Metallurgical Properties of Vacuum Extrusion Iron‐Rich Dust Briquette and Its Effects on Blast Furnace Soft Melting Zone

Xu, Runsheng; Zhang, Yuchen; Yu, Jiyong; Zhang, Jianliang; Aleksey, Ternovyh; Zhang, Siqi; Cao, Minghui

doi:10.1002/srin.202300545

steel research int.

2024

DOI: 10.1002/srin.202300545

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Metallurgical Properties of Vacuum Extrusion Iron‐Rich Dust Briquette and Its Effects on Blast Furnace Soft Melting Zone

Runsheng Xu,

Yuchen Zhang,

Jiyong Yu

et al.

Abstract: The vacuum extrusion iron‐rich dust briquette (VEIDB) in this study is prepared by vacuum extrusion of iron ore fines and blast furnace dust. In this article, the metallurgical properties such as compressive strength, tumbler strength, low temperature reduction disintegration performance, reducibility, and softening melting properties of VEIDB are studied. The effect of VEIDB on the soft melting zone of blast furnace is also studied. Results show that the compressive strength of VEIDB is 5.684 kN/VEIDB, the tu… Show more

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Cited by 3 publications

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Optimization of four-component furnace burdens with hydrogen-reduced metallized pellets based on blast furnace performance

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Guo

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International Journal of Hydrogen Energy

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Optimization of four-component furnace burdens with hydrogen-reduced metallized pellets based on blast furnace performance

Chen,

Pan,

Guo

et al. 2025

International Journal of Hydrogen Energy

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Advancing carbon-neutral iron production: Non-equimolar diffusion kinetics of coke with H2O in hydrogen-rich blast furnaces

Wu,

He,

Huang

et al. 2024

iScience

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Variable Activation Energy Models for the Shrinkage and Softening Melting Behavior of Iron Ore in Blast Furnace Conditions

Wu,

Li,

Huang

et al. 2024

ACS Omega

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Understanding the shrinkage behavior of iron ore is crucial for achieving blast furnace (BF) operating efficiency and reducing fuel ratio. This study presents high-temperature reduction load experiments on iron ore, simulating BF conditions. Two new shrinkage behavior models (SAEM-PC and SAEM-S&M) were established by combining the effects of temperature and reduction. These models describe the dynamic relationships between the temperature, reduction degree, and the physical properties of iron ore such as density and apparent viscosity during the reduction process. The activation energies (E PC for the PC stage and E SM for the S&M stage) were determined to range from 79.95 to 42.69 kJ/ mol and from 68.74 to 2.51 kJ/mol, respectively. The E PC demonstrates a gradual decrease, indicating a weakening of contraction resistance with temperature rise and reduction progress, while E SM exhibits fluctuations due to the interplay between the formation of liquid slag and the generation of solid sponge iron. The predictive accuracy of the model is substantiated by its average deviations. This study can deepen the understanding of the shrinkage mechanism of iron ore, which is of great significance for enhancing energy efficiency and reducing emissions in the steel industry.

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Metallurgical Properties of Vacuum Extrusion Iron‐Rich Dust Briquette and Its Effects on Blast Furnace Soft Melting Zone

Cited by 3 publications

References 30 publications

Optimization of four-component furnace burdens with hydrogen-reduced metallized pellets based on blast furnace performance

Optimization of four-component furnace burdens with hydrogen-reduced metallized pellets based on blast furnace performance

Advancing carbon-neutral iron production: Non-equimolar diffusion kinetics of coke with H2O in hydrogen-rich blast furnaces

Variable Activation Energy Models for the Shrinkage and Softening Melting Behavior of Iron Ore in Blast Furnace Conditions

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