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The Anthracite as Sinter Fuels

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The chapter deals with the use of traditional carbonaceous fuels in the production of agglomerates. An important part is focused primarily on the use of these carbonaceous fuels in the production of various types of agglomerate. Anthracite together with coke breeze was tested as a fuel to assess the substitution of coke dust by anthracite for technological and qualitative parameters of sintering.
Słowa kluczowe
PL
koks   antracyt   spieki  
Rocznik
Strony
232--240
Opis fizyczny
Bibliogr. 20 poz., rys., tab.
Twórcy
  • VSB-TUO, Technical University of Ostrava, Czech Republic
autor
  • VSB-TUO, Technical University of Ostrava, Czech Republic
  • VSB-TUO, Technical University of Ostrava, Czech Republic
  • VSB-TUO, Technical University of Ostrava, Czech Republic
Bibliografia
  • 1.Babich, A. et al. (2008) Ironmaking. RWTH Aachen University, Department of Ferrous Metallurgy, Wissenschaftsverlag Mainz in Aachen.
  • 2. Baricova, D., et al. (2013) Steelmaking slag-waste or valuable secondary raw material. In International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management, SGEM, Albena, [online], pp 437-442.
  • 3. Bernasowski, M.,Klimczyk, A. and Stachura, R. (2019) Support algorithm for blast furnace operation with optimal fuel consumption. Journal of mining and metalurgy section B-metallurgy. 55 (1), pp. 31-38.
  • 4. Bhagat, P, R. (2015) Reduction of solid fuel consumption in sintering of indian iron ore. Science of Sintering, 47, pp. 205-213.
  • 5. 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]Ironmaking and Steelmaking. Best Available Techniques. 2010/75/EU 2010.Available at: http://eippcb.jrc.ec.europa.eu/reference/BREF/I&S/IS_Published_0312.pdf [Accessed 18. July 2019]
  • 6. Findorak R., et al. The effect of charcoal addition on iron-ore sintering emission. International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management, SGEM, Albena, Bulgaria, 2013, pp 629-636
  • 7. Fröhlichova, M., Ivanisin, D., Findorak, R., Dzupkova, M. and Legemza, J. (2018). The Effect of Concentrate/Iron Ore Ratio Change on Agglomerate Phase Composition. METALS. 8 (11), pp. 234-239.
  • 8. Jiang, T., Wang, H. T. and Zhang K. C.(2010) Composite agglomeration process (CAP) for preparing blast furnace burden. Ironmaking and Steelmaking, Proces products and applications, Vol. 37( 1), pp. 1-7.
  • 9. Kardas, E. (2013) The analysis of quality of ferrous burden materials and its effect on the parameters of blast furnace process. Metalurgija, 52(2), pp.149-152. Konstanciak, A. (2015) Evaluation of the valuation of the quality of coke for blast furnace process in chosen metallurgical plant. In: Metal 2015. Brno [online]. pp. 1988-1993.
  • 10. Legemza J., Fröhlichova, M. and Findorak,R. (2018) The influence of biomass on ecological aspects of ferriferrous agglomerate production. International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management, SGEM, Albena, Bulgaria, pp. 187-194.
  • 11. Lesko, J. Hudak, J. and Semanova, Z. (2017) Impact of Biofuel in Agglomeration Process on Production of Pollutants. Science of Sintering, 49, pp. 159-166.
  • 12. Mezibricky, R.Frohlichova, M., and Findorák, R. Ore Assimilation and Secondary Phases by Sintering of Rich and High-Gangue Iron Ores. Minerals, vol 9, issue 2, article number 128, 2019.
  • 13. Liming, L., Ware, N. and Raynlyn, T. (2015) Chemistry structure and quality of iron ore sinter. AISTech 2015 Proceedings, pp. 322-332.
  • 14. USGS Minerals Information: Publications and Data Products. [online]. Available at: https:// minerals.usgs.gov/minerals/pubs/ [Accessed 12 May 2019]
  • 15. Mohamed, F.,M., El-Hussiny, N.A. and M. E. H. Shalabi. (2010) Granulation of Coke Breeze Fine for Using in the Sintering Process. Science of Sintering, 42, pp. 193- 202.
  • 16. Pribulova, A., Baricova, D., Futas, P., Pokusova, M., and Eperjesi, S. (2019) Cupola Furnace Slag: Its Origin, Properties and Utilization. International Journal of Metal Casting, 13(3), pp. 627-640.
  • 17. Sikora M., Verification of operation of experimental sinter pot for sinter preparation, Diploma thesis, Czech Republic, Ostrava: VŠB-TUO, 2017, 58 pp.
  • 18. Slíva A., et al. Study of the Optimum arrangement of spherical particles in containers having different cross section shapes. Journal of Nanoscience and Nanotechnology. Vol 19/ issue 5, pp 2717-2722, 2019.
  • 19. Stecko J., et al. Utilisation of metallurgical sludge by multi-layer sintering. Ironmaking and Steelmaking, pp. 1-8, 2017
  • 20. Václavík V., et al. Steel Slag as a Substitute for Natural Aggregate in the Production of Concrete. Solid State Phenomena, pp. 77-87, 2015.
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-0479fd95-2669-4bb6-aee4-a22f62576006
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