INVESTIGATION OF THE EFFECT OF THE RATE OF ISSUANCE OF SLABS AND BLANKS ON THE UNEVENNESS OF THE THERMAL STATE AND METAL CARBON MONOXIDE DURING HEATING IN METHODICAL FURNACES

The paper analyzes the factors influencing the uneven heating of metal in methodical furnaces. Special attention is paid to the study of the influence of the uneven rate of delivery of steel slabs and blanks from methodical heating furnaces on their thermal condition and losses with carbon monoxide. A previously developed deterministic mathematical model was used as a research tool to determine the dynamics of the thermal state and metal carbon monoxide during heating in methodical furnaces. To solve this problem, the model has been modernized, its functionality has been expanded in order to take into account the uneven movement of the heated metal in the furnace. It was found that with a relatively low effect of the uneven rate of discharge on the final thermal state of the slabs, carbon monoxide can change by 1.5 times, due to the influence of the temperature-time factor.

1. Gusovskii V.L., Ladygichev M.G., Usachev A.B. Modern heating and thermal furnaces (designs and technical characteristics) / A.B. Usachev ed. Moscow: Teplotekhnik. 2007:656. (In Russ.).

2. Krivandin V.A., Egorov A.V. Thermal operation and designs of furnaces of ferrous metallurgy. Moscow: Metallurgiya.1989:462. (In Russ.).

3. Peretyat'ko V.N., Temlyantsev N.V., Temlyantsev M.V., Mikhailenko Yu.E. Heating of steel slabs. Moscow: Teplotekhnik.2008:192. (In Russ.).

4. Yan A., Chai T., Wu F., Wang P. Hybrid in-telligent control of combustion process for ore-roasting furnace. Journal of Control Theo-ry and Applications. 2008;6(1):80–85.

5. Kuznetsova O.V., Konoz K.S., Temlyantsev M.V., Temlyantsev N.V. Investigation of the effect of uneven heating of workpieces in methodi-cal furnaces with mechanized hearth on metal carbon monoxide. In: Heat engineering and Computer science in education, science and production. Collection of reports of the VI All-Russian Scientific and Practical Conference of Students, postgraduates and Young Scientists (TIM'2017) with international participation. Ekaterinburg: Ural'skii federal'nyi universitet imeni pervogo Prezidenta Rossii B.N. El'tsina. 2017:62–66. EDN: ZSTQMT. (In Russ.).

6. German M.L. Optimization of temperature regimes of walking-beam heating furnaces. Journal of Engineering Physics and Thermo-physics. 2006;79(4):736–740.

7. http://dx.doi.org/10.1007/s10891-006-0159-1

8. Arutyunov V.A., Bukhmirov V.V., Krupennikov S.A. Mathematical modeling of the thermal opera-tion of industrial furnaces. Moscow: Metallurgiya. 1990:239. EDN: VJQRUM. (In Russ.).

9. Sokolov A.K. Improvement and optimization of metal heating in gas furnaces by mathematical modeling. Ivanovo: IGEU. 2012:255. EDN: OWFPWM. (In Russ.).

10. Revun M.P., Sokolov A.K. Modeling of metal heating in computer-aided design and man-agement. Zaporozhye: ZGIA. 2000:351. EDN: GNXPYN. (In Russ.).

11. Li G.-J., Li X.-T., Chen H.-G. The simplified method to calculate two-dimensional heat conduction equations of heating slab. Applied Mechanics and Materials. 2011;79:105–110. http://dx.doi.org/10.4028/www.scientific.net/AMM.79.105

12. Temlyantsev M.V., Mikhailenko Yu.E. Oxida-tion and decarbonization of steel in the pro-cesses of heating under pressure treatment. Moscow: Teplotekhnik. 2006:200. (In Russ.).

13. Pavlov V.V., Temlyantsev M.V., Korneva L.V., Syusyukin A.Yu. Promising technolo-gies of thermal and heat treatment in the pro-duction of rails. Moscow: Teplotekhnik. 2007:279. EDN: QMZWVN. (In Russ.).

14. Kuznetsova O.V., Temlyantsev M.V., Temlyantseva E.N., Umanskii A.A., Skopich D.V., Fat'yanova E.A. Investigation of the effect of uneven movement of slabs and workpieces in methodical furnaces on the thermal state of the metal. Vestnik Rossiiskoi akade-mii estestvennykh nauk. Zapadno-Sibirskoe otdele-nie.2018;21:100–108.

15. EDN: YPWXUL. (In Russ.).

16. Kuznetsova O.V., Temlyantsev M.V., Tem-lyantseva E.N. On the issue of taking into ac-count the uneven movement of workpieces in the mathematical modeling of metal heating processes in methodical furnaces. Vestnik gor-no-metallurgicheskoi sektsii Rossiiskoi akade-mii estestvennykh nauk. Otdelenie metallurgii. 2018;40:49–53. (In Russ.).

17. Kuznetsova O.V., Konoz K.S., Temlyantsev M.V., Temlyantsev N.V. Investigation of the effect of une-ven heating of workpieces in methodical furnaces on the processes of scale formation. In: Kuzbass: educa-tion, science, innovation. Materials of the Innovation Convention. 2017:403–406. (In Russ.).

18. Jang J.H., Lee D.E., Kim M.Y., Kim H.G. In-vestigation of the slab heating characteristics in a reheating furnace with the formation and growth of scale on the slab surface. Interna-tional Journal of Heat and Mass Transfer. 2010;53:4326-4332. https://doi.org/10.1016/J.IJHEATMASSTRANSFER.2010.05.061

19. Filippova M.V., Peretyat'ko V.N., Temlyantsev M.V. Development and implementation of energy- and re-source-saving technologies for metal forming. Novosibirsk: SO RAN. 2016:269. EDN: VWWFLN. (In Russ.).