Cost effective decarbonisation of blast furnace: - basic oxygen furnace steel production through thermochemical sector coupling

Harriet Kildahl*, Li Wang, Lige Tong, Yulong Ding*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

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Abstract

We present here a first-principles study of the sector coupling between a thermochemical carbon dioxide (CO2) splitting cycle and existing blast furnace – basic oxygen furnace (BF-BOF) steel making for cost-effective decarbonisation. A double perovskite, Ba2Ca0.66Nb0.34FeO6, is proposed for the thermochemical splitting of CO2, a viable candidate due to its low reaction temperatures, high carbon monoxide (CO) yields, and 100% selectivity towards CO. The CO produced by the TC cycle replaces expensive metallurgical coke for the reduction of iron ore to metallic iron in the blast furnace (BF). The CO2 produced from the BF is used in the TC cycle to produce more CO, therefore creating a closed carbon loop, allowing for the decoupling of steel production from greenhouse gas emissions. Techno-economic analysis of the implementation of this system in UK BF-BOFs could reduce steel sector emissions by 88% while increasing the cost-competitiveness of UK steel on the global market through cost reduction. After five years, this system would save the UK steel industry £1.28 billion while reducing UK-wide emissions by 2.9%. Implementation of this system in the world's BF-BOFs could allow the steel sector to decarbonise in line with the Paris Climate Agreement to limit warming to 1.5 °C.
Original languageEnglish
Article number135963
Number of pages7
JournalJournal of Cleaner Production
Volume389
Early online date5 Jan 2023
DOIs
Publication statusPublished - 20 Feb 2023

Keywords

  • Sector coupling
  • Decarbonisation
  • Iron and steel
  • Sector coupling DecarbHard-to-decarbonise sectors
  • Thermochemical cycle
  • Perovskite

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