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The Feasibility of Replacing Coal with Biomass in Iron-Ore Pelletizing Plants with Respect to Melt-Induced Slagging

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  • Hamid Sefidari

    (RISE ETC (Energy Technology Centre) AB, Box 726, S-941 28 Piteå, Sweden
    Energy Engineering, Division of Energy Science, Luleå University of Technology, S-971 87 Luleå, Sweden)

  • Bo Lindblom

    (Luossavaara-Kiirunavaara Aktiebolag (LKAB), S-971 28 Luleå, Sweden)

  • Lars-Olof Nordin

    (Luossavaara-Kiirunavaara Aktiebolag (LKAB), S-971 28 Luleå, Sweden)

  • Henrik Wiinikka

    (RISE ETC (Energy Technology Centre) AB, Box 726, S-941 28 Piteå, Sweden
    Energy Engineering, Division of Energy Science, Luleå University of Technology, S-971 87 Luleå, Sweden)

Abstract

Combustion-generated fly ash particles in combination with the particles arising from the disintegration of iron-ore pellets, could give rise to the build-up of deposits on the refractory linings of the induration facility. Due to climate change and other environmental issues, there is a desire to cut down on use of fossil fuels. Therefore, it is of interest to investigate the feasibility of replacing coal with less carbon-intensive alternatives such as upgraded biomass, e.g., biochar and pyrolysis bio-oil. While the combustion of biomass can be carbon-neutral, the effects of biomass ash upon slagging during the iron-ore pelletizing process in a grate-kiln setup is unknown. In the present study, the effect of the interaction between the pellet dust and biomass-ash upon melt formation and the viscosity of the resulting melt, which can collectively affect melt-induced slagging, was theoretically assessed. The slagging potential of 15 different biomass fuels, suitable for the pelletizing process, was quantified and compared with one another and a reference high-rank coal using a thermodynamically derived slagging index. The replacement of coal with biomass in the pelletizing process is a cumbersome and challenging task which requires extensive and costly field measurements. Therefore, given the wide-ranging nature of the biomasses investigated in this study, a prescreening theoretical approach, such as the one employed in the present work, could narrow down the list, facilitate the choice of fuel/s, and help reduce the costs of the subsequent experimental investigations.

Suggested Citation

  • Hamid Sefidari & Bo Lindblom & Lars-Olof Nordin & Henrik Wiinikka, 2020. "The Feasibility of Replacing Coal with Biomass in Iron-Ore Pelletizing Plants with Respect to Melt-Induced Slagging," Energies, MDPI, vol. 13(20), pages 1-25, October.
    • Handle: RePEc:gam:jeners:v:13:y:2020:i:20:p:5386-:d:428882
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    References listed on IDEAS

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    1. Wu, Guixuan & Seebold, Sören & Yazhenskikh, Elena & Tanner, Joanne & Hack, Klaus & Müller, Michael, 2019. "Slag mobility in entrained flow gasifiers optimized using a new reliable viscosity model of iron oxide-containing multicomponent melts," Applied Energy, Elsevier, vol. 236(C), pages 837-849.
    2. Balakrishnan, S. & Nagarajan, R. & Karthick, K., 2015. "Mechanistic modeling, numerical simulation and validation of slag-layer growth in a coal-fired boiler," Energy, Elsevier, vol. 81(C), pages 462-470.
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    Cited by:

    1. Margarida Casau & Diana C. M. Cancela & João C. O. Matias & Marta Ferreira Dias & Leonel J. R. Nunes, 2021. "Coal to Biomass Conversion as a Path to Sustainability: A Hypothetical Scenario at Pego Power Plant (Abrantes, Portugal)," Resources, MDPI, vol. 10(8), pages 1-20, August.
    2. Abdul Ghani Olabi & Tabbi Wilberforce & Mohammad Ali Abdelkareem & Mohamad Ramadan, 2021. "Critical Review of Flywheel Energy Storage System," Energies, MDPI, vol. 14(8), pages 1-33, April.

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