Theory of Radiative Heat Exchange in Furnaces, Fire Boxes, Combustion Chambers is Replenished by Four New Laws
Review of radiative heat exchange design procedures in electric arc steel melting and flame furnaces, fire boxes, combustion chambers is made. Radiative heat exchange is a uniting factor for electric arc and flame furnaces, fire boxes, combustion chambers. We prove the existence of crisis of heat exchange design procedures in furnaces, fire boxes, combustion chambers. Laws of radiation emitted by gas layers of electric arc, glowing in metallic vapors at atmospheric pressure and a flame of furnaces, fire boxes, combustion chambers are discovered and stated. Laws of radiation form a basis for a new design procedure in electric arc and flame furnaces, fire boxes, combustion chambers, designing new furnaces, fire boxes, chambers.
Anatoly Nikolaevich Makarov,
Theory of Radiative Heat Exchange in Furnaces, Fire Boxes, Combustion Chambers is Replenished by Four New Laws, Science Discovery.
Vol. 2, No. 2,
2014, pp. 34-42.
A.G. Blokh, Thermal Radiation in Boilers , Energiya, Moscow, 326 p. 1967.
A.N. Makarov, A.D. Svenchanskii, Optimum Thermal Conditions of Electric Arc Furnaces, Energoatomisdat, Moscow, 96 p., 1992.
A. N. Makarov, Heat Exchange in Arc Steel-melting Furnaces, TSTU, Tver, 184p., 1998.
Heat engineering calculations in metallurgical furnaces: textbook / under the editorship of A.S. Telegin. Metallurgiya, Moscow,368 p., 1993.
V.A. Krivandin, А.V. Egorov, Thermal performance and constructions of iron and steel furnaces: textbook. Metallurgiya, Moscow, 462 p., 1989.
Stationary gas turbine plants // under the editorship of L.V. Arsenyev and V.G. Tyryshkin. Mashinostroeniye, Leningrad, 462 p.,1989.
R.Zigel, J. Howell, Radiative heat exchange. Mir,Moscow, 934 p., 1975.
E.М. Sparrow, R.D. Cess, Radiative heat exchange. Energia, Leningrad, 294 p., 1971.
S. Chandrasekar, Radiation transfer. IL, Moscow, 431 p., 1993.
М.L. Herman, Engineering design method of fire-tube boilers with terminal furnace М.L. Herman, V.А. Borodylia , E.F. Nogotov, G.I. Palchenok // The fourth Minsk International Forum on heat-mass exchange MIF-2000 : Proceedings of Forum. P. 2. Radiative and combined heat exchange. Minsk: ANK Publishing Institute for Heat and Mass Transfer named after A. V. Lykov, pp. 21-31, 2000.
Radiative Transfer-1. Proceeding of the First International symposium on Radiation Transfer (edited by prof M.Pinar Mengus). Kusadasi, Turkey. ICHMT, p. 800,1995.
A.G. Blokh, Yu. A. Juravlev, L.N. Ryzkov, Radiative heat exchange: Reference. Energoatomizdat, Moscow, 432 p., 1991.
Process fuel combustion and use / А.А. Vintovkin, М.G. Ladygichev, Yu.М. Goldobin, G.P. Yasnikov. Metallurgiya, Moscow, 286 p, 1998.
Roslyakov P.V., Zakorov I.А. Nonstoichiometric natural gas and oil fuel combustion at steam power plant. MIH,Moscow, 144 p, 2001.
A.G. Blokh Heat transfer in steam boiler boxes. Energoatomizdat, Leningrad, 240 p, 1984.
N.V. Lavrov, Physicochemical foundation of fuel combustion. Science, Moscow, 275 p., 1971.
B.S. Mastrukov, Thermotechnical calculations of industrial furnaces: textbook. Metallurgy , Moscow, 368 p., 1972.
Monte Carlo Solution of Thermal Transfer through Radiant Media Betweer Gray Walls / Y.R. Howell, M. Permutter // Yourn. Heat Transfer. pp. 116-122,1964.
On radiative properties of polydispersions / M.P. Mengus, R. Viskanta // Combust Scine and Technicke Vol. 44, pp. 143-159, 1985.
Predictions of radiative properties of pulverized coal and fly-ash polydispersions / R. Viskanta, A. Ungan, M.P. Mengus // ASME Publication 81HT24. pp. 1-11, 1981.
On the cjlculation of spatical temperature and radiative transfer in industrial watertube boiler / S. Zanelly, R. Corsi, Y. Rieri // Heat Transfer in Flames. Washington, Scripta Book Company. pp. 18-24, 1973.
A.N.Makarov, A Regular correlation between the parameters characterizing radiation from isothermal coaxial cylindrical gas layers generated during flame combustion of fuel and during the burning of electric arc in metal vapors at atmospheric pressure (Makarov’s regularities, diploma № 417) // Scientific discoveries: collected short descriptions of scientific discoveries, scientific hypotheses, scientific ideas – 211 / Compiler V.V. Potocky. Publsh. RANS, Moscow, pp. 33-37, 2012.
A.N. Makarov, A.D. Svenchanskii, Estimates of reflected irradiance component of lining from arcs in arc steel melting furnaces // Electrotech. industry. Ser. Electrothermics. No 5. pp. 1-2, 1983.
A.N.Makarov, Pecularities of heating flux test on metal bath in arc and plasma-arc furnaces // Electro and thermophysical processes in electroheat installations and control matters : MIH. pp. 108-111, 1985.
A.N.Makarov, Math model of plasma-arc furnace with dominant radiation as electrothermal intensifier // Proceedings of high schools. Ferrous metallurgy. No 7, pp. 139-142, 1989.
A.N.Makarov, Effect of electrode radiation on roof wear of arc steel melting furnaces // Proceedings of high schools. Ferrous metallurgy. No 2, pp. 80-82, 1991.
A.N. Makarov, Radiation flux design on metal bath under inclined position of plasmatrons in plasma arc furnaces. Proceedings of high schools. Ferrous metallurgy. No. 8, pp. 55-57, 1991.
A.N. Makarov, Heat-flux distribution in steam boiler box ТGМP – 204 // Electric Power Plants. No. 1, pp. 20-25, 2003.
A.N. Makarov, Flame simulating by radiative cylinders in heat exchange calculation in furnaces and steam boiler boxes // Power engineering. No. 4, pp. 33-39, 2003.
A.N. Makarov, Estimates of angular radiation coefficients of linear source on parallel and normal planes //Heat power engineering. pp. 65-68, 1997.
A.N. Makarov, Estimates of angular radiation coefficients of linear source on arbitrarily-spaced planes. // Heat power engineering. No 12, pp. 58-62, 1998.
A.N. Makarov, Estimates of angular radiation coefficients of linear source and furnace flame of steam boilers // Heat power engineering. No 8, pp. 63-66, 2000.
A.N. Makarov, Heat exchange in electric arc and flame metallurgical furnaces and energy plants :Tutorial, St-Petersburg: Lan,p.384, 2014.
A.N. Makarov, M.N. Shevchenko, Gas –fuel combustion chamber. RF Patent 2400668, 2010.
А.N. Makarov, A.G. Sheglov, Regenerative heating pit. RF Patent 2457262, 2012.
A.N. Makarov, E.V. Kruglov, V.V. Rybakova, DC Arc Steel melting furnace.RF Patent 2516896,2014.
A.N. Makarov, E.V. Kruglov, V.V. Rybakova, Ring-bottomed heating furnace RF Patent 2517079,2014.