Abstract
A technique for monitoring the chemical transformation of a gas mixture in an enclosed volume using the frequency of acoustic waves propagating therein is proposed. A mathematical verification of this method is presented. The results of monitoring the plasmochemical reactions of direct recovery of metals from their fluorides in a high-current electron accelerator are reported. The error of the method under the given experimental conditions is estimated to be 2–3%.
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REFERENCES
V. K. Zhivotnov, V. D. Rusanov, and F. F. Fridman, Diagnostics of a Nonequilibrium Chemically Active Plasma [in Russian], Energomatizdat, Moscow (1985).
G. E. Remnev, I. F. Isakov, M. S. Opekunov, and V. M. Matvienko, Izv. Vyssh. Uchebn. Zaved., Fiz., Suppliment to No. 4, 92 (1998).
M. A. Isakovich, General Acoustics [in Russian], Nauka, Moscow (1968).
B. M. Yavorskii and A. A. Detlaf [in Russian], A Reference Book on Physics (1968).
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Remnev, C.E., Pushkarev, A.I., Pushkarev, M.A. et al. Monitoring of the Changes in Chemical Composition of Gases in a Plasma Chemical Reactor During Condensation of the Reaction Products Using the Acoustic-Wave Frequency Data. Russian Physics Journal 44, 482–485 (2001). https://doi.org/10.1023/A:1012329627684
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DOI: https://doi.org/10.1023/A:1012329627684