Mamdouh Eissa, Hoda El-Faramawy, Azza Ahmed, Saeed Nabil, Hossam Halfa
Steel and Ferroalloys Department, Central Metallurgical Research and Development Institute (CMRDI), P. O. Box 87, Helwan, Cairo, Egypt.
DOI: 10.4236/jmmce.2012.111001   PDF    HTML     8,574 Downloads   11,769 Views   Citations

Abstract

This study has been performed to investigate the different parameters affecting on the production of high carbon ferromanganese in closed submerged arc furnace. The analysis of industrial data revealed that using manganese ores with low Mn/Fe ratio necessitates higher amount of Mn-sinter in the charge. Using Mn-blend with higher Mn/Fe ratio reduces the coke consumption and this leads to reducing the electrodes consumption. The recovery of Mn ranges between 70 and 80 %. Much higher basic slag has slight effect on Mn- recovery. However, as slag basicity increases, the MnO- content of slag decreases. The manganese content of produced HCFeMn depends mainly on Mn/Fe ratio of Mn-blend. For obtaining HCFeMn alloy containing minimum 75%Mn, it is necessary to use Mn-blend with Mn/Fe ratio of higher than 6. A model for determination of the amount and composition of off-gases has been derived based on the chemical composition and material balance of the input raw materials and the produced alloy and slag. By using this model, the amount of off-gases was found to increase by increasing both Mn-blend and coke consumption.

Keywords

Ferromanganese, closed Furnaces, carbothermic reduction, Slag basicity

Share and Cite:

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1]	Olsen S. E., Tangstad M. and Lindstad T., 2007, Production of Manganese Ferroalloys, P. 247, SINTEF and Tapir Academic Press, Trondheim
[2]	Tangstad M. , 1996, The High Carbon Ferromanganese Process-Coke Bed Relations, PhD Thesis, 49, Department of Metallurgy, The Norwegian Institute of Technology, Trondheim
[3]	V.I. Nikoleav, 1974, Steel in the USSR, pp. 299-302
[4]	N. Chernyatin, V. G. Mizin, I.A. Kopyrin and E. A. Simonova, 1981, Stal, 9, pp. 38-44
[5]	Y. Kamel, T. Miyazaki, H. Yamaoka, 1993, ISIJ International, 33 , No.2, pp. 259-266
[6]	X. Bi et al, 1993, Ironmaking and Steelmaking, 20, No. 6, pp.476-481
[7]	P.A.Kravchenko et al, Steel in Translation, 38(2008), No. 9, pp. 764-760
[8]	V.P. Vorob,ev, A. D. Godunov and V. Ignat,v, 2009, Steel in Translation, 39, No.3, pp.243-247
[9]	R. Kononov, O. Ostrovski and Ganguly, 2009, ISIJ International, 49, No.8, pp. 1099- 1106
[10]	V.Tathavadkar, V.Singh, P.K.Mishra, P. Mallick and B. D. Nanda, 2010, Ironmaking and steelmaking, 37, No. 2, pp.103-111.
[11]	Slag Atlas, 1981, Ed. Verein Deutscher Eisenhuttenleute, Verlag Staheisen GmbH, Dusseldorf, p. 282.