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Assessing the potential of yield improvements, through process scrap reduction, for energy and CO2 abatement in the steel and aluminium sectors

Author

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  • Milford, Rachel L.
  • Allwood, Julian M.
  • Cullen, Jonathan M.

Abstract

Targets to cut 2050 CO2 emissions in the steel and aluminium sectors by 50%, whilst demand is expected to double, cannot be met by energy efficiency measures alone, so options that reduce total demand for liquid metal production must also be considered. Such reductions could occur through reduced demand for final goods (for instance by life extension), reduced demand for material use in each product (for instance by lightweight design) or reduced demand for material to make existing products. The last option, improving the yield of manufacturing processes from liquid metal to final product, is attractive in being invisible to the final customer, but has had little attention to date. Accordingly this paper aims to provide an estimate of the potential to make existing products with less liquid metal production.

Suggested Citation

  • Milford, Rachel L. & Allwood, Julian M. & Cullen, Jonathan M., 2011. "Assessing the potential of yield improvements, through process scrap reduction, for energy and CO2 abatement in the steel and aluminium sectors," Resources, Conservation & Recycling, Elsevier, vol. 55(12), pages 1185-1195.
    • Handle: RePEc:eee:recore:v:55:y:2011:i:12:p:1185-1195
    DOI: 10.1016/j.resconrec.2011.05.021
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    Citations

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    Cited by:

    1. Cooper, Daniel R. & Skelton, Alexandra C.H. & Moynihan, Muiris C. & Allwood, Julian M., 2014. "Component level strategies for exploiting the lifespan of steel in products," Resources, Conservation & Recycling, Elsevier, vol. 84(C), pages 24-34.
    2. Yang, Honghua & Ma, Linwei & Li, Zheng, 2023. "Tracing China's steel use from steel flows in the production system to steel footprints in the consumption system," Renewable and Sustainable Energy Reviews, Elsevier, vol. 172(C).
    3. Jan Streeck & Stefan Pauliuk & Hanspeter Wieland & Dominik Wiedenhofer, 2023. "A review of methods to trace material flows into final products in dynamic material flow analysis: From industry shipments in physical units to monetary input–output tables, Part 1," Journal of Industrial Ecology, Yale University, vol. 27(2), pages 436-456, April.
    4. van Ruijven, Bas J. & van Vuuren, Detlef P. & Boskaljon, Willem & Neelis, Maarten L. & Saygin, Deger & Patel, Martin K., 2016. "Long-term model-based projections of energy use and CO2 emissions from the global steel and cement industries," Resources, Conservation & Recycling, Elsevier, vol. 112(C), pages 15-36.
    5. Buchner, Hanno & Laner, David & Rechberger, Helmut & Fellner, Johann, 2014. "In-depth analysis of aluminum flows in Austria as a basis to increase resource efficiency," Resources, Conservation & Recycling, Elsevier, vol. 93(C), pages 112-123.
    6. Liu, Fangying & Su, Chi Wei & Tao, Ran & Qin, Meng & Umar, Muhammad, 2024. "Fintech and aluminium: Strategic enablers of climate change mitigation and sustainable mineral policy," Resources Policy, Elsevier, vol. 91(C).
    7. Liu, Yang & Zhang, Congrui & Xu, Xiaochuan & Ge, Yongxiang & Ren, Gaofeng, 2022. "Assessment of energy conservation potential and cost in open-pit metal mines: Bottom-up approach integrated energy conservation supply curve and ultimate pit limit," Energy Policy, Elsevier, vol. 163(C).
    8. Pauliuk, Stefan & Kondo, Yasushi & Nakamura, Shinichiro & Nakajima, Kenichi, 2017. "Regional distribution and losses of end-of-life steel throughout multiple product life cycles—Insights from the global multiregional MaTrace model," Resources, Conservation & Recycling, Elsevier, vol. 116(C), pages 84-93.

    More about this item

    Keywords

    Yield; Energy; CO2; Lightweighting; Steel; Aluminium;
    All these keywords.

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