Insight into the Slag Foaming Behavior Utilizing Biocoke as an Alternative Carbon Source in Electric Arc Furnace-Based Steel Production

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Insight into the Slag Foaming Behavior Utilizing Biocoke as an Alternative Carbon Source in Electric Arc Furnace-Based Steel Production. / Kieush, Lina; Schenk, Johannes; Koveria, Andrii et al.
in: Journal of Sustainable Metallurgy, Jahrgang 10.2024, Nr. 1, 05.02.2024, S. 26-40.

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

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@article{8066d45bd2c141b9a397ebcebe7e8c6a,
title = "Insight into the Slag Foaming Behavior Utilizing Biocoke as an Alternative Carbon Source in Electric Arc Furnace-Based Steel Production",
abstract = "This paper investigates the slag foaming behavior at 1600 °C using biocoke with 5 and 10 wt % wood pellet additions, along with reference coke. The slag composition remained constant (FeO 29.0 wt %, CaO 35.0 wt %, SiO2 17.0 wt %, MgO 10.0 wt %, Al2O3 9.0 wt %). Fourier transform infrared spectroscopy (FTIR) combined with Raman analyses showed subtle microstructural differences between coke and biocoke containing 5 wt % wood pellets. Conversely, biocoke with 10 wt % wood pellet addition exhibited a less organized microstructure. The dynamic evolution of slag foaming during the experiments was divided into several stages, irrespective of the carbon source used. Evaluation of foaming behavior indicated that applying biocoke with 5 wt % wood pellets significantly improved foaming characters, surpassing those of coke. In comparison, a minor decrease in foaming was noted with biocoke containing 10 wt % wood pellets. Chemical and X-ray diffraction (XRD) analyses revealed that biocoke had no notable impact on the slag composition after the foaming. Both FTIR and Raman spectroscopy identified the variations of Si-related structure in the slag foam samples. Furthermore, Raman spectra were segmented into two parts, representing the slag foam and the remaining carbon source. Eventually, the addition of wood pellets to biocoke can allow for a saving in overall carbon usage compared to conventional sources. The results suggest a practical approach for slag foaming involves utilizing biocoke with 5 wt % wood pellet addition and decreasing its amount by 25 wt % from the initial quantity. Graphical Abstract: (Figure presented.)",
keywords = "Biocoke, Coke, Electric arc furnace, Microstructure, Slag foam",
author = "Lina Kieush and Johannes Schenk and Andrii Koveria and Andrii Hrubiak",
note = "Publisher Copyright: {\textcopyright} The Minerals, Metals & Materials Society 2024.",
year = "2024",
month = feb,
day = "5",
doi = "10.1007/s40831-024-00783-9",
language = "English",
volume = "10.2024",
pages = "26--40",
journal = "Journal of Sustainable Metallurgy",
issn = "2199-3823",
publisher = "Springer Berlin",
number = "1",

}

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TY - JOUR

T1 - Insight into the Slag Foaming Behavior Utilizing Biocoke as an Alternative Carbon Source in Electric Arc Furnace-Based Steel Production

AU - Kieush, Lina

AU - Schenk, Johannes

AU - Koveria, Andrii

AU - Hrubiak, Andrii

N1 - Publisher Copyright: © The Minerals, Metals & Materials Society 2024.

PY - 2024/2/5

Y1 - 2024/2/5

N2 - This paper investigates the slag foaming behavior at 1600 °C using biocoke with 5 and 10 wt % wood pellet additions, along with reference coke. The slag composition remained constant (FeO 29.0 wt %, CaO 35.0 wt %, SiO2 17.0 wt %, MgO 10.0 wt %, Al2O3 9.0 wt %). Fourier transform infrared spectroscopy (FTIR) combined with Raman analyses showed subtle microstructural differences between coke and biocoke containing 5 wt % wood pellets. Conversely, biocoke with 10 wt % wood pellet addition exhibited a less organized microstructure. The dynamic evolution of slag foaming during the experiments was divided into several stages, irrespective of the carbon source used. Evaluation of foaming behavior indicated that applying biocoke with 5 wt % wood pellets significantly improved foaming characters, surpassing those of coke. In comparison, a minor decrease in foaming was noted with biocoke containing 10 wt % wood pellets. Chemical and X-ray diffraction (XRD) analyses revealed that biocoke had no notable impact on the slag composition after the foaming. Both FTIR and Raman spectroscopy identified the variations of Si-related structure in the slag foam samples. Furthermore, Raman spectra were segmented into two parts, representing the slag foam and the remaining carbon source. Eventually, the addition of wood pellets to biocoke can allow for a saving in overall carbon usage compared to conventional sources. The results suggest a practical approach for slag foaming involves utilizing biocoke with 5 wt % wood pellet addition and decreasing its amount by 25 wt % from the initial quantity. Graphical Abstract: (Figure presented.)

AB - This paper investigates the slag foaming behavior at 1600 °C using biocoke with 5 and 10 wt % wood pellet additions, along with reference coke. The slag composition remained constant (FeO 29.0 wt %, CaO 35.0 wt %, SiO2 17.0 wt %, MgO 10.0 wt %, Al2O3 9.0 wt %). Fourier transform infrared spectroscopy (FTIR) combined with Raman analyses showed subtle microstructural differences between coke and biocoke containing 5 wt % wood pellets. Conversely, biocoke with 10 wt % wood pellet addition exhibited a less organized microstructure. The dynamic evolution of slag foaming during the experiments was divided into several stages, irrespective of the carbon source used. Evaluation of foaming behavior indicated that applying biocoke with 5 wt % wood pellets significantly improved foaming characters, surpassing those of coke. In comparison, a minor decrease in foaming was noted with biocoke containing 10 wt % wood pellets. Chemical and X-ray diffraction (XRD) analyses revealed that biocoke had no notable impact on the slag composition after the foaming. Both FTIR and Raman spectroscopy identified the variations of Si-related structure in the slag foam samples. Furthermore, Raman spectra were segmented into two parts, representing the slag foam and the remaining carbon source. Eventually, the addition of wood pellets to biocoke can allow for a saving in overall carbon usage compared to conventional sources. The results suggest a practical approach for slag foaming involves utilizing biocoke with 5 wt % wood pellet addition and decreasing its amount by 25 wt % from the initial quantity. Graphical Abstract: (Figure presented.)

KW - Biocoke

KW - Coke

KW - Electric arc furnace

KW - Microstructure

KW - Slag foam

UR - http://www.scopus.com/inward/record.url?scp=85184245136&partnerID=8YFLogxK

U2 - 10.1007/s40831-024-00783-9

DO - 10.1007/s40831-024-00783-9

M3 - Article

AN - SCOPUS:85184245136

VL - 10.2024

SP - 26

EP - 40

JO - Journal of Sustainable Metallurgy

JF - Journal of Sustainable Metallurgy

SN - 2199-3823

IS - 1

ER -