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Influence of Water Content on the Kinetics and Mechanisms of Hydrogen Reduction Using Industrial Iron Ore Pellets at 873 K–1173 K

  • Published:2024-08-15 Issue:10 Volume:64 Page:1493-1502
  • ISSN:0915-1559
  • Container-title:ISIJ International
  • language:en
  • Short-container-title:ISIJ Int.

Author:

Hessling Oscar1ORCID,Fogelström Julia Brännberg1ORCID,Kojola Niklas2ORCID,Martinsson Johan1ORCID

Affiliation:

1. Department of Metallurgy, Swerim AB

2. Department of Research and Innovation, SSAB AB

Publisher

Iron and Steel Institute of Japan

Reference26 articles.

1. 1) H. H. Meyers: Mitt Kaiser-Wilhelm Inst. Eisenforsch., 10 (1928), 107 (in German).

2. 2) S. A Elmquist, P. Weber and H. Eichberger: Stahl und. Eisen, 122 (2002), No. 2, 59.

3. 3) W. Hillisch and J. Zirngast: Steel Times International, 25 (2001), No. 2, 20.

4. 4) Hybrit (2018) Slutrapport. HYBRIT – Hydrogen Breakthrough Iron Making Technology. Genomforbarhetsstudie, Energimyndigheten, Project nr 42684-1, https://www.energimyndigheten.se/forskning-och-innovation/projektdatabas (in Swedish), (accessed 2023-10-27).

5. 5) IEA: Iron and Steel Technology Roadmap Towards More Sustainable Steelmaking, IEA, Paris, (2020), https://www.iea.org/reports/iron-and-steel-technology-roadmap, (accessed 2023-11-03).
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