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Information × Registration Number 0216U003011, 0111U006169 , R & D reports Title Fundamental proceses in laboratory and space plasmas popup.stage_title Head Anisimov Igor O., Registration Date 11-01-2016 Organization Taras Shevchenko Kiev university popup.description2 The plasma-liquid system with rotational gliding discharge was developed for the use in plasma-chemical applications; it has a competitive time of continuous operation and the ability to control plasma parameters. The emission spectra of the plasma produced in the system and the impact of discharge products on the acidity of water were investigated. The system was tested in the mode of degrading phenol dissolved in water, the energy price of its destruction was determined. The plasma-catalytic reforming of ethanol in a dynamic plasma system with a rotating gliding arc was studied. The spectroscopic diagnostic techniques for the study of arc plasma with the metal vapor impurities were developed; transport properties of this type of plasma were investigated. The experimental study of the plasma of the arc burning between single-component and composite electrodes in the gas stream and in different gas environments was conducted. The features of plasma own radiation transfer within the discharge channel were studied. The features of the spectroscopy of multicomponent arc discharge plasma with the vapor impurities of nickel and copper were determined. The modeling of the interaction between the cylindrical electron bunches and homogenous and non-homogeneous isotropic plasma during the excitation of wake fields was conducted. The initial stages of beam-plasma discharge and the formation of streams of charged particles in areas of the most intense high-frequency electric field excited due to the development of beam-plasma instability were investigated using simulation. The method of numerical modeling of dust particles' dynamics in the discharge plasma was developed. The method of modeling of the interaction of dust particles with plasma in a magnetic field was modified. Dynamics of dust particles in the radio-frequency discharge in the external magnetic field was investigated. The study of the force that influence the dust particles in the magnetized plasma was conducted. Product Description popup.authors Борецький Вячеслав Францевич Веклич Анатолій Миколайович Веремій Юлія Петрівна Гамазін Денис Костянтинович Донченко Тетяна Сергыъвна Колган Володимир Владиславович Котляров Ігор Юрійович Кравченко Олександр Юрійович Літошенко Тарас євгенович Лебідь Антон Валерійович Левада Галина Іванівна Мартиш Євген Власович Марущак Іван Сергійович Недибалюк Олег Анатолійович Соломенко Оксана Василівна Соломенко Олена Василівна Федірчик Ігор Ігорович Фесенко Сергій Олександрович Черняк Валерій Якович Юхименко Віталій Васильович popup.nrat_date 2020-04-02 Close