Litcius/Paper detail

Chemical and electrochemical pathways to low-carbon iron and steel

Kerry Rippy, Robert Bell, Noémi Leick

2024npj Materials Sustainability19 citationsDOIOpen Access PDF

Abstract

Abstract Currently, the iron and steel industry is responsible for 7% of global CO 2 emissions. In this review, we summarize the operational principles of current emissions-intensive steelmaking technologies and review emerging low- and zero-carbon technologies that could substantially reduce emissions. Current technologies that are discussed include blast furnaces, electric arc furnaces, and smelting. Promising low-carbon routes include use of alternative reductants for ore processing (hydrogen direct reduction, hydrogen plasma-smelting, hydrogen smelting, and ammonia-based reduction), electrolytic iron production (with aqueous and molten oxide electrolytes) and biocarbon-based electric arc furnace operation. Advantages of each approach are presented, and remaining research hurdles are identified.

Topics & Concepts

ElectrochemistryCarbon fibersCarbon steelMetallurgyMaterials scienceChemistryCorrosionElectrodeComposite materialComposite numberPhysical chemistryIron and Steelmaking ProcessesMetallurgical Processes and ThermodynamicsMineral Processing and Grinding