Phase Composition of Iron Ore Sinters Produced with Biomass as a Substitute for the Coke Fuel / Skład Fazowy Spieków Żelaza Wytworzonych Z Dodatkiem Biomasy Jako Zamiennika Dla Koksu

Phase Composition of Iron Ore Sinters Produced with Biomass as a Substitute for the Coke Fuel / Skład Fazowy Spieków Żelaza Wytworzonych Z Dodatkiem Biomasy Jako Zamiennika Dla Koksu

The effort to minimize CO2 emissions leads the existing integrated steel plants to implement alternative biomass-based fuels that dispose of equilibrium carbon balance. The fuel is a key factor in the iron ore sinter production, so it is essential to know its impact not just on mechanical properties...

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Main Authors: Mežibrický R., Fröhlichová M., Mašlejová A.
Format: Article
Language:English
Published: Polish Academy of Sciences 2015-12-01
Series:Archives of Metallurgy and Materials
Subjects:
ash
biomass
coke breeze
iron ore sinter
microstructure
mineral composition
Online Access:http://www.degruyter.com/view/j/amm.2015.60.issue-4/amm-2015-0472/amm-2015-0472.xml?format=INT
id doaj-589e7bf9026649cfa96e555a83db879e
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spelling doaj-589e7bf9026649cfa96e555a83db879e2020-11-25T03:03:22ZengPolish Academy of SciencesArchives of Metallurgy and Materials2300-19092015-12-016042955296410.1515/amm-2015-0472amm-2015-0472Phase Composition of Iron Ore Sinters Produced with Biomass as a Substitute for the Coke Fuel / Skład Fazowy Spieków Żelaza Wytworzonych Z Dodatkiem Biomasy Jako Zamiennika Dla KoksuMežibrický R.0Fröhlichová M.1Mašlejová A.2Department of Ferro us and Foundry Metallurgy, Technical University of Košice, Letná 9, 042 00 Košice, Slovak RepublicDepartment of Ferro us and Foundry Metallurgy, Technical University of Košice, Letná 9, 042 00 Košice, Slovak RepublicU. S. Steel Košice , s.r.o. Vstupnýareál U. S. Steel , 044 54 Košice , Slovak RepublicThe effort to minimize CO2 emissions leads the existing integrated steel plants to implement alternative biomass-based fuels that dispose of equilibrium carbon balance. The fuel is a key factor in the iron ore sinter production, so it is essential to know its impact not just on mechanical properties of the finished sintered ore but also on the mineral composition as the mineral phases together determine all observed sinter properties. For this purpose the samples prepared by replacing a part of coke breeze with charcoal or walnut shell substitute were subjected to the observation under the light microscope, also using etching, to the phase identification by chemical EDX analysis on the scanning electron microscope and to the phase composition quantification by X-Ray diffraction analysis. The studied microstructure areas in the vicinity of the pores left by fuel grains were neither characterized by different phases nor by changed chemical composition of these phases even thought mineral matter of the used fuels were substantially different in terms of the chemical composition. The only feature of the burned substitute fuels were ash particles arranged in characteristic shapes. The main reason of variation in ratios of respective mineral phases of samples appeared to be thermal conditions that were reflected in the content of unreacted non-ferrous phases. Coke substitution in the sinter mixture has no negative impact on the phase composition of the produced sinters, which confirms the prospective use of biofuels in the sintering process.http://www.degruyter.com/view/j/amm.2015.60.issue-4/amm-2015-0472/amm-2015-0472.xml?format=INTashbiomasscoke breezeiron ore sintermicrostructuremineral composition
collection DOAJ
language English
format Article
sources DOAJ
author Mežibrický R.
Fröhlichová M.
Mašlejová A.
spellingShingle Mežibrický R.
Fröhlichová M.
Mašlejová A.
Phase Composition of Iron Ore Sinters Produced with Biomass as a Substitute for the Coke Fuel / Skład Fazowy Spieków Żelaza Wytworzonych Z Dodatkiem Biomasy Jako Zamiennika Dla Koksu
Archives of Metallurgy and Materials
ash
biomass
coke breeze
iron ore sinter
microstructure
mineral composition
author_facet Mežibrický R.
Fröhlichová M.
Mašlejová A.
author_sort Mežibrický R.
title Phase Composition of Iron Ore Sinters Produced with Biomass as a Substitute for the Coke Fuel / Skład Fazowy Spieków Żelaza Wytworzonych Z Dodatkiem Biomasy Jako Zamiennika Dla Koksu
title_short Phase Composition of Iron Ore Sinters Produced with Biomass as a Substitute for the Coke Fuel / Skład Fazowy Spieków Żelaza Wytworzonych Z Dodatkiem Biomasy Jako Zamiennika Dla Koksu
title_full Phase Composition of Iron Ore Sinters Produced with Biomass as a Substitute for the Coke Fuel / Skład Fazowy Spieków Żelaza Wytworzonych Z Dodatkiem Biomasy Jako Zamiennika Dla Koksu
title_fullStr Phase Composition of Iron Ore Sinters Produced with Biomass as a Substitute for the Coke Fuel / Skład Fazowy Spieków Żelaza Wytworzonych Z Dodatkiem Biomasy Jako Zamiennika Dla Koksu
title_full_unstemmed Phase Composition of Iron Ore Sinters Produced with Biomass as a Substitute for the Coke Fuel / Skład Fazowy Spieków Żelaza Wytworzonych Z Dodatkiem Biomasy Jako Zamiennika Dla Koksu
title_sort phase composition of iron ore sinters produced with biomass as a substitute for the coke fuel / skład fazowy spieków żelaza wytworzonych z dodatkiem biomasy jako zamiennika dla koksu
publisher Polish Academy of Sciences
series Archives of Metallurgy and Materials
issn 2300-1909
publishDate 2015-12-01
description The effort to minimize CO2 emissions leads the existing integrated steel plants to implement alternative biomass-based fuels that dispose of equilibrium carbon balance. The fuel is a key factor in the iron ore sinter production, so it is essential to know its impact not just on mechanical properties of the finished sintered ore but also on the mineral composition as the mineral phases together determine all observed sinter properties. For this purpose the samples prepared by replacing a part of coke breeze with charcoal or walnut shell substitute were subjected to the observation under the light microscope, also using etching, to the phase identification by chemical EDX analysis on the scanning electron microscope and to the phase composition quantification by X-Ray diffraction analysis. The studied microstructure areas in the vicinity of the pores left by fuel grains were neither characterized by different phases nor by changed chemical composition of these phases even thought mineral matter of the used fuels were substantially different in terms of the chemical composition. The only feature of the burned substitute fuels were ash particles arranged in characteristic shapes. The main reason of variation in ratios of respective mineral phases of samples appeared to be thermal conditions that were reflected in the content of unreacted non-ferrous phases. Coke substitution in the sinter mixture has no negative impact on the phase composition of the produced sinters, which confirms the prospective use of biofuels in the sintering process.
topic ash
biomass
coke breeze
iron ore sinter
microstructure
mineral composition
url http://www.degruyter.com/view/j/amm.2015.60.issue-4/amm-2015-0472/amm-2015-0472.xml?format=INT
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AT frohlichovam phasecompositionofironoresintersproducedwithbiomassasasubstituteforthecokefuelskładfazowyspiekowzelazawytworzonychzdodatkiembiomasyjakozamiennikadlakoksu
AT maslejovaa phasecompositionofironoresintersproducedwithbiomassasasubstituteforthecokefuelskładfazowyspiekowzelazawytworzonychzdodatkiembiomasyjakozamiennikadlakoksu
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