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Recycling of the Steelmaking by-products into the Oxygen Converter Charge

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Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In the technological process of the steelmaking plant, secondary products are produced in parallel with the production of the main product, which have the character of secondary by products or industrial waste. The major secondary products of steelmaking production include waste gases, process fluids, flue dust, sludge, slags and mill scales. The paper presents the results of research project directed to the utilization of demetallized steelmaking slag and oxygen converter flue dust in charge of top blowed oxygen converter. The influence of demetallized slag additions on slag regime in converter and chemical composition of final slag is described and discussed. Recommendations concerning amount of demetallized slag additions are also presented. Flue dust was recycled in form of briquettes. No significant effect of the recycling demetallized converter slag and flue dust briquette on process of hot metal refining and on quality of produced steel were recorded. Regarding the achieved results it can be confirmed that the use of the secondary products like demetallized slag and convertor flue dust in form briquettes, is environmentally acceptable as well as the use of natural materials and poses no increased risk to human health or the environment.
Rocznik
Strony
1--11
Opis fizyczny
Bibliogr. 16 poz., rys., tab.
Twórcy
  • Technical University in Košice, Slovak Republic
  • Technical University in Košice, Slovak Republic
  • Technical University in Košice, Slovak Republic
  • Technical University in Košice, Slovak Republic
Bibliografia
  • 1.Brožová. S., Pustějovská. P., Jursová. S. and Ingaldi. M. (2014). Economic and technological aspects of the use of secondary metal - bearing raw materials for metallurgical production. In: Metal 2014. Brno [online]. Volume 23. pp. 1-5. Available at: http://konsys-t.tanger.cz/files/proceedings/17/reports/2865.pdf [Accessed 17. July 2019]
  • 2. Cecca. C. D., Barella. S., Mapelli. C., Gruttadauria. A., Ciuffini. A. F., Mombelli. F. and Bondi. E. (2017). Thermal and chemical analysis of massive use of hot breiquetted iron inside basic oxygen furnace. Journal of Iron and Steel Research. International.24 (9). pp. 901-907.
  • 3. Fernandéz-Gonzáles. D., Prazuch. J., Ruiz-Bustinza. I., González-Gasca. C., Piñuela-Noval. J. and Verdeja. L. F. (2019). The treatment of Basic Oxygen Furnace (BOF) slag with concentrated solar energy. Solar Energy [online]. Volume 180. pp. 372-382.Available at:https://www.sciencedirect.com/science/article/pii/S0038092X19300520 [Accessed 1. July 2019]
  • 4. Gritzan. A. and Neuschütz. D. (2001). Rates and mechanizmus of dust generation in oxygen steelmaking. Steel Research. 72 (9). pp. 324-330.
  • 5. Huiting. S. and Forssberg. E. (2003). An overview of recovery of metals from slags.Waste Management [online]. Volume 23 (10). pp. 933-949. Available at: https://www.sciencedirect.com/science/article/pii/S0956053X02001642?via%3Dihub [Accessed 10. July 2019]
  • 6. Huang. Y., Guoping. X., Huigao. Ch., Junshi. W., Yinfeng. W. and Hui Ch. (2012). An Overview of Utilization of Steel Slag. In: The 7 th International Conference on Waste Management and Technology. Procedia Environmental Sciences [online].Volume 16. pp. 791-801.Available at: https://www.researchgate.net/publication/271638075_An_Overview_of_Utilization_of_Steel_Slag [Accessed 1. July 2019]
  • 7. Jursová. S., Honus. S. and Pustějovská. P. (2016). Economical evaluation of reducibility of compacted metallurgical waste with high ratio of Fe. In: Metal 2016.Brno. Volume 25. pp. 1838-1843. reducibility of compacted metallurgical waste with high ratio of Fe. In: Metal 2016.Brno. Volume 25. pp. 1838-1843.
  • 8. Kardas. E. and Brožová. S. (2013). Situation in waste treatment in Poland. In: Metal2013. Brno. Volume 22. pp. 1773-1778.
  • 9. Lan. Y., Liu. Q., Meng. F., Niu. D. and Zhao. H. (2017). Optimization of magnetic separation process for iron recovery from steel slag. Journal of Iron and SteelResearch International [online]. Volume 24 (2). pp. 165-170. Available at: https://link.springer.com/content/pdf/10.1016%2FS1006-706X%2817%2930023-7.pdf [Accessed 17. July 2019]
  • 10. Mihok. Ľ. (1997). Spracovanie druhotných surovín v čiernej metalurgii. Košice:Technická univerzita v Košiciach. Hutnícka fakulta.
  • 11. Pribulová. A., Baricová. D. and Futáš. P. (2018). The effect of adding briquettes made of converter flue dust on the quality of steel from oxygen converters. In: Wybrane aspekty innowacyjne i ekologiczne technologii produkcyjnych. Praca zbiorowa. Częstochowa (Poľsko). Wydawnictwo Wydziału Inżynierii Produkcji i technologii Materiałów Politechniki Częstochowskiej. pp. 24-44.
  • 12. Podorska D. and Wypartowicz J. (2018). Thermodynamic analysis of elementary processes in molten oxide slag eduction. Archives of metallurgy and materials. 53 (2). pp. 595-600.
  • 13. Pustějovská. P., Brožová. S. and Jursová. S. (2014). Possibilities of economic utilization of briquetted metallurgical waste. In: Metal 2014. Brno. Volume 23. pp.1841-1845.
  • 14. Santanu. K. R., Gautam. Ch. and Asim. K. R. (1997). Evaluation of Dust Generated from Basic Oxygen Furnace Steel Making. Journal of the Air & Waste Management Association. 47(6). pp. 716-721.
  • 15. Socha. L., Bažan. J., Gryc. K., Morávka. J., Styrnal. P., Pilka. V., Piegza. Z., Michálek.K. and Tkadlečková. M. (2012). Evaluation of Steel Desulphurization in the Ladle During the Utilization of Briquetting Fluxing Agents for Slags. Materiali in Tehnologije. 46 (6). pp. 677-682.
  • 16. Yamamoto. N., Takemoto. K., Sakamoto. N., Iwata. Y. and Ohkochi. I. (1997). Fundamental study on recycling technology of zinc-containing dusts in steel Works. La Revue de Métallurgie. 91 (4). pp. 633-638.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-0501827f-c722-41ca-b50b-ae709cccb5a1
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