Smelting Reduction of Iron Ore‐Coal Composite Pellets

Abstract: Smelting reduction of iron ore‐coal composite pellets has been carried out in an induction furnace. The pellets, tied with tungsten wire, were immersed into the liquid metal bath. The experiments were carried out in the temperature range of 1713 K to 1733 K. For 16‐18 mm diameter pellets, it was observed that (i) the time required for complete dissolution in liquid metal bath is 83‐90 seconds, (ii) the fraction of reduction for 40 seconds of immersion varied from 0.68‐0.87 for Jharia coal pellets and 0.73‐0.92… Show more

“…The fraction of reduction in the pellets decreases with increasing Fe tot /C fix ratio. SEM and XRD investigations of reduced pellets show that the reduction occurred topochemically; in the order Fe 2 O 3 → Fe 3 O 4 → FeO → Fe 10. Also kinetic studies were made for smelting reduction of fluxed composite iron ore pellets in a temperature range between 1350 and 1550°C with a pellet basicity of 2.0.…”

“…Fe. [10] Also kinetic studies were made for smelting reduction of fluxed composite iron ore pellets in a temperature range between 1350 and 15508C with a pellet basicity of 2.0. The results follow a mixed kinetic model of both diffusion and chemical reaction controlled.…”

Processing of Agglomerated Red Filter Dust in the Converter Operation from Metallurgical Point of View

“…The fraction of reduction in the pellets decreases with increasing Fe tot /C fix ratio. SEM and XRD investigations of reduced pellets show that the reduction occurred topochemically; in the order Fe 2 O 3 → Fe 3 O 4 → FeO → Fe 10. Also kinetic studies were made for smelting reduction of fluxed composite iron ore pellets in a temperature range between 1350 and 1550°C with a pellet basicity of 2.0.…”

“…Fe. [10] Also kinetic studies were made for smelting reduction of fluxed composite iron ore pellets in a temperature range between 1350 and 15508C with a pellet basicity of 2.0. The results follow a mixed kinetic model of both diffusion and chemical reaction controlled.…”

Processing of Agglomerated Red Filter Dust in the Converter Operation from Metallurgical Point of View

Influence of reduction parameters on, weight loss, crack propagation, iron whisker growth, and morphological characteristics of directly reduced iron produced by non-contact direct reduction process

Isothermal reduction and comparative analysis of reaction kinetics of sponge iron produced from hematite-charcoal reaction using non-contact direct reduction method