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Mapping circular economy practices for steel, cement, glass, brick, insulation, and wood – A review for climate mitigation modeling

Author

Listed:
  • Lima, Ana T.
  • Kirkelund, Gunvor M.
  • Lu, Zheng
  • Mao, Ruichang
  • Kunther, Wolfgang
  • Rode, Carsten
  • Slabik, Simon
  • Hafner, Annette
  • Sameer, Husam
  • Dürr, Hans H.
  • Flörke, Martina
  • Lowe, Benjamin H.
  • Aloini, Davide
  • Zerbino, Pierluigi
  • Simoes, Sofia G.

Abstract

Circular economy (CE) practices pave the way for the construction sector to become less material- and carbon-intensive. However, for CE quantification by climate mitigation models, one must first identify the CE practices along a product (or material) value chain. In this review, CE practices are mapped for the value chain of 6 construction materials to understand how these practices influence and can be considered in climate mitigation modelling. The main sub-categories of steel, cement, glass, clay-brick, insulation materials, and wood were used to identify which Rs are currently addressed at the lab and industrial scales: refuse, reduce, rethink, repair, reuse, remanufacture, refurbish, repurpose, recycle, and recover. The CE practices were reviewed using scientific repositories and grey literature, validated by European-wide stakeholders, and mapped across the life-cycle stages of the six materials – extraction, manufacturing, use, and end-of-life (EoL). The mapping was limited to the manufacturing and EoL stages because materials could be identified at these stages (the extraction phase pertains to resources, and the use phase to a product, for example, buildings). All reviewed CE practices identified at the industrial scale were quantified at the European level. For example, EoL reinforcement steel is 1–11 % reused and 70–95 % recycled; manufacturing CEM I is up to 60 % reduced; remanufacturing flat glass is 26 % remanufactured while less than 5 % EoL flat glass is recycled. A major barrier to closed-loop recycling is the need for sorting and separation technologies. Open-loop recycling synergies are found at the industrial scale between, for example, flat glass and glass wool value chains. Climate mitigation models are proposed to be augmented to include these practices requiring an explicit link between building use and the other construction materials' value chain stages.

Suggested Citation

  • Lima, Ana T. & Kirkelund, Gunvor M. & Lu, Zheng & Mao, Ruichang & Kunther, Wolfgang & Rode, Carsten & Slabik, Simon & Hafner, Annette & Sameer, Husam & Dürr, Hans H. & Flörke, Martina & Lowe, Benjamin, 2024. "Mapping circular economy practices for steel, cement, glass, brick, insulation, and wood – A review for climate mitigation modeling," Renewable and Sustainable Energy Reviews, Elsevier, vol. 202(C).
    • Handle: RePEc:eee:rensus:v:202:y:2024:i:c:s1364032124004234
    DOI: 10.1016/j.rser.2024.114697
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    More about this item

    Keywords

    Circular economy “R” framework; Climate mitigation; Construction; Buildings; CE R10 framework;
    All these keywords.

    JEL classification:

    • R10 - Urban, Rural, Regional, Real Estate, and Transportation Economics - - General Regional Economics - - - General

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