмохімічного синтезу нановуглецю в коронному і об'ємних розрядах Head Boguslavskiy Leonid Zinoviyovuch, Кандидат технічних наук Registration Date 18-05-2010 Organization Institute of Pulse Research and Engineering popup.description2 It is hypothesized that voluminous electrodischarge treatment of gaseous and fluid carbon media can enhance the output of nanoproducts and eliminate their cleaning. Preliminary range of energy density is determined for the energy inserted in the gas, and also minimum temperatures of plasma characteristic for various types of a discharge (streamer discharge - corona and voluminous, pulse-periodic arc) providing the destruction of carbons in a gaseous state. Working fluids of high conductance and high carbon content in molecular complexes are determined, and also the conditions necessary to involve large volumes of fluid to nanomaterials plasma-chemical synthesis. A row of experimental reactors with a computerized temperature and pressure control mechanism for plasma-chemical synthesis of nanocarbon due to carbon-containing gases treatment, and also organic electrolytes in a plasma of various discharge types and respective pulse generators. Nanocarbon with grains from 15 to 35 nm is obtained from a gaseous medium and 98% of chemically pure carbon total content, which confirmed the following: first, advance assessment, and, second, the possibility to greatly facilitate the cleaning operation for the gained nanoproducts at use of a voluminous electrodischarge effect on hydrocarbon media. Product Description popup.authors popup.nrat_date 2020-04-02 Close