Experimental Investigation of the Fluidization Reduction Characteristics of Iron Particles Coated with Carbon Powder under Pressurized Conditions

Xu, Qingyu; Zhi-ping, LI; Gu, Zhanghan

doi:10.3390/molecules25081810

Cited by 4 publications

(1 citation statement)

References 26 publications

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“…Some vertical pipes with a diameter of 3-5 mm appear in the bonded fixed bed, as shown in Figure 9a. When the gas flows through these pipes, it is subjected to almost no resistance from the fluidized particles, so that the bed pressure drops sharply [12]. In some cases, the bed surface shows normal fluidization, but some large agglomerated particles have been formed inside, as shown in Figure 9c.…”

Section: Characteristics Of Fe 2 O 3 Particles Bond Loss Behavior In Fluidization Reductionmentioning

confidence: 99%

Effect of Coated Cow Dung on Fluidization Reduction of Fine Iron Ore particles

Xu¹,

Gu²,

Wan³

et al. 2021

Processes

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The effects of reduction temperature, gas linear velocity, reduction pressure, reduction time, and reducing gas on the fluidized ironmaking process were studied for the fine iron Newman ore particles (0.154–0.178 mm) and the optimal experimental operating conditions were obtained. Under the optimal conditions, the effects of the coated cow dung on the reduction of fine iron ore particles were studied, and the inhibition mechanism of cow dung on particle adhesion in the fluidized ironmaking process was elucidated. The experimental results show that the optimal operating parameters are linear velocity of 0.6 m/s, reduction pressure of 0.2 MPa, reduction temperature of 1023 K, H2 as the reducing gas, and reduction time of 60 min. Cow dung can react with oxide in the ore powder to form a high melting point substance that can form a certain isolation layer, inhibit the growth of iron whiskers, and improve the fluidization.

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Section: Characteristics Of Fe 2 O 3 Particles Bond Loss Behavior In Fluidization Reductionmentioning

confidence: 99%

Effect of Coated Cow Dung on Fluidization Reduction of Fine Iron Ore particles

Xu¹,

Gu²,

Wan³

et al. 2021

Processes

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Sticking in Shaft Furnace and Fluidized Bed Ironmaking Processes: A Comprehensive Review Focusing on the Effect of Coating Materials

Wang,

Purohit,

Paymooni

et al. 2024

Metall Mater Trans B

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Production of direct reduced iron (DRI), particularly with green hydrogen, is a key pathway to the decarbonization of the iron and steel industry. However, the sticking tendency during the production of DRI creates serious operational issues and limits production outputs. Coating inert materials on the surface of iron ores can act as a barrier to effectively prevent the bonding between newly formed iron surfaces, and can interfere with the formation of iron whiskers. However, the principle of coating has not been systematically studied. This review covers the mechanism of sticking in both shaft furnaces and fluidized bed-based gaseous DRI production. The factors that influence the reduction kinetics and morphology, including physical and chemical ore properties, pellet induration conditions, and reduction conditions are summarized as well. Understanding the relationship between these factors and morphology change is critical to eliminating the sticking issues of DRI. Findings from this study suggest that coating with inert additives (e.g., metal oxides) can successfully prevent sticking in both shaft furnaces and fluidized bed processes. The types of additives and coating methods, the stage of reduction where the coating is applied, and reduction temperature will dramatically affect the coating performance. The outlook is discussed as well given the need for further work to improve the performance of coating (methods, timing, and cheaper alternatives), to further de-risk DRI technologies.

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Effects of pressure and plastic addition on sticking of fine iron ore particles in fluidized bed reduction

Zhi-ping

et al. 2020

J. Iron Steel Res. Int.

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Experimental Investigation of the Fluidization Reduction Characteristics of Iron Particles Coated with Carbon Powder under Pressurized Conditions

Cited by 4 publications

References 26 publications

Effect of Coated Cow Dung on Fluidization Reduction of Fine Iron Ore particles

Effect of Coated Cow Dung on Fluidization Reduction of Fine Iron Ore particles

Sticking in Shaft Furnace and Fluidized Bed Ironmaking Processes: A Comprehensive Review Focusing on the Effect of Coating Materials

Effects of pressure and plastic addition on sticking of fine iron ore particles in fluidized bed reduction

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