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Hybrid plasmachemical reactor

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Abstract

A hybrid plasmachemical reactor on the basis of a dielectric barrier discharge in a transformer is developed. The characteristics of the reactor as functions of the dielectric barrier discharge parameters are determined.

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References

  1. U. Kogelschatz, Plasma Chem. Plasma Process. 23, 1 (2003).

    Article  Google Scholar 

  2. W. Siemens, Poggendorff. Ann. Phys. Chem. 102, 66 (1857).

    Article  Google Scholar 

  3. Yu. V. Filippov, V. A. Voblikova, and V. I. Panteleev, Electrosynthesis of Ozone (Izd. Mosk. Gos. Univ., Moscow, 1987) [in Russian].

    Google Scholar 

  4. V. T. Samoilovich, V. I. Gibalov, and K. V. Kozlov, Physical Chemistry of Dielectric Barrier Discharge (Izd. Mosk. Gos. Univ., Moscow, 1989) [in Russian].

    Google Scholar 

  5. S. V. Korbtsev, D. D. Medvedev, and V. L. Shiryaevskii, in Proceeding of the 3rd International Congress on Water: Ecology and Technology (ECWATECH-98), Moscow, 1998, p. 659.

  6. R. Kh. Amirov, E. I. Asinovskii, I. S. Samoilov, and A. V. Shepelin, in Proceedings of the 8th All-Union Conference on Physics of Low-Temperature Plasma, Minsk, 1991, Vol. 3, p. 91.

  7. V. G. Samoilovich, V. V. Panin, and L. N. Krylova, in Proceedings of the 1st All-Russia Conference “Ozone and Other Ecologically Clean Oxidants: Science and Technology,” Moscow, 2005, p. 139.

  8. V. I. Meleshin, Transistor Transformer Technology (Tekhnosfera, Moscow, 2005) [in Russian].

    Google Scholar 

  9. A. A. Grechukhin, Vestn. Kyrg.-Ross. Slav. Univ. 8, 664 (2008).

    Google Scholar 

  10. A. A. Grechukhin, A. V. Tokarev, and V. M. Lelevkin, in Proceedings of the 5th All-Russia Young Scientists’ Conference “Physics and Chemistry of High-Energy Systems,” Tomsk, 2009, p. 664.

  11. Yu. M. Emel’yanov and Yu. V. Filippov, Zh. Fiz. Khim. 31, 1628 (1957).

    Google Scholar 

  12. Yu. M. Emel’yanov and Yu. V. Filippov, Zh. Fiz. Khim. 34, 2841 (1960).

    Google Scholar 

  13. P. Hunter, Electronic Design, Feb. 6, 67 (1992).

    Google Scholar 

  14. V. Zhdankin, Sovr. Tekhnol. Avtomat., No. 1, 110 (1998).

    Google Scholar 

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Authors and Affiliations

  1. Kyrgyz-Russian Slavic University, ul. Kievskaya 44, Bishkek, 720000, Kyrgyz Republic

    V. M. Lelevkin, Yu. G. Smirnova & A. V. Tokarev

Authors
  1. V. M. Lelevkin
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  2. Yu. G. Smirnova
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  3. A. V. Tokarev
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Corresponding author

Correspondence to V. M. Lelevkin.

Additional information

Original Russian Text © V.M. Lelevkin, Yu.G. Smirnova, A.V. Tokarev, 2015, published in Fizika Plazmy, 2015, Vol. 41, No. 4, pp. 391–398.

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Lelevkin, V.M., Smirnova, Y.G. & Tokarev, A.V. Hybrid plasmachemical reactor. Plasma Phys. Rep. 41, 360–366 (2015). https://doi.org/10.1134/S1063780X15040029

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  • DOI: https://doi.org/10.1134/S1063780X15040029

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