Thermochemical analysis for the reduction behavior of FeO in EAF slag via Aluminothermic Smelting Reduction (ASR) process: Part Ι. Effect of aluminum on Fe & Mn recovery

Generally, the conventional carbon sources such coke/coal are used in EAF steelmaking attributed the highest growth rate in energy consumption. A substitute routes striving to improve energy efficiency by providing auxiliary sources is essential. The unique features such high carbon content, surface area, porosity and low sulphur was available in agricultural waste clearly have the potential to be used as reducing agent in steelmaking process. The present study investigated the reduction behavior of EAF slag and production of metallic iron by reduction process. The carbon materials, coke and palm char (pyrolyzed via chemical activation) were used as reducing agent composite with EAF slag respectively. The reduction reaction was conducted in horizontal tube furnace at different reduction temperatures (1250°C, 1350°C, 1450°C and 1550°C) under argon gas (flow rate 0.01L/min) within 20 minutes. The reduced sample was examined by X-ray Diffraction (XRD) and Scanning Electron Microscope (SEM) to understand the reduction behavior of both composite samples. Palm char showed more efficient due to improvement in degree of FeO reduction which was 57.72% compared to coke, 26.72%. The phase movement from iron oxide to iron was influenced by the reduction temperatures. XRD pattern revealed that the metallic iron was initiating appeared at temperature 1250°C and completely reduced at temperature of 1550°C . Predominant peak of metallic iron and the other oxides was clarified by EDS spectra. This study found that palm char has viability to be used as carbon sources in steelmaking applications.

Download Full-text

Smelting Reduction Behavior of Prereduced Chromite Ore

Tetsu-to-Hagane ◽

10.2355/tetsutohagane1955.79.6_652 ◽

1993 ◽

Vol 79 (6) ◽

pp. 652-658

Author(s):

Hiroshi G. KATAYAMA ◽

Katsuyuki MIYAUCHI ◽

Naoki DEKURA ◽

Tadashi MOMONO ◽

Shinji HIRAI

Keyword(s):

Smelting Reduction ◽

Reduction Behavior ◽

Chromite Ore

Download Full-text

Reduction of Haematite Using Hydrogen Thermal Plasma

10.20944/preprints201904.0261.v1 ◽

2019 ◽

Author(s):

Masab Naseri Seftejani ◽

Johannes Schenk ◽

Michael Andreas Zarl

Keyword(s):

Thermal Plasma ◽

Hydrogen Plasma ◽

Reduction Rate ◽

Reduction Process ◽

Pilot Scale ◽

Phosphorus Concentration ◽

Smelting Reduction ◽

Reduction Behavior ◽

Degree Of Reduction ◽

Hydrogen Utilization

The development of hydrogen plasma smelting reduction as a CO2 emission-free steel-making process is a promising approach. This study presents a concept of the reduction of hematite using hydrogen thermal plasma. A laboratory scale and pilot scale hydrogen plasma smelting reduction (HPSR) process are introduced. To assess the reduction behavior of hematite, a series of experiments has been conducted and the main parameters of the reduction behavior, namely the degree of hydrogen utilization, degree of reduction and the reduction rate are discussed. The thermodynamic aspect of the hematite reduction is considered and the pertinent calculations have been carried out using FactSageTM 7.2. The degree of hydrogen utilization and the degree of reduction were calculated using the off-gas chemical composition. The contribution of carbon, introduced from the graphite electrode, ignition pin and steel crucible, to the reduction reactions was studied. The degree of reduction of hematite, regarding H2O, CO and CO2 as the gaseous reduction products, is determined. It is shown that the degree of hydrogen utilization and the reduction rate were high at the beginning of the experiments, then decreased during the reduction process owing to the diminishing of iron oxide. Conducting experiments with the high basicity of slag B2=2 led to a decrease of the phosphorus concentration in the produced iron.

Download Full-text