STATIONARY HEAT EXCHANGE IN THE BLAST FURNACE SMELTING ZONE IRRIGATED WITH MELT

The problem of stationary heat exchange in the blast furnace smelting zone irrigated with melt, considering features of process of a fi ltration of pig-iron and slag through coke nozzle is formulated. It is shown, that in this zone there is a simultaneous heating by gas of streams of coke, pig-iron and slag, each of which is in a heat exchange condition among themselves. The processes of mutual heat exchange are carried out as convection and radiation. Convection provides heat interchange among gas and all the heated up materials, and also between slag and coke as slag fl owing down on coke partially coats its surface. Radiant heat exchange develops between coke, pig-iron and slag. Its intensity increases with the growth of temperature of heated up materials. It is fi xed, that mutual heat exchange among streams of coke, pig-iron and slag in an irrigated zone of a blast furnace makes considerable impact on formation of a temperature fi eld in this zone. The knowledge of thermal eff ects distribution of chemical reactions of direct restoration of iron, silicium and manganese are necessary for calculation of heat interchange in the fi eld of bosh and a blast-furnace well on height of an irrigated zone and a fraction of a surface of the coke, coated with slag.

1. Jun-ichiro Yagi. Mathematical model of blast furnace Progress and Application to New Technology Development. 6th International congress on the science and technology of ironmaking – ICSTI, 42nd International Meeting on ironmaking and 13th International Symposium on Iron Ore, October 14th to 18th, 2012, Rio de Janeiro, RJ, Brazil. pp. 1660–1674.

2. Jian Xu, Sheng-li Wu, Xin-ying Guo, Kai-ping Du. Numerical simu lation on dynamic and static holdups of powder inside pre-reduction shaft furnace. Technical contribution to the 6th International congress on the science and technology of ironmaking – ICSTI, 42nd International Meeting on ironmaking and 13th International Symposium on Iron Ore, October 14th to 18th, 2012, Rio de Janeiro, RJ, Brazil. pp. 414–424.

3. Kitaev B.I., Jaroshenko Ju.G., Suchkov V.D. Heat Exchange in shaft furnaces. London: Pergamon Press, 1967, 320 p.

4. Vegman E.F., Zherebin B.N., Pokhvisnev A.N., Yusfi n Yu.S. etc. Metallurgiya chuguna. Uchebnik dlya vuzov [Cast-iron metallurgy. Textbook for universities]. Moscow: IKTs “Akademkniga”, 2004, 774 p. (In Russ.).

5. Tovarovskii I.G. Poznanie protsessov i razvitie tekhnologii domennoi plavki [Knowledge of the processes and technology development of blast furnace mel-ting]. Dnepropetrovsk. Izd. “Zhurfond”, 2015. 912 p. (In Russ.).

6. Spirin N.A., Lavrov V.V., Rybolovlev V.Yu. etc. Matematicheskoe modelirovanie metallurgicheskikh protsessov v ASU TP [Mathematical modeling of metallurgical processes in automatic control system of technological processes]. Ekaterinburg: UrFU, 2014, 558 p. (In Russ.).

7. Kitaev B.I., Timofeev V.N., Bokovikov B.A., Malkin V.M., Shvydkii V.S., Shklyar F.R.,. Yaroshenko Yu.G. Teplo- i massoobmen v plotnom sloe [Heat- and mass exchange in a dense layer]. Moscow: Metallurgiya, 1972, 432 p. (In Russ.).

8. Kitaev B.I., Yaroshenko Yu.G., Sukhanov E.L., Ovchinnikov Yu.N., Shvydkii V.S. Teplotekhnika domennogo protsessa [Heat engineering of a blast furnace process]. Moscow: Metallurgiya, 1978, 248 p. (In Russ.).

9. Gordon Ya.M., Bokovikov B.A., Shvydkii V.S., Yaroshenko Yu.G. Teplovaya rabota shakhtnykh pechei i agregatov s plotnym sloem [Heat work of shaft furnaces and units with a dense layer]. Moscow: Metallurgiya. 1989, 120 p. (In Russ.).

10. Spirin N.A., Ovchinnikov Yu.N., Shvydkii V.S., Yaroshenko Yu.G. Teploobmen i povyshenie eff ektivnosti domennoi plavki [Heat exchange and effi ciency increase of a blast furnace melting]. Ekaterinburg: izd. UGTU–UPI, 1995, 243 p. (In Russ.).

11. Mysik A.F., Kukarkin A.S., Kitaev B.I., Shvydkii V.S. Calculation of the heating process of coke, cast iron and slag in a bottom part of a blast furnace. Izvestiya VUZov. Chernaya metallurgiya. = Izvestiya. Ferrous Metallurgy. 1976, no. 12, pp. 125‒129. (In Russ.).

12. Yaroshenko Yu.G., Shvydkii V.S., Spirin N.A., Lavrov V.V., Noskov V.Yu. Nosteady heat transfer and transient processes in blast furnaces. Steel in Translation. 2015, vol. 45, no 9, pp. 654–657.

13. Spirin N., Shvidkii V., Yaroshenko Y., Gordon Y. Improvement in Energy Efficiency of Blast Furnace. METEC and 2nd ESTAD 2015, Düsseldorf, 15–19 June 2015, pp. 114–122.

14. Vosstanovlenie, teploobmen i gidrodinamika v domennom protsesse [Reduction, heat exchange and hydrodynamics in a blast furnace process] Shavrin S.V. ed. Trudy instituta metallurgii UFAN SSSR. Part. 1, vol. 24, 1970, 130 p; Part. 2, vol. 26, 1972, 140 p. (In Russ.).

15. Onorin O.P., Gladyshev V.I., Kaplun L.I. Filtering of ferrous slag melts through coke packing. Izvestiya VUZov. Chernaya metallurgiya. = Izvestiya. Ferrous Metallurgy. 1997, no. 2, pp. 11‒14. (In Russ.).