Morphology Change and Carburization Characteristic of Iron Ore-Coal Composite During Reduction under a Simulated Condition of Blast Furnace

Huang, Tsung Yen; Maruoka, Daisuke; Murakami, Taichi; Kasai, Eiki

doi:10.2355/isijinternational.isijint-2019-178

Cited by 13 publications

(9 citation statements)

References 19 publications

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“…The maximum RSI was observed at 1000 °C in both H 2 and N 2 /H 2 atmospheres. In a study by Huang et al, [ 33 ] where one of the materials used was an iron ore concentrate with a low content of CaO (0.08 mass%) and high Fe met and SiO 2 (67.13 and 2.73 mass%, respectively), under 50% N 2 /CO/CO 2 atmosphere, the maximum swelling index was also observed at 1000 °C. This can be attributed to an increase in the reduction rate of the iron oxide pellets through their pores at the higher temperatures.…”

Section: Resultsmentioning

confidence: 99%

Swelling Behavior of Iron Ore Pellets during Reduction in H₂ and N₂/H₂ Atmospheres at Different Temperatures

Kovtun,

Levchenko,

Oldinski

et al. 2023

steel research int.

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The need to develop green steelmaking techniques has led to the replacement of reducing agents such as CO with H2. H2 and N2/H2 mixtures can be used for the carbothermal reduction of iron ore. Herein, the reduction swelling index (RSI) of iron ore pellets in a forming gas (N2/H2) atmosphere at temperatures of 700–1000 °C is investigated and it is compared with that in pure H2. It is showed in the experimental results that the RSI increases with increasing temperature for both the H2 and N2/H2 atmospheres. The maximum swelling is reached approximately 5 min into the H2 reduction process, while in the N2/H2 atmosphere, it is reached after 25–45 min of reduction, depending on the temperature. When the reduction temperature exceeds 900 °C, the RSI is greater than 20%. Scanning electron microscopy/energy‐dispersive X‐ray spectroscopy is performed to detect the changes in the microstructure and chemical composition of the samples. The nonreduced areas in the reduced pellets during the N2/H2 reduction process are analyzed using light optical microscopy.

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Section: Resultsmentioning

confidence: 99%

Swelling Behavior of Iron Ore Pellets during Reduction in H₂ and N₂/H₂ Atmospheres at Different Temperatures

Kovtun,

Levchenko,

Oldinski

et al. 2023

steel research int.

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“…[15][16][17][18][19] Simultaneously, the CCB was widely applied to process low-grade and composite iron ore due to its outstanding reducibility. [20][21][22][23] Vanadiumtitanium magnetite carbon composite briquette (VTM-CCB) was prepared by briquetting the VTM concentrates and coal fine mixtures followed heat treatment. Our previous researches 24,25) indicate that the VTM-CCB exhibits excellent metallurgical properties such as compressive strength, reduction degradation property and reduction swelling property, and meets the requirements of BF smelting.…”

Section: Interface Behavior and Interaction Mechanism Between Vanadiumentioning

confidence: 99%

Interface Behavior and Interaction Mechanism between Vanadium-Titanium Magnetite Carbon Composite Briquette and Sinter in Softening-Melting-Dripping Process

et al. 2021

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“…[9][10][11][12][13] These reports suggest that the realization of direct contact between reduced iron and carbon from coke, and the minimization of the effect of ash on the carburization are important for the acceleration of iron melt formation by carburization. Other studies have focused on the followings; the suggestion of different types of carbonaceous materials as reducing and carburizing agents for accelerating the iron melt formation by carburization in iron ore-carbon composite; 14) the effect of surface texture and type of carbonaceous materials on the melt formation; [15][16][17][18] the effect of basicity and surrounding gas on the melt formation; 19,20) the carburization mechanism by direct contact between iron and carbon through slag; [21][22][23] the melting behavior of iron through coke bed; 24) the effect of sulfur on the carburizing behavior, 25) and so on. However, although the physical effects of ash on the carburization behavior have been reported, there are no reports focusing on the chemical effect of ash.…”

Section: Effect Of Silica In Ash Of Coke On Carburization and Melting Of Ironmentioning

confidence: 99%

Effect of Silica in Ash of Coke on Carburization and Melting of Iron

2021

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Reducing energy consumption in ironmaking process is essential for decreasing the amount of carbon dioxide emission from the blast furnace process. To effectively reduce carbon dioxide emission, a faster reduction of iron ore, as well as the acceleration of carburization and melting of the reduced iron is important. Understanding the ash behavior of coke in blast furnace is necessary for controlling carburization because ash prevents carburization. In this study, the following were investigated:1) Condensation behavior of the ash components on the surface of coke by gasification under the simulated blast furnace condition 2) Melting behavior of iron tablet by the direct contact with coke plate 3) In-situ observation of the melting behavior of coke-iron composite and effect of deashing treatment 4) In-situ observation of the melting behavior of Fe-Si alloy using graphite The results revealed that ash condenses on the coke surface via gasification, and the ash coverage ratio of the coke surface increases with increasing in the coke reactivity. In addition, the melting of iron by carburization with coke proceeds at lower temperature when the coke reactivity is high. However, the effect of ash coverage on this behavior is significantly higher than that of coke reactivity, and an increase in the ash coverage ratio suppresses the carburization and melting of iron. In addition, during holding at high temperature, SiO 2 in ash is reduced to Si, and it alloys with metallic iron. Furthermore, an increase in Si concentration in metallic iron increases the melting temperature of Fe-Si system. Consequently, carburization and melting iron are suppressed.

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Morphology Change and Carburization Characteristic of Iron Ore-Coal Composite During Reduction under a Simulated Condition of Blast Furnace

Cited by 13 publications

References 19 publications

Swelling Behavior of Iron Ore Pellets during Reduction in H₂ and N₂/H₂ Atmospheres at Different Temperatures

Swelling Behavior of Iron Ore Pellets during Reduction in H₂ and N₂/H₂ Atmospheres at Different Temperatures

Interface Behavior and Interaction Mechanism between Vanadium-Titanium Magnetite Carbon Composite Briquette and Sinter in Softening-Melting-Dripping Process

Effect of Silica in Ash of Coke on Carburization and Melting of Iron

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Morphology Change and Carburization Characteristic of Iron Ore-Coal Composite During Reduction under a Simulated Condition of Blast Furnace

Cited by 13 publications

References 19 publications

Swelling Behavior of Iron Ore Pellets during Reduction in H2 and N2/H2 Atmospheres at Different Temperatures

Swelling Behavior of Iron Ore Pellets during Reduction in H2 and N2/H2 Atmospheres at Different Temperatures

Interface Behavior and Interaction Mechanism between Vanadium-Titanium Magnetite Carbon Composite Briquette and Sinter in Softening-Melting-Dripping Process

Effect of Silica in Ash of Coke on Carburization and Melting of Iron

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Swelling Behavior of Iron Ore Pellets during Reduction in H₂ and N₂/H₂ Atmospheres at Different Temperatures

Swelling Behavior of Iron Ore Pellets during Reduction in H₂ and N₂/H₂ Atmospheres at Different Temperatures