Investigation of the relative reactivity of volatile organic compounds in the air plasma of a pulsed corona discharge by the method of competing reactions

Filatov, I. E.; Uvarin, V. V.; Nikiforova, E V; Kuznetsov, D. L.

doi:10.1088/1742-6596/2064/1/012094

Cited by 4 publications

(8 citation statements)

References 20 publications

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“…As was shown before, unsaturated compounds are removed by the discharge plasma more efficiently than aromatic ones, which is in good agreement with [10,11]. Aromatic hydrocarbons have increased stability, however, if the aliphatic tail contains more hydrogen, they are removed better, which is consistent with [12].…”

Section: Abs Pyrolysis Productssupporting

confidence: 91%

Non-equilibrium plasma of pulsed corona discharge for the purpose of air purification from typical ventilation exhausts of polymer production

Filatov¹,

Uvarin²,

Kuznetsov³

2022

8th International Congress on Energy Fluxes and Radiation Effects

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The paper presents the results of a study of the impact of pulsed corona discharge plasma on air containing volatile products of polymer pyrolysis. The following materials were chosen as objects of study: rubber, polypropylene and ABS plastic. Polymeric materials were subjected to pyrolysis at a temperature of 550–650 °C. Analysis of the products was carried out by GC/MS method. These are aliphatic and aromatic unsaturated compounds of various structures, including monomers. Components with increased volatility (b.p. < 160 °C) can pollute the air, so they were studied in detail. For the research, a pulsed corona discharge was used with the following parameters: pulse duration 40 ns, pulse repetition rate 10 Hz, voltage 100 kV, current – up to 100 A. The relative reactivity of the components was estimated using the method of competing reactions. It is shown that the method more effectively removes unsaturated and saturated aliphatic compounds whereas aromatic compounds eliminate less effectively. It is shown that high reactivity of unsaturated compounds is due to their interaction with ozone. The found dependencies will be useful in the development of new energy-efficient air purification technologies for the tasks of primary and secondary processing of plastics.

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Section: Abs Pyrolysis Productssupporting

confidence: 91%

Non-equilibrium plasma of pulsed corona discharge for the purpose of air purification from typical ventilation exhausts of polymer production

Filatov¹,

Uvarin²,

Kuznetsov³

2022

8th International Congress on Energy Fluxes and Radiation Effects

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“…Важно исследовать влияние структуры на реакционную способность определенных классов ЛОС, чтобы делать выводы для предсказания поведения сложных смесей соединений по отношению к плазме. Ранее определена относительная реакционная способность растворителей широкого применения [7,8], непредельных [8] и ароматических [8,9] соединений. Использование смесей соединений родственных классов позволяет получать относительные параметры реакционной способности ЛОС с высокой точностью [7][8][9].…”

unclassified

“…Ранее определена относительная реакционная способность растворителей широкого применения [7,8], непредельных [8] и ароматических [8,9] соединений. Использование смесей соединений родственных классов позволяет получать относительные параметры реакционной способности ЛОС с высокой точностью [7][8][9]. Эти величины необходимы для сравнения альтернативных плазмохимических методов на основе различных видов разряда.…”

unclassified

Исследование Относительной Реакционной Способности Паров Алкилацетатов По Отношению К Компонентам Плазмы Импульсного Разряда В Воздухе

Филатов¹,

Уварин²,

Кузнецов³

2023

Письма В Журнал Технической Физики

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A study was made of the relative reactivity of vapors of a number of acetic acid esters (alkyl acetates) with respect to plasma components of a pulsed corona discharge with a voltage of 100 kV and a duration of 40 ns. On model mixtures based on methyl-, ethyl-, propyl-, isopropyl, isobutyl-, butyl-, and vinyl acetate with a content of 250–500 ppm in air and nitrogen, the relative reactivity parameters were obtained. The reactivity of acetic acid esters increases with an increase in the hydrocarbon substituent. The high reactivity of vinyl acetate is due to the double bond reaction with ozone.

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“…Конструкции озонаторов и плазмохимических установок для очистки воздуха от летучих органических соединений в большинстве случаев идентичны. Для оценки плазмохимической эффективности ПХР для удаления примесей предлагается использовать эффективность на-работки озона в нем [13]. Процесс плазмохимической обработки газовых смесей, содержащих кислород, всегда сопровождается наработкой озона, реакционная способность которого недостаточна для быстрого связывания примесей, поэтому его образование всегда следует учитывать из-за высокой токсичности и для дальнейшего использования его окислительного потенциала в каталитических системах [14][15][16].…”

unclassified

Влияние Параметров Разрядной Камеры На Эффективность Наработки Озона Импульсным Коронным Разрядом

Филатов¹,

Сурков²,

Кузнецов³

2022

Письма В Журнал Технической Физики

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The article discusses ways to increase the efficiency of ozone production in a coaxial chamber using a pulsed corona discharge. The effect of the discharge gap and the diameter of the potential electrode on the energy efficiency of ozone production using a pulsed corona discharge of negative polarity with a duration of 40 ns and a voltage of about 100 kV was investigated. It is shown that with an increase in the discharge gap, the productivity of the installation decreases, and the energy efficiency increases. The optimal diameter of the potential electrode has a value of about 0.64 mm. This information will be useful in the development of highly efficient ozonators and in optimizing the parameters of plasma chemical reactors for air purification by electro-discharge methods

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Investigation of the relative reactivity of volatile organic compounds in the air plasma of a pulsed corona discharge by the method of competing reactions

Cited by 4 publications

References 20 publications

Non-equilibrium plasma of pulsed corona discharge for the purpose of air purification from typical ventilation exhausts of polymer production

Non-equilibrium plasma of pulsed corona discharge for the purpose of air purification from typical ventilation exhausts of polymer production

Исследование Относительной Реакционной Способности Паров Алкилацетатов По Отношению К Компонентам Плазмы Импульсного Разряда В Воздухе

Влияние Параметров Разрядной Камеры На Эффективность Наработки Озона Импульсным Коронным Разрядом

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