ISSN 2594-357X
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Steelmaking contributes by more than 5% to the world's anthropogenic CO2 emissions, so new ways to reduce the emissions in this industrial sector must be found. For a transition to more sustainable production concepts, also economic factors must be considered. In this paper we study the potential of using direct reduced iron (DRI) from the Fastmet process, using rotary hearth furnace (RHF) technology, as a partial substitute of pellets in a blast furnace (BF). Simplified mathematical models of the different operations in a steel plant, including RHF, are combined with a more detailed model of the BF and the entire system is optimized by non-linear programming with respect to costs. The objective of the presented study is to analyze the prerequisites for an economical operation of an integrated steel plant equipped with an RHF, under different raw material prices and varying costs of CO2 emission allowances. The blast furnace operation parameters are also analyzed for different amounts of DRI charged. The results illustrate the conditions under which it would be beneficiary in a steel plant to integrate the RHF and BF technologies.
Steelmaking contributes by more than 5% to the world's anthropogenic CO2 emissions, so new ways to reduce the emissions in this industrial sector must be found. For a transition to more sustainable production concepts, also economic factors must be considered. In this paper we study the potential of using direct reduced iron (DRI) from the Fastmet process, using rotary hearth furnace (RHF) technology, as a partial substitute of pellets in a blast furnace (BF). Simplified mathematical models of the different operations in a steel plant, including RHF, are combined with a more detailed model of the BF and the entire system is optimized by non-linear programming with respect to costs. The objective of the presented study is to analyze the prerequisites for an economical operation of an integrated steel plant equipped with an RHF, under different raw material prices and varying costs of CO2 emission allowances. The blast furnace operation parameters are also analyzed for different amounts of DRI charged. The results illustrate the conditions under which it would be beneficiary in a steel plant to integrate the RHF and BF technologies.
Palavras-chave
Blast furnace; DRI; RHF; Optimization; CO2.
Blast furnace; DRI; RHF; Optimization; CO2.
Como citar
Helle, Mikko;
Huitu, Kaisa;
Helle, Hannu;
Kekkonen, Marko;
Saxén., Henrik.
OPTIMIZATION OF STEELMAKING USING FASTMET DRI
IN THE BLAST FURNACE
,
p. 1153-1165.
In: 42º Seminário de Redução de Minério de Ferro e Matérias-primas / 13º Seminário Brasileiro de Minério de Ferro / 6th International Congress on the Science and Technology of Ironmaking,
Rio de Jabeiro,
2012.
ISSN: 2594-357X
, DOI 10.5151/2594-357X-22208