Eco-efficiency assessment of technological innovations in high-grade concrete recycling

Journal Article (2019)
Author(s)

Chunbo Zhang (Universiteit Leiden)

Mingming Hu (Universiteit Leiden, Chongqing University)

L. Dong (City University of Hong Kong)

A.T. Gebremariam (TU Delft - Resources & Recycling)

Brenda Mirand-Xicotencatl (Universiteit Leiden)

F. Di Maio (TU Delft - Resources & Recycling)

Arnold Tukker (Universiteit Leiden, TNO)

Research Group
Resources & Recycling
Copyright
© 2019 Chunbo Zhang, Mingming Hu, L. Dong, A.T. Gebremariam, Brenda Mirand-Xicotencatl, F. Di Maio, Arnold Tukker
DOI related publication
https://doi.org/10.1016/j.resconrec.2019.06.023
More Info
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Publication Year
2019
Language
English
Copyright
© 2019 Chunbo Zhang, Mingming Hu, L. Dong, A.T. Gebremariam, Brenda Mirand-Xicotencatl, F. Di Maio, Arnold Tukker
Related content
Research Group
Resources & Recycling
Volume number
149
Pages (from-to)
649-663
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Abstract

The increasing volume of Construction and demolition waste (CDW) associated with economic growth is posing challenges to the sustainable management of the built environment. The largest fraction of all the CDW generated in the member states of the European Union (EU) is End-of-life (EOL) concrete. The most widely applied method for EOL concrete recovery in Europe is road base backfilling, which is considered low-grade recovery. The common practice for high-grade recycling is wet process that processes and washes EOL concrete into clean coarse aggregate for concrete manufacturing. It is costly. As a result, a series of EU projects have been launched to advance the technologies for high value-added concrete recycling. A critical environmental and economic evaluation of such technological innovations is important to inform decision making, while there has been a lack of studies in this field. Hence the present study aimed to assess the efficiency of the technical innovations in high-grade concrete recycling, using an improved eco-efficiency analytical approach by integrating life cycle assessment (LCA) and life cycle costing (LCC). Four systems of high-grade concrete recycling were analyzed for comparison: (i) business-as-usual (BAU) stationary wet processing; (ii) stationary advanced dry recovery (ADR); (iii) mobile ADR; (iv) mobile ADR and Heating Air Classification (A&H). An overarching framework was proposed for LCA/LCC-type eco-efficiency assessment conforming to ISO standards. The study found that technological routes that recycle on-site and produce high-value secondary products are most advantageous. Accordingly, policy recommendations are proposed to support the technological innovations of CDW management.