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Steelmaking plants: towards lower energy consumption and lower CO2 production using more electricity

Published online by Cambridge University Press:  15 April 2011

R. Nicolle
R. Nicolle*
Affiliation:
Retraité ArcelorMittal Maizières, France. e-mail: [email protected]
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Abstract

Production processes of integrated steel plants, mostly based on coal as an energy source, produce about 2 tons of CO2 per ton of steel. As specific CO2 production has to be decreased by 20% in the mid-term (2020), immediate action is required to further decrease the specific energy consumption. The integrated plant is not energy self-sufficient as extra electricity must be bought from outside, but on the other hand, produces an excess of process gas that has to be used within the plant. Optimisation of the use of the internally produced gases is a key issue as either they are burned at the power plant with a conversion yield to electricity of about 40% and often much lower, or might be valued in the plant internal heat exchangers with a much higher efficiency such as  ~90% in the hot stoves or  ~65% or more in the present reheating furnaces. This paper shows that using the high-value coke oven gas as a chemical reactant (for DRI production) leads to significant extra metal production. From a global viewpoint, this extra metal production is almost carbon-free, as it requires only electricity for its manufacture.

Keywords

Energygaselectricityintegrated plantCO2Énergiegazélectricitéusine intégréeCO2
Type
Research Article
Information
Metallurgical Research & Technology , Volume 107 , Issue 9 , October 2010 , pp. 377 - 385
Copyright
© EDP Sciences

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References

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