Towards more efficient control of the ironmaking blast furnace: modelling gaseous reduction of iron ores in H2-N2 atmosphere

The fraction of hydrogen (H₂) in the blast furnace (BF) shaft gas containing a notable portion of nitrogen (N₂) is expected to increase. For more efficient control of the BF, it is therefore desirable to conduct more rigorous studies on gaseous reduction of iron ores especially in H₂-N₂ atmosphere. In this paper, an unreacted shrinking core model (USCM) with multicomponent gas diffusion for iron ore reduction in H₂-N₂ atmosphere is developed. The resultant nonlinear equations are solved using the 4th order Runge-Kutta method. The present model and the original USCM are compared based on a series of pertinent experimental data.

Langue:: Anglais

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Sujets de la revue:: Sciences de la vie, Sciences de la vie, autres, Mathématiques, Mathématiques appliquées, Mathématiques générales, Physique, Physique, autres

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Towards more efficient control of the ironmaking blast furnace: modelling gaseous reduction of iron ores in H2-N2 atmosphere

Shuo Yao

Yuman Che

Hamdy Mohamed

Publié en ligne: 22 août 2022

Pages: 1033 - 1042

Reçu: 13 déc. 2021

Accepté: 15 mai 2022

DOI: https://doi.org/10.2478/amns.2022.1.00010

Mots clésblast furnace, iron ore reduction, gas-solid reaction, unreacted shrinking-core model, multicomponent gas diffusion

© 2022 Shuo Yao et al., published by Sciendo

This work is licensed under the Creative Commons Attribution 4.0 International License.

Towards more efficient control of the ironmaking blast furnace: modelling gaseous reduction of iron ores in H₂-N₂ atmosphere

Mots clés
blast furnace, iron ore reduction, gas-solid reaction, unreacted shrinking-core model, multicomponent gas diffusion