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Seminários de Redução, Minério de Ferro e Aglomeração


ISSN 2594-357X

Título

The Decarbonisation Role of Cold Agglomerated Iron Ore Pellets for Ironmaking by the Direct Reduction Route

The Decarbonisation Role of Cold Agglomerated Iron Ore Pellets for Ironmaking by the Direct Reduction Route

Autoria

DOI

10.5151/2594-357X-42225

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Resumo

Direct reduction of iron ore gives the benefit of low carbon dioxide emissions when compared to blast furnace ironmaking. New technologies for producing a suitable pellet for charging to the direct reduction plant, in the form of cold agglomerated pellets can further reduce CO2 in the supply chain. Additional benefits can arise which relate to the efficiency of the ironmaking process. This efficiency involves an easier route to metallic conversion of the iron oxide in a direct reduction plant.This paper compares reduction tests of cold bonded agglomerates from binding solutions ltd, to conventional iron ore pellets and gives reasoning as to how the benefits occur

 

DIRECT REDUCTION OF IRON ORE GIVES THE BENEFIT OF LOW CARBON DIOXIDE EMISSIONS WHEN COMPARED TO BLAST FURNACE IRONMAKING. NEW TECHNOLOGIES FOR PRODUCING A SUITABLE PELLET FOR CHARGING TO THE DIRECT REDUCTION PLANT, IN THE FORM OF COLD AGGLOMERATED PELLETS CAN FURTHER REDUCE CO2 IN THE SUPPLY CHAIN. ADDITIONAL BENEFITS CAN ARISE WHICH RELATE TO THE EFFICIENCY OF THE IRONMAKING PROCESS. THIS EFFICIENCY INVOLVES AN EASIER ROUTE TO METALLIC CONVERSION OF THE IRON OXIDE IN A DIRECT REDUCTION PLANT.THIS PAPER COMPARES REDUCTION TESTS OF COLD BONDED AGGLOMERATES FROM BINDING SOLUTIONS LTD, TO CONVENTIONAL IRON ORE PELLETS AND GIVES REASONING AS TO HOW THE BENEFITS OCCUR

Palavras-chave

Cold Bonded, Direct Reduction, Decarbonisation, Ironmaking

Cold Bonded, Direct Reduction, Decarbonisation, Ironmaking

Como citar

JOYCE, RICHARD MATTHEW; BENNETT, MATTHEW. The Decarbonisation Role of Cold Agglomerated Iron Ore Pellets for Ironmaking by the Direct Reduction Route, p. 131-141. In: 11º Seminário de Aglomeração de Minérios, São Paulo, Brasil, 2025.
ISSN: 2594-357X, DOI 10.5151/2594-357X-42225