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Название Certain of the thermal physics problems of reducing processes in chemical electrothermal reactors
DOI 10.17580/nfm.2017.01.09
Автор Panchenko S. V., Dli M. I., Bobkov V. I., Panchenko D. S.
Информация об авторе

Branch of the National Research University “Moscow Power Engineering Institute”, Smolensk, Russia:

S. V. Panchenko, Professor, Chair of Physics
M. I. Dli, Professor, Head of a Chair of Management and Information Technologies in Economics, e-mail: midli@mail.ru
V. I. Bobkov, Assistant Professor, Chair of Mathematics
D. S. Panchenko, Engineer

Реферат

Presented are solutions of some problems typical for thermalphysic processes in an ore-smelting electrothermal reactor. Its reaction bulk comprises several zones of diverse phase compositions, where proceeding of physical-chemical target transformations is intensifying by turbulent energy transfer. Chemical reducing processes are proceeding on isolating the gas phase, which is bubbling the melt and actively transporting energy and reaction products. Problems of analysis of thermalphysic processes in a reaction zone and in separate elements of electrothermal reactor are considered in a two-dimensional formulation. Obtained are analytical solutions for describing thermalphysic processes in circumstances of the target product manufacturing. There is carried out structure analysis of a reaction zone and a raw material melting zone. Analytical solutions are obtained for problems of heat exchange in self-baking electrodes with regard to physical-chemical processes which take place during sintering. The electrode temperature field analysis makes it possible to guarantee reliable operative conditions and allows to form conditions needed for providing the required degree of anode paste hardening. The derived solutions may be used as references ones for numerical analysis of thermalphysic processes in a bath of oresmelting reactors.

This work was supported by the State Task of the Ministry of Education and Science of the Russian Federation (the basic part, project No. 13.9619.2017/BCh).

Ключевые слова Electrothermal reactor, reaction zone, thermalphysic process, mathematical model, mathematical physics equations, self-baking electrode, near-electrode processes localization
Библиографический список

1. Chumakov Yu. A., Mazmanyan V. A., Rumyantsev D. V., Tsemekhman L. Sh., Egorov P. A. Analysis of ore-thermal furnace operation at “Pechenganickel” combine under conditions of changing of charge composition. Tsvetnye Metally. 2014. No. 1. pp.16–21.
2. Strunskiy B. M. Ore-thermal smelting furnaces. Moscow : Metallurgiya, 1972. 368 p.
3. Kondrashev V. P., Mironov Yu. M., Kozlov A. I. et al. Investigation of operating modes of industrial electric furnaces for production of silicon carbide. In the collection: Ore-restoring electric furnaces. Moscow : Energoatomizdat, 1988. pp. 32–38.
4. Hariharan M., Rafi K. Mohd., Raghavan D. Modelling of calcium carbid furnace. Bulletin of Electrochemistry. March 1990. 6(3). pp. 298–301.
5. Eksteen J., Frank S., Reuter M. Dynamic structures in variance based data reconciliation adjustments for a chromite smelting furnace. Minerals Engineering. 2004. 15 (11). pp. 931–943.
6. Yang Y., Xiao Y., Reuter M. Analysis of transport phenomena in submerged arc furnace for ferrochrome production. In: International Ferroalloy Congress, SAIMM, 2004. pp. 15–25.
7. Scheepers E., Adema A. T., Yang Y., Reuter M. A. The development of a CFD model of a submerged arc furnace for phosphorus production. Minerals Engineering. 2006. 19. 1115–1125.
8. Scheepers E., Yang Y., Adema A. T., Boom R., Reuter M. A. Process modeling and optimization of a submerged arc furnace for phosphorus production. Metallurgical and Materials Transactions B. 2010. Vol. 41, No. 5. p. 990.
9. Meshalkin V. P., Panchenko S. V., Panchenko D. S., Menshikov V. V., Kazak A. S. Computer-aided simulation of heat- and mass-transfer processes in an ore-reduction electrothermal reactor. Teoreticheskie osnovy khimicheskoy tekhnologii. 2015. Vol. 49, No. 5. pp. 1–7.
10. Panchenko S. V., Meshalkin V. P., Dli M. I., Borisov V. V. Computer-visual model of thermophysical processes in electrothermal reactor. Tsvetnye Metally. 2015. No. 4. pp. 55–60.
11. Panchenko S. V., Dli M. I., Borisov V. V., Panchenko D. S. Analysis of thermalphysic processes in near-electrode zone of electrothermal reactor. Non-ferrous metals. 2016. No. 2. pp. 54–61.
12. Panchenko S. V., Shirokikh T. V. Thermal hydraulics of moving dispersive layer of process units. Teoreticheskie osnovy khimicheskoy tekhnologii. 2016. Vol. 50, No. 2. pp. 1–8.
13. Dantsis Ya. B., Ershov V. A., Zhilov G. M. et al. Electrochemical processes of chemical technology. Ed.: V. A. Ershov. Leningrad : Khimiya, 1984. 464 p.
14. Panchenko S. V., Puchkov A. Yu., Selyavskiy Yu. V. Parametric tuning of ill-defined Kalman filter in the system of control of electrochemical reactor. Neyrokompyutery: razrabotka, primenenie. 2016. No. 7. pp. 51–55.
15. Mikulinskiy A. S. Ore electrothermy processes. Moscow : Metallurgiya, 1966. 280 p.
16. Smurov I. Yu. Thermal processes during body smelting and ablation. In the book: Influence of concentrated energy flows on materials. Moscow : Nauka, 1985. pp. 108–136.
17. Shteynberg A. S. Linear pyrolysis. In the collection: Heat and mass transfer in burning processes. Chernogolovka, 1979. pp. 119–137.

Полный текст статьи Certain of the thermal physics problems of reducing processes in chemical electrothermal reactors
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