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Journal of the Southern African Institute of Mining and Metallurgy

On-line version ISSN 2411-9717
Print version ISSN 0038-223X

J. S. Afr. Inst. Min. Metall. vol.110 n.12 Johannesburg Dec. 2010

 

TRANSACTION PAPER

 

Low cost ferroalloy extraction in DC-arc furnace at Middleburg Ferrochrome

 

 

D. Sager; D. GrantII; R. StadleI; T. SchreiterIII

IABB Switzerland Ltd, Austrasse, Switzerland
IIMiddleburg Ferrochrome (a company in Samancor Chrome), Middleburg, South Africa
IIIABB Germany Ltd, Mannheim, Germany

 

 


SYNOPSIS

Middleburg Ferrochrome (MFC), a company in Samancor Chrome, commissioned a new ferrochrome smelter in March 2009. This is a 60 MW DC-arc furnace with a DC power supply for the smelting of Transvaal chromite ore fines. With the benefit of 12 years' experience with this technology while operating a 44 MW DC-arc furnace, MFC mitigated all known challenges and considered up-scaling risk in the new plant, which had a rapid ramp-up to full power in Q2 of 2009. Good operating practices, as made possible by robust equipment selection, including a thyristor rectifier set of proven technology, and operation with optimal slag chemistry, leads to a safe and effective plant operation. With the optimized furnace design and a correctly sized power conditioning system, using only standard (static) harmonic filters and a correctly sized smoothing reactor, the arc furnace is not a 'dirty load' for the utility, staying well within IEC limits for power quality. A patented arc compensation system is installed and allows for full arc position control (to compensate for magnetic field induced arc deflection) so that a symmetrical crucible is maintained, significantly benefiting refractory life. The principal benefits gained from the MFC process is the fact that ore fines are processed, without metallurgical coke, and higher chrome recoveries are achieved compared to other smelting technologies when using a DC open arc for smelting.

Keywords: Samancor Chrome, Middelburg Ferrochrome, ABB, smelting, DC arc furnace, arc compensation, power factor correction, anode, harmonics, thyristor, reactor, maintenance, refractory, ores, reductants


 

 

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References

1. According to Quinn Reynolds, MINTEK Pyrometallurgy, 2009, South Africa        [ Links ]

2. Illustration from, Elektrostahl-Erzeugung, Karl-Heinz Heinen, Verlag Stahl und Eisen, 1997, p. 159        [ Links ]

3. SAGER, D., PAI, R., STADLER, R., and TAMBE, S. Continious Success of DC EAF power supplies, AIST 2007        [ Links ]

4. SAGER, D. and HERBST, W. Advanced control for optimising melt process of DC Arc furnaces, STI magazine May 2002        [ Links ]

5. HART, L., WIESTNER, M., and HILLBERG, C. SVC's with Arc-Comp for minimal flicker and higher production with DC furnaces, 58th AIST EAF Conference, Orlando 11/2000        [ Links ]

6. HILLBERG, C. and WIESTNER, M. Design consideration regarding power supplies for DC arc furnaces, Shanghai Metal Expo 1996.         [ Links ]

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