Journal ArticleDOI
Investigations on the carbothermic reduction of chromite ores
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In this paper, the reduction of chromite ores using different reducing carbonaceous reducing agents in the temperature range 1173 to 1573 K was investigated and the activation energy for this process was estimated to be 130 kJ/mole.Abstract:
Experimental studies were carried out on the reducibility of two different chromite ores using different reducing carbonaceous reducing agents in the temperature range 1173 to 1573 K. “Friable lumpy” ores and “hard lumpy” ores were used in the experiments. Petroleum coke, devolatilized coke, (DVC) and graphite were used as reducing agents. It was found that iron was practically completely reduced before the commencement of the reduction of chromium in the ore. The reduction of iron was controlled by diffusion. The activation energy for this process was estimated to be 130 kJ/mole. The reduction of chromium was controlled by either chemical reaction or nucleation. Rate of reduction was highest when raw petroleum coke was used as the reducing agent. The DVC was less effective compared to raw coke, whereas the rate of reduction was lowest when graphite was used as the reducing agent.read more
Citations
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Green and efficient utilization of stainless steel dust by direct reduction and self-pulverization
TL;DR: In this paper, the effects of different conditions (FC/O ratio, reduction temperature, reduction time) on the reduction process and self-pulverization of reduction products were studied.
Journal ArticleDOI
Carbothermal reduction process of the Fe-Cr-O system
TL;DR: In this article, the reduction behaviors and characteristics of the end products of Fe-Cr-O systems were investigated in 1350-1550°C, and the microstructures of final products and element distribution conditions were examined.
Journal ArticleDOI
Carburization of ferrochromium metals in chromium ore fines containing coal during voluminal reduction by microwave heating
TL;DR: In this paper, it was shown that the low-C-Cr ferrochromium metal phase in the reduced materials forms before the high-C -Cr ferromagnetic metal phase does.
Journal ArticleDOI
Optimization of the Stainless Steel Dust Briquette Reduction Process for Iron, Chromium, and Nickel Recovery
TL;DR: In this article, the authors investigated the reduction process of stainless steel dust (SSD) briquettes in detail in order to determine the optimum processing parameters and found that the most important factor for the SSD briquetting process is water followed by sucrose, carbon, and pressure.
Journal ArticleDOI
Carbothermic reduction of chromite fluxed with aluminum spent potlining
Dawei Yu,Dawei Yu,Dogan Paktunc +2 more
TL;DR: In this article, aluminum spent potlining (SPL) was employed as both the fluxing agent and a source of carbonaceous reductant for the carbothermic reduction of chromite, aiming to allow effective separation of alloy from the slag component.
References
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Book
Chemical Reaction Engineering
TL;DR: An overview of Chemical Reaction Engineering is presented, followed by an introduction to Reactor Design, and a discussion of the Dispersion Model.
Journal ArticleDOI
The reduction mechanism of a natural chromite at 1416 °C
O. Soykan,R.H. Eric,R. P. King +2 more
TL;DR: In this paper, the behavior of a natural chromite from the Bushveld Complex, Transvaal, South Africa, during reduction at 1416 °C by graphite was studied by means of thermogravimetric analysis, X-ray diffraction (XRD) analysis, energy-dispersive Xray analysis (EDAX), and metallographic analysis.
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Kinetics of the reduction of bushveld complex chromite ore at 1416 °C
O. Soykan,R.H. Eric,R. P. King +2 more
TL;DR: In this article, a generalized rate model based on an ionic diffusion mechanism was developed to satisfactorily describe the solid-state carbothermic reduction of chromite, which included the contribution of the interfacial area between partially reduced and unreduced zones in chromite particles and diffusion.
Journal ArticleDOI
Carbothermic reduction of domestic chromites
TL;DR: In this paper, coal char is generally the preferred reductant among commercially available carbonaceous materials in laboratory scale reduction experiments in argon between 1100 and 1500°C on a domestic metallurgical grade chromite.