Enhancement of Technology of Ceramic Brick Burning in Ring Furnaces

Number of journal: №4-2018
Autors:

Kurnosov V.V.
Tihonova V.R.

DOI: https://doi.org/10.31659/0585-430X-2018-758-4-29-31
УДК: 691.42

AbstractAbout AuthorsReferences
The experience in the introduction of new heating systems for ring furnaces of the brick factories of the Russian Federation with purpose to enhance the technology of ceramic brick burning is presented. The sequence of works on technical re-equipment of the furnace is described. Characteristics of the furnace operation are given. A comparative analysis of the thermal operation of the furnace before and after modernization is presented. The high efficiency of the furnace modernization from the point of view of fuel consumption in comparison with tunnel kilns is shown: specific gas consumption per a ton of calcined product in the ring furnace is 30 m3, in the tunnel kiln – 50–100 m3. The conclusion about the high efficiency of the ring furnace with a modern heating system as a thermal unit is made
V.V. KURNOSOV, Candidate of Sciences (Physics and Mathematics) (This email address is being protected from spambots. You need JavaScript enabled to view it.),
V.R. TIHONOVA, Engineer

OOO «KOMAS» (8A, Martovskaya Street, Aprelevka, 143362, Moscow Oblast, Russian Federation)

1. Yushkevich M.O., Rogovoi M.I. Tekhnologiya keramiki [Technology of ceramics] Moscow: Publishing house of literature on construction. 1969. 350 p. 

2. Kashkaev I.S., Sheinman E.Sh. Proizvodstvo glinyanogo kirpicha [Production of clay brick]. Moscow: Vysshaya shkola. 1974. 288 p. 

3. Tikhi O. Obzhig keramiki [Firing ceramics]. Moscow: Stroyizdat. 1988. 344 p. 

4. Kurnosov V.V., Shakhov I.I. Technology of rapid firing of ceramic products. Stroitel’nye Materialy [Construction Materials]. 2001. No. 2, pp. 7. (In Russian). 

5. Ashmarin G.D., Kurnosov V.V., Lastochkin V.G. Energy and resources saving technology of ceramic wall materials. Stroitel’nye Materialy [Construction Materials]. 2010. No. 4, pp. 24–27. (In Russian). 

6. Patent for invention RU 2192584. Gazovaya gorelka [Gas burner]. Kurnosov V.V., Petrov N.F. Declared 10.12.2001. Published 10.11.2002. (In Russian). 

7. Kurnosov V.V., Shakhov I.I., Dorozhkin A.A., Kalinina N.N., Povelitsa Yu.I. Heat engineering modernization of large heat-treatment furnaces. Refractories and Industrial Ceramics. 2012. Vol. 53. No. 2, pp. 101–103. (In Russian). 

8. Dorokhina O.G., Karvetskiy A.A., Arutyunov V.A., Kurnosov V.V., Levitskiy I.A. Simulation of the gas dynamics and heat transfer in a high-precision furnace. Steel in Translation. 2012. Vol. 42. No. 3, pp. 230–232. 

9. Patent for invention RU 2524296. Sposob upravleniya impul’snoi podachei topliva v nagrevatel’nykh i termicheskikh pechakh [Method for controlling impulse fuel supply in heating and thermal furnaces]. Kurnosov V.V., Pribytkov I.A. Tikhonova B.R. Declared 01.11.2013. Published 07.13.2014. Bulletin No. 21. (In Russian). 

10. Kuznetsov Yu.S., Kachurina O.I. Oxidation-reduction properties of gas phases. Izvestiya vysshikh uchebnykh zavedeniy. Chernaya metallurgiya. 2018. No. 1, pp. 69–79. (In Russian). 

11. Bazaikin V.I., Bazaikina O.L., Oskolkova T.N., Temlyantsev M.V. Mathematical modeling of thermal processes in the surface treatment of metal products with highly concentrated energy flows. Izvestiya vysshikh uchebnykh zavedeniy. Chernaya metallurgiya. 2017. No. 5, pp. 398–409. (In Russian).

For citation: Kurnosov V.V., Tihonova V.R. Enhancement of technology of ceramic brick burning in ring furnaces. Stroitel’nye Materialy [Construction Materials]. 2018. No. 4, pp. 29–31. DOI: https://doi.org/10.31659/0585-430X-2018-758-4-29-31 (In Russian).


Print   Email