Radiation from large cylindrical gas volumes is studied as a means of simulating the flare in steam boiler furnaces. Calculations of heat exchange in a furnace by the zonal method and by simulation of the flare with cylindrical gas volumes are described. The latter method is more accurate and yields more reliable information on heat transfer processes taking place in furnaces.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
A. G. Blokh, Heat Exchange in Steam Boiler Furnaces [in Russian], Énergoatomizdat, Moscow (1984).
A. G. Blokh, Yu. A. Zhuravlev, and L. N. Ryzhkov, Radiative Heat Transfer: A Handbook [in Russian], Énergoatomizdat, Moscow (1991).
A. S. Telegin, ed., Thermal Calculations for Metallurgical Furnaces: A Textbook for Colleges [in Russian], Metallurgiya, Moscow (1993).
A. N. Makarov and A. D. Svenchanskii, Optimal Thermal Modes for Arc Steel Smelting Furnaces [in Russian], Énergoatomizdat, Moscow (1992).
A. N. Makarov, “Relationship between the radiative parameters of isothermal coaxial cylindrical gas layers formed during flare combustion of fuel and in atmospheric-pressure metal vapor electric arcs (Makarov laws, certificate No. 417),” in: V. V. Pototskii (ed.), Scientific Discoveries: a Collection of Short Descriptions of Scientific Discoveries, Scientific Ideas, and Scientific Hypotheses [in Russian], Izd. RAEN, Moscow (2012).
A. N. Makarov, “Determining the angular radiative coefficients for a linear source on parallel and perpendicular sources,” Teploénergetika, No. 1 (1997).
A. N. Makarov, “Determining the angular radiative coefficients for a linear source and the flare in steam boiler furnaces,” Teploénergetika, No. 8 (2000).
A. N. Makarov, “Determining the heat fluxes in a TGMP-204 steam boiler furnace,” Élektr. Stantsii, No. 1 (2003).
A. N. Makarov, Heat Exchange in Electric Arc and Flare Metallurgical Furnaces and Power Plants: A Textbook for Colleges [in Russian], Lan’, St. Petersburg (2014).
Yu. M. Usman, Yu. P. Enyakin, A. V. Filatov, and S. G. Shtal’-man, “Comparative studies of the ignition of gas, fuel oil, and mixtures of these in the furnace of a TGMP-314P boiler with bottom-mounted burners,” Élektr. Stantsii, No. 1 (1988).
V. V. Gerasimov, I. A. Kuskov, I. M. Duda, Yu. N. Nezhentsov, I. V. Yablokov, A. I. Sivtsov, and A. D. Terent’ev, “Tests and experimental-industrial operation of 330 MWpower generating units,” Ékspress-inf. Ser. Ékspl. Remont Élektrostansii, No. 1 (1988).
A. N. Makarov, “Heat exchange in gas layers of flares in steam boiler furnaces. Part 2. Radiation laws for gas layers and a method based on them for calculating heat exchange in ovens, furnaces, and combustion chambers,” Teploénergetika, No. 10 (2014).
A. A. Abryutin, A. Yu. Antonov, Yu. M. Usman, S. G. Shtil’-man, and M. M. Levin, “Heat exchange in the furnace of a highpower oil-fired boiler unit with bottom mounted burners,” Élektr. Stantsii, No. 9 (1981).
Yu. V. Kozlov, T. V. Zroichikova, and V. A. Belov, “Methods for enhancing the reliability of boiler furnace shields,” Élektr. Stantsii, No. 5 (2003).
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated from Élektricheskie Stantsii, No. 3, March 2015, pp. 19 – 24.
Rights and permissions
About this article
Cite this article
Makarov, A.N. Radiation from Large Gas Volumes and Heat Exchange in Steam Boiler Furnaces. Power Technol Eng 49, 196–201 (2015). https://doi.org/10.1007/s10749-015-0598-y
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10749-015-0598-y