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Meeting

2026 TMS Annual Meeting & Exhibition

Symposium

Fundamentals of Sustainable Metallurgy and Processing of Materials

Presentation Title

Compatibility of Coke Reactivity–Burden Structure Under Simulated Blast Furnace Conditions

Author(s)

Jinbo Li, Qi Wang, Mingxin Wu, Pei Wang, Weiyu Wang

On-Site Speaker (Planned)

Abstract Scope

Blast-furnace carbon emissions mainly come from coke reducing iron ore. As high-guality, low-reactivity coking coal depletes and high-reactivity coke's safe, low-carbonuse becomes difficult, matching coke reactivity with burden structure is a key barrierto energy and emission savings. This study simulated blast-furnace conditions to explore the reduction characteristics of two cokes and two burden structures. Results show that under burden structure O2, using C1 and C2 coke reduced Rd by 13.16% and7.14%, respectively. Increasing lump ore proportion enhanced indirect reduction (GR+SLR) and suppressed high-reactivity coke gasification, mitigating its negative effects and enabling "high-quality utilization of inferior coke." This research offers experimental evidence and process windows for low-carbon blast-furnace operation and resource security.

Proceedings Inclusion?

Planned:

Keywords

Pyrometallurgy, Sustainability, Process Technology

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