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TVT, 2013, Volume 51, Issue 6, Pages 825–830 (Mi tvt148)  

This article is cited in 10 scientific papers (total in 10 papers)

Plasma Investigations

Estimation of electron parameters in the dielectric barrier discharge with a liquid electrode at atmospheric pressure

E. S. Bobkova, V. V. Rybkin

Ivanovo State University of Chemistry and Technology, Ivanovo, Russia

Abstract: In the oxygen dielectric barrier discharge (DBD) at atmospheric pressure, the current and voltage waveforms within the range of the mean-square voltages, $3.6$–$10.3 kV$, and currents, $0.14$–$0.57 mA$, were measured. The discharge burns in the glow regime. From the analysis of the equivalent discharge circuit, the voltage applied to the plasma was found. On the basis of these data, the reduced strength of the electric fields, $E/N$, was determined. From solution of the Botzmann equation for the electrons in the $\mathrm{O}_2$$\mathrm{H_2O}$ mixture, the electron distribution functions over the energies (EDFE) and certain electron parameters were found; the influence of presence of the $\mathrm{H_2O}$ molecules on those parameters was analyzed.


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English version:
High Temperature, 2013, 51:6, 747–752

Bibliographic databases:

UDC: 537.525+539.19
Received: 26.12.2012

Citation: E. S. Bobkova, V. V. Rybkin, “Estimation of electron parameters in the dielectric barrier discharge with a liquid electrode at atmospheric pressure”, TVT, 51:6 (2013), 825–830; High Temperature, 51:6 (2013), 747–752

Citation in format AMSBIB
\by E.~S.~Bobkova, V.~V.~Rybkin
\paper Estimation of electron parameters in the dielectric barrier discharge with a liquid electrode at atmospheric pressure
\jour TVT
\yr 2013
\vol 51
\issue 6
\pages 825--830
\jour High Temperature
\yr 2013
\vol 51
\issue 6
\pages 747--752

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    This publication is cited in the following articles:
    1. E. S. Bobkova, Ya. V. Khodor, O. N. Kornilova, V. V. Rybkin, “Chemical Composition of Plasma of Dielectric Barrier Discharge at Atmospheric Pressure with a Liquid Electrode”, High Temperature, 52:4 (2014), 511–517  mathnet  crossref  crossref  isi  elib  elib
    2. D. A. Shutov, A. S. Konovalov, V. D. Dronik, “Characteristics of atmospheric pressure DC discharge above sulfonol water solutions”, High Temperature, 52:5 (2014), 627–632  mathnet  crossref  crossref  isi  elib  elib
    3. Bobkova E.S. Shishkina A.I. Borzova A.A. Rybkin V.V., “Influence of Parameters of Oxygen Atmospheric-Pressure Dielectric Barrier Discharge on the Degradation Kinetics of Sulfonol in Water”, High Energy Chem., 49:5 (2015), 375–378  crossref  isi  elib
    4. Smirnov S.A. Shutov D.A. Bobkova E.S. Rybkin V.V., “Physical Parameters and Chemical Composition of a Nitrogen Dc Discharge With Water Cathode”, Plasma Chem. Plasma Process., 35:4 (2015), 639–657  crossref  isi  elib
    5. S. A. Smirnov, D. A. Shutov, E. S. Bobkova, V. V. Rybkin, “Characteristics of a DC discharge with a water cathode in argon”, Plasma Phys. Rep., 42:1 (2016), 74–78  crossref  isi
    6. N. Yu. Babaeva, R. S. Berry, G. V. Najdis, B. M. Smirnov, É. E. Son, D. V. Tereshonok, “Kinetic and electrical phenomena in gas–liquid systems”, High Temperature, 54:5 (2016), 745–766  mathnet  crossref  crossref  isi  elib
    7. V. V. Rybkin, D. A. Shutov, “Atmospheric-pressure electric discharge as an instrument of chemical activation of water solutions”, Plasma Phys. Rep., 43:11 (2017), 1089–1113  crossref  isi  scopus
    8. A. A. Gushchin, V. I. Grinevich, A. A. Kozlov, E. Yu. Kvitkova, D. A. Shutov, V. V. Rybkin, “Destruction of 2,4 dichlorophenol in an atmospheric pressure dielectric barrier discharge in oxygen”, Plasma Chem. Plasma Process., 37:5 (2017), 1331–1341  crossref  isi  scopus
    9. L. A. Frolova, M. P. Derhachov, “The effect of contact non-equilibrium plasma on structural and magnetic properties of $\mathrm{Mn}_x\mathrm{Fe}_{3-x}\mathrm{O}_4$ spinels”, Nanoscale Res. Lett., 12 (2017), 505  crossref  isi  scopus
    10. G. Neretti, M. Taglioli, G. Colonna, C. A. Borghi, “Characterization of a dielectric barrier discharge in contact with liquid and producing a plasma activated water”, Plasma Sources Sci. Technol., 26:2 (2017), 015013  crossref  isi  scopus
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