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Comparison of a laboratory-scale coke and a pilot-scale coke from matched coal

Journal Article


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Abstract


  • © 2020 Institute of Materials, Minerals and Mining. A coke produced using a custom-built sole-heated oven and a coke prepared in a pilot-scale oven from a matched coal, were compared using a range of analytical techniques. The aim of this comparison was to assess to what extent the small-scale sole-heated oven can successfully replicate the production of pilot-scale oven cokes, and thus be used to rapidly prepare and screen a wide range of cokes for particular characteristics, e.g. abrasion resistance. The techniques applied included conventional methods and novel methods developed by our research team. These included microstructural and microtextural analyses of samples of each coke, and tribological, scratch test and fractographic analyses, each of which elucidates different strength attributes. These include microstructural weaknesses, abrasion resistance, and the strength of microtextural interfaces. The level of replication achieved indicates that the sole-heated oven, used in combination with an annealing step in a muffle furnace, can be beneficially used to model the pilot-scale oven.

UOW Authors


  •   Lomas, Hannah (external author)
  •   Roest, Richard (external author)
  •   Wells, Adam (external author)
  •   Thorley, Tizshauna (external author)
  •   Hui Wu
  •   Jiang, Zhengyi
  •   Sakurovs, Richard (external author)
  •   Fetscher, Robert (external author)
  •   Xing, Xing (external author)
  •   Mahoney, Merrick (external author)

Publication Date


  • 2020

Citation


  • Lomas, H., Roest, R., Wells, A., Thorley, T., Wu, H., Jiang, Z., Sakurovs, R., Fetscher, R., Xing, X. & Mahoney, M. (2020). Comparison of a laboratory-scale coke and a pilot-scale coke from matched coal. Ironmaking and Steelmaking, Online First

Scopus Eid


  • 2-s2.0-85090435332

Ro Full-text Url


  • https://ro.uow.edu.au/context/eispapers/article/7867/type/native/viewcontent

Ro Metadata Url


  • http://ro.uow.edu.au/eispapers/6835

Volume


  • Online First

Place Of Publication


  • United Kingdom

Abstract


  • © 2020 Institute of Materials, Minerals and Mining. A coke produced using a custom-built sole-heated oven and a coke prepared in a pilot-scale oven from a matched coal, were compared using a range of analytical techniques. The aim of this comparison was to assess to what extent the small-scale sole-heated oven can successfully replicate the production of pilot-scale oven cokes, and thus be used to rapidly prepare and screen a wide range of cokes for particular characteristics, e.g. abrasion resistance. The techniques applied included conventional methods and novel methods developed by our research team. These included microstructural and microtextural analyses of samples of each coke, and tribological, scratch test and fractographic analyses, each of which elucidates different strength attributes. These include microstructural weaknesses, abrasion resistance, and the strength of microtextural interfaces. The level of replication achieved indicates that the sole-heated oven, used in combination with an annealing step in a muffle furnace, can be beneficially used to model the pilot-scale oven.

UOW Authors


  •   Lomas, Hannah (external author)
  •   Roest, Richard (external author)
  •   Wells, Adam (external author)
  •   Thorley, Tizshauna (external author)
  •   Hui Wu
  •   Jiang, Zhengyi
  •   Sakurovs, Richard (external author)
  •   Fetscher, Robert (external author)
  •   Xing, Xing (external author)
  •   Mahoney, Merrick (external author)

Publication Date


  • 2020

Citation


  • Lomas, H., Roest, R., Wells, A., Thorley, T., Wu, H., Jiang, Z., Sakurovs, R., Fetscher, R., Xing, X. & Mahoney, M. (2020). Comparison of a laboratory-scale coke and a pilot-scale coke from matched coal. Ironmaking and Steelmaking, Online First

Scopus Eid


  • 2-s2.0-85090435332

Ro Full-text Url


  • https://ro.uow.edu.au/context/eispapers/article/7867/type/native/viewcontent

Ro Metadata Url


  • http://ro.uow.edu.au/eispapers/6835

Volume


  • Online First

Place Of Publication


  • United Kingdom