Numerical Modeling of the Tuyere Surface Abrasion under Different Operating Conditions of Blast Furnace

Chen, Jian; Wu, Dongling; Hu, Yichao; Shen, Yansong; Wang, Geoff

doi:10.1002/srin.202100591

Cited by 3 publications

(1 citation statement)

References 28 publications

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“…[ 1 ] Blast furnace tuyere operates for a long time in an environment with a temperature above 2000 °C, and withstands the scouring of hot air and coal powder with high temperature and high speed, as well as the impact of slag, hot metal, and hot coke. [ 2,3 ] The frequent damage of the copper tuyere severely affects the smooth operation of the blast furnace. Tuyeres in large blast furnaces are generally made of pure copper.…”

Section: Introductionmentioning

confidence: 99%

Analysis of Erosion Mechanism of Wear‐Resistant Layer in Large Blast Furnace Tuyere

Zhou

Zhang

et al. 2023

steel research int.

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The blast furnace tuyere is a crucial component for blast furnace production. The frequent damage of the copper tuyere impedes the smooth operation of the blast furnace. Welding a wear‐resistant layer on the tuyere can extend its service life, but it still falls short of the expectation in a large blast furnace. This paper aims to elucidate the erosion mechanism of the wear‐resistant layer. A scanning electron microscope (SEM), an energy dispersive spectrometer (EDS), and an optical microscope (OM) were employed to examine the morphology, composition, and metallographic structure of the samples obtained from a 5800m3 blast furnace tuyere in China, as well as to calculate the frequency of daily slag crust shedding from cooling staves. The results indicate that the main cause of the erosion of the wear‐resistant layer is the shedding of slag crust due to the temperature fluctuation of the cooling staves. Finally, the erosion mechanism of the wear‐resistant layer is proposed. It is suggested that the formation and propagation of cracks caused by erosion of slag and hot metal are the primary failure mode of the wear‐resistant layer.This article is protected by copyright. All rights reserved.

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Section: Introductionmentioning

confidence: 99%

Analysis of Erosion Mechanism of Wear‐Resistant Layer in Large Blast Furnace Tuyere

Zhou

Zhang

et al. 2023

steel research int.

View full text Add to dashboard Cite

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Research on the failure mechanism of blast furnace tuyere based on experiment and numerical simulation results

Jiang,

Yang,

Yang

et al. 2024

Engineering Failure Analysis

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Optimizing Combustion Efficiency in Blast Furnace Injection: A Sustainable Approach Using Biomass Char and Coal Mixtures

Tang,

Pan,

Zhu

et al. 2024

Sustainability

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This study investigated the combustion characteristics of mixed straw char and coal powder when used in blast furnace injection. The experiments examined the effects of mixing ratios between biomass char types of wheat straw char, corn straw char as well as cotton straw char, and anthracite coal on combustion characteristics and the injection effect of blast furnace. The results show that a 1:1 mixing ratio of wheat straw char and anthracite coal yields the best combustion characteristics, followed by a 1:1 ratio of corn straw char and anthracite coal. A 2:1 mixture of cotton straw char and anthracite coal exhibits the highest combustion efficiency. The study on the grindability of the mixtures indicates that straw char is easier to grind due to its brittleness. Blast furnace coal injection experiments reveal that a 50:50 mixture of cotton straw char and anthracite coal achieves the highest combustion efficiency at 74%, which is a 20.2% improvement compared to mixtures of bituminous coal and anthracite coal, significantly outperforming the other ratios. The findings underscore the importance of integrating renewable biomass resources in industrial applications to enhance sustainability in the metallurgical industry.

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Numerical Modeling of the Tuyere Surface Abrasion under Different Operating Conditions of Blast Furnace

Cited by 3 publications

References 28 publications

Analysis of Erosion Mechanism of Wear‐Resistant Layer in Large Blast Furnace Tuyere

Analysis of Erosion Mechanism of Wear‐Resistant Layer in Large Blast Furnace Tuyere

Research on the failure mechanism of blast furnace tuyere based on experiment and numerical simulation results

Optimizing Combustion Efficiency in Blast Furnace Injection: A Sustainable Approach Using Biomass Char and Coal Mixtures

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