KnE Materials Science
ISSN: 2519-1438
The latest conference proceedings on physical materials, energy materials, electrical materials.
Possibility of Slag Sensible Heat Recovery on Drum-like Installations
Published date: Dec 31 2020
Journal Title: KnE Materials Science
Issue title: IV Congress “Fundamental Research and Applied Developing of Recycling and Utilization Processes of Technogenic Formations” Volume 2020
Pages: 586–592
Authors:
Abstract:
A variant of utilizing of slag physical heat in drum-like installations has been considered. A high-temperature melt is delivered to movable metal bodies. Heat is picked up from the working bodies surface and newly generated surfaces of slag due to interaction with working bodies. Surface of slag grains, as they cool down, allows to pick up heat with various energy characteristics.
Keywords: smelter slags, heat content, drum-like installations, picking up and utilization of heat with various energy characteristics
References:
[1] Volkov, Y. P., Shparber, L. Y. and Gusarov, A. K. (1986). Blast Furnace Technologist. Reference book. Moscow: Metallurgy, p. 263.
[2] Hille, H., et al. (1997). Modern Aspects of Development of Blast Furnaces in the World. Ferrous metals, issue 8, pp. 10-18.
[3] Filatov, A. D., et al. (1972) Determination of Ladle Residues and Ways of Reducing Thereof. In Collected Papers: Ferrous Smelter Slags, Their Recycling and Application. Sverdlovsk: UralNIIChM, vol. 14. pp. 85-92.
[4] Tsymbal, G. L., et al. (1980). Ways to Intensify the Run of Large-Volume Blast Furnaces. Karaganda Metallurgical United Works, issue 6. pp. 459-464.
[5] Vegman, Y. F. (1981). Brief Reference Book of a Blast Furnace Operator. Moscow: Metallurgy, p. 240.
[6] Urbanovich, G. I., et al. (2008). Heat Losses with Liquid Blast Slags and Technical Solutions for Reducing Thereof. Ferrous Metallurgy Bulletin, issue 7, pp. 51-55.
[7] Dongsheng, X. (2008, October). Sharif Jahanshahi Waste Heat Recovery from Molten Slags. Presented at 4th International Congress on the Science and Technology of Steelmaking, Gifu, Japan. pp. 674-677.
[8] Patent RU No. 2018494 Method of slag recycling and an installation for realization thereof. Shkolnik, Y. S., et al. Filed 5045809/33, on 20.04.1992, Publication on 30.08.1994. Bulletin No. 16.
[9] Kutateladze, S. S. (1962). Basics of the Heat Exchange Theory. Moscow: Mashgiz, p. 456.
[10] Lykov, A.V. (1952). Theory of Heat Conductivity. Moscow: GITTL, p. 600.
[11] Krasnoshchekov, Y. A. and Sukomol, A. S. (1969). Book of Problems on Heat Transfer. Moscow: Energy, p. 264.
[12] Kolomiets, V. A. and Tolstov, Y. M. (1990). Research of the Process of Blast Furnace Slag Solidification in Contact with Metal Plates. In Collected Papers: Ferrous Smelter Slags, Their Recycling and Use. Sverdlovsk: UralNIIChM.
[13] Demin, B. L., et al. (2015). Perspectives of Use of Drum-Like Installations for Smelter Slags Recycling. Metallurgist, issue 11. pp. 31-33.
[14] http://firing-hydra.ru/index.php?request=full&id=623 Copyrights © 2014-2019 firing-hydra.ru 12.03. 2018 г.
[15] Patent RU No. 2513384 Installation for slag recycling with heat recovery / Demin, B. L., et al. Filed 2012144468/03 dd.18.10.2012, Publication on 20.04.2014, Bulletin No. 11. Примечания 1, 2, 3 не ясно, что требуют редакторы. Mы не знаем, кто переводил оригинал, и кто допустил ошибку.