Abstract
An analytical expression which describes the quenching of a relatively cold plasma by cold solid particles is used for designing the length of the quenching reactor. The cooling law thus obtained agrees with experimental data.
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Literature cited
L. S. Polak and V. S. Shchipachev, “Problems in optimizing the process of producing nitrogen oxides in a plasma jet,” in: Kinetics and Thermodynamics of a Cold Plasma [in Russian], Nauka, Moscow (1965), pp. 151–166.
B. S. Klyachko, “On the theory of quenching nitrogen oxide,” Dokl. Akad. Nauk SSSR,326, No. 3, 661–664 (1977).
B. S. Klyachko, “Quenching of nitrogen oxide with heat transfer at the surface,” Fiz. Goreniya Vzryva, No. 5, 11–17 (1978).
W. H. Goldberger and J. H. Oxly, “Quenching of the plasma reaction by means of a fluidized bed,” AIChE J.,9, No. 6, 778–782 (1963).
A. V. Utkin, L. I. Krupenik, and F. G. Ageev, USSR Patent Disclos. No. 565,194, Class 28 Jul 15 1977, Byull. Izobret., No. 26, 81 (1977).
L. N. Korovin, “Quenching the products of plasmochemical reactions by means of a circulating solid coolant,” Reports to the Second All-Union Conference on Plasmochemical Processes and Apparatus Design [in Russian], Vol. 2, Moscow (1977), pp. 95–97.
D. Bhattacharyga and W. H. Gouwen, “Modeling of a heterogeneous system in a plasma jet reactor,” AIChE J.,21, No. 5, 879–895 (1975).
I. S. Burov and A. L. Mossé, “Calculation of the heat transfer in a two-phase plasma stream,” in: Problems in Chemistry and Chemical Technology [in Russian], No. 35, Vysshaya Shkola, Kharkov (1974), pp. 37–39.
I. S. Burov, “Intercomponent heat transfer during processing of a disperse material in a plasma reactor with a multistage mixing chamber,” in: Studies of Plasma Processes and Apparatus [in Russian], Minsk (1978), pp. 42–48.
H. Graeber, S. Erck, and W. Griegul, Principles of Teaching Heat Transfer [Russian translation], IL, Moscow (1958).
I. V. Kalganova and V. S. Klubnikin, “Heat transfer during circumfluence of a sphere by a stream of ionized argon,” Teplofiz. Vys. Temp.,14, No. 2, 408–410 (1976).
N. B. Vargaftik, Tables on the Thermophysical Properties of Liquids and Gases: In Normal and Dissociated States, 2nd ed., Halsted Press (1975).
M. B. Andryushkevich, I. N. Burachenok, and S. S. Zabrodskii, “Discharge of a plasma jet into a fluidized bed,” in: Study of Plasma Processes and Apparatus [in Russian], Minsk (1975), pp. 173–179.
M. é. áerov and O. M. Todes, Hydraulic and Thermotechnical Operating Principles of Equipment with a Stationary or Bubbling Bed of Granular Material [in Russian], Khimiya, Leningrad (1968).
Ya. B. Zel'dovich, P. Ya. Sadovnikov, and D. A. Frank-Kamenetskii, Oxidation of Nitrogen during Combustion [in Russian], Izd. Akad. Nauk SSSR, Moscow (1947).
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Translated from Inzhenerno-Fizicheskii Zhurnal, Vol. 38, No. 6, pp. 999–1004, June, 1980.
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Korovin, L.N., Shchelchkov, V.A. Quenching of an air plasma by solid particles. Journal of Engineering Physics 38, 614–618 (1980). https://doi.org/10.1007/BF00824962
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DOI: https://doi.org/10.1007/BF00824962