Abstract
The synthesis of ozone from oxygen in a cylindrical ozonizer operating under surface discharge conditions with a plasma electrode was studied. The conditions of ozone synthesis were optimized. The dependence of ozone concentration and specific energy consumption on gas pressure in the plasma electrode and on distance between the coils of a corona electrode was determined. The results were compared with data obtained with the use of classical surface barrier discharge.
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REFERENCES
Samoilovich, V.T., Gibalov, V.I., and Kozlov, K.V., Fizicheskaya khimiya bar’ernogo razryada (Physical Chemistry of a Dielectric-Barrier Discharge), Moscow: Mosk. Gos. Univ., 1989, p. 176.
Lunin, V.V., Popovich, M.P., and Tkachenko, S.N., Fizicheskaya khimiya ozona (Physical Chemistry of Ozone), Moscow: Mosk. Gos. Univ., 1998, p. 109.
Borodin, I.F., Pershin, A.F., Evdoseeva, A.Yu., and Fedorov, A.V., in Sbornik nauchnykh trudov Moskovskogo instituta inzhenerov sel’skokhozyaistvennogo proizvodstva (Proceedings of Moscow Institute of Engineers of Agricultural Industry), Moscow: MIISP, 1989, p. 3.
Amirov, R.Kh., Asinovskii, E.I., Samoilov, I.S., and Shepelin, A.V., Abstracts of Papers, Materialy 8 Vsesoyuznoi konferentsii “Fizika nizkotemperaturnoi plazmy” (8 All-Union Conf. on Physics of Low-Temperature Plasma), Minsk: ANK ITMO im. A.V. Lykova AN BSSR, 1991, part 3, p. 91.
Amirov, R.Kh., Samoilov, I.S., and Shepelin, A.V., Abstracts of Papers, Materialy konferentsii “Fizika i tekhnika plazmy” (Materials of Conf.), Minsk: Belorusskii Gos. Univ., 1994, vol. 2, p. 321.
Filippov, Yu.V., Voblikova, V.A., and Panteleev, V.I., Elektrosintez ozona (Ozone Electrosynthesis), Moscow: Mosk. Gos. Univ., 1987, p. 236.
Skadchenko, O.E., Vendillo, V.P., and Filippov, Yu.F., Vestn. Mosk. Univ., Ser. 2: Khim., 1972, no. 5, p. 594.
Vendillo, V.P., Rusanyuk, V.N., Skadchenko, O.E., et al., Deposit in VINITI. 09.01, 1974, no. 24, p. 56.
Baryshnikov, V.V. and Khmara, V.V., Abstracts of Papers, III mezhdunarodnyi kongress “Voda: ekologiya i tekhnologiya”—ESWATECH-98 (III Int. Cong. “Water: Ecology and Technology”—ECWATECH-98), Moscow, 1998, p. 646.
Budarin, M.V., Litvinov, V.V., and Prigozhin, V.I., Abstracts of Papers, III mezhdunarodnyi kongress “Voda: ekologiya i tekhnologiya”—ESWATECH-98 (III Int. Cong. “Water: Ecology and Technology”—ECWATECH-98), Moscow, 1998, p. 648.
Abramovich, L.J., Danilin, V.V., Kokurkin, M.P., and Paschin, M.M., Regional Conference on Ozone Generation and Application to Water and Waste Water Treatment, Moscow, 1998, p. 124.
Masuda, S., IEEE Trans. Ind. Appl., 1998, vol. 24, no.2, p. 223.
Engel’sht, V.S., RU Patent no. 1754647, Byull. Izobret., 1992.
Masuda, S. and Kiss, E., Electrostatics-87, Oxford, 1987.
Kozlov, M.V., Investigation of High-Frequency Surface Discharge for Enhancement of the Performance of Electrical Devices, Extended Abstract of Cand. Sci. (Techn.) Dissertation, Moscow: Mosk. Gos. Univ., 1993.
Tokarev, A.V., Yudanov, V.A., Kel’, O.P., Alemskii, I.N., and Nikulicheva, T.B., Vestn. Kyrgyzsko-Rossiiskogo Slavyanskogo Univ., 2003, vol. 3, no.5, p. 24.
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Translated from Khimiya Vysokikh Energii, Vol. 39, No. 4, 2005, pp. 307–311.
Original Russian Text Copyright © 2005 by Alemskaya, Lelevkin, Tokarev, Yudanov.
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Alemskaya, O.P., Lelevkin, V.M., Tokarev, A.V. et al. Synthesis of Ozone in a Surface Barrier Discharge with a Plasma Electrode. High Energy Chem 39, 263–267 (2005). https://doi.org/10.1007/s10733-005-0052-z
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DOI: https://doi.org/10.1007/s10733-005-0052-z