ANALYSIS OF THE STATE AND PROSPECTS OF DEVELOPMENT OF TWO-LAYER AGGLOMERATION TECHNOLOGY

The classical scheme of the agglomeration process by the suction method is characterized by uneven heat distribution along the height of the sintered layer: a lack of heat in the upper horizons of the layer, excess - in the middle and especially lower horizons of the layer. It should also be noted that the bulk density of the charge is uneven along the height of the sintered layer and with a single-layer loading of the charge increases from top to bottom. Thus, an agglomerate of unsatisfactory strength is obtained in the upper part, and remelting of the lower part of the pie with reduced recoverability also occurs.

1. Isaenko G.E. Improving the technology of combined pelletizing, loading, ignition and sintering of an agglomeration charge: Abstract of the dissertation of the Candidate of Technical Sciences. Lipetsk, 2011. – 16 p.

2. Ferrous metallurgy of capitalist countries. Part 2. Preparation of ores for smelting and blast furnace production / V.S. Abramov, N.K. Leonidov, N.B. Arutyunov et al. – M.: Metallurgizdat, 1957. – 494 p.

3. Efimenko G.M., Kolokoltsov B.I., Soloviev Yu.M. Perfection of sintering technology of double-layer sinter // Metallurgist. 1971. No. 1. pp. 11-13.

4. Vikulov G.S., Kabanov Yu.A. About some problems in the constructive solutions of sintering plants // Ferrous Metallurgy. 2000. No. 5-6. pp. 17-22.

5. Malygin A.V., Nevraev V.P., Gurkin M.A. Investigation of the distribution of charge components over layer height during single- and double-layer loading of sintering machines // Ferrous Metallurgy. 2003. No. 4. pp. 10-12.

6. Frolov Yu.A. Thermal engineering investigation of the agglomeration process and the improvement of technology and technology for the production of agglomerate: abstract of the dissertation. Technical sciences. – Yekaterinburg, 2005. – 53 p.

7. Korshikov V.G., Sharov S.I., Khaidukov V.P. Gas permeability of the charge layer on an agglomerate with a sintering area of 252 m2 with various loading methods // Steel. 1970. No. 9. pp. 772-776.

8. Frolov Yu.A., Petrov V.N., Zevin S.L. An improved charge loading system for the AKM-312 sintering machine // Ferrous Metallurgy. 1987. No. 22. pp. 30-33.

9. Development of technology for low–temperature agglomeration in a high layer / Ref. L.I. Alexandrova // News of ferrous metallurgy abroad. 2002. No. 2. p. 29.

10. Improvement of sintering machine loading devices in Japan / L.I. Alexandrova // News of ferrous metallurgy abroad. 2004. No. 6. pp. 23-25.

11. Kinzel J., Rammer O., Gebert W., et. al. Successful application of the top-layer-sintering process for recycling of ferrous residues contaminated with organic substances. – In book: Ironmaking conference proceedings. 1997. P. 377 – 381.

12. Solutions for sinter plants [Electronic resource]. – Access mode: http://w4.siemens.ru/datapool/industry/industrysolutions/metals/simetal/ru/Solutions-for-sinter-plants-ru.pdf. (Accessed 11.09.2015)

13. Pat. 2465349 of the Russian Federation. Sintering method of an agglomeration charge / A.A. Odintsovo, V.A. Dolinsky. Application. 05/16/2011; publ. 10/27/2012.

14. Odintsovo A.A., Dolinsky V.A. Improvement of modes of crushing solid fuels on four-roll crushers // Izv. vuz. Ferrous metallurgy. 2008. No. 12. pp. 7-11.

15. Feoktistov A.V., Odintsovo A.A. Improving the efficiency of solid fuel use in two-layer agglomeration // Metallurgist. 2014. No. 6. pp. 66-73.

16. Isaenko G.E., Khaidukov V.P. Algorithm for estimating the rational composition and granulation degree of sinter of various composition // Metallurgist. 2012. No. 4. pp. 36-39.