Assessment of symmetries and asymmetries on barriers to circular economy adoption in the construction industry towards zero waste: A survey of international experts

This study evaluates simultaneously the symmetries and asymmetries on the classification of barriers to circular economy (CE) adoption in the building construction industry (BCI) of developing and developed economies. This is crucial because the vagueness of the impacts of CE barriers in extant stud...

Full description

Saved in:
Bibliographic Details
Published in:Building and environment 2023-01, Vol.228, p.109885, Article 109885
Main Authors: Oluleye, Benjamin I., Chan, Daniel W.M., Olawumi, Timothy O., Saka, Abdullahi B.
Format: Article
Language:English
Subjects:
Barriers
Building construction industry
Circular economy
Fuzzy synthetic evaluation
Zero waste
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:This study evaluates simultaneously the symmetries and asymmetries on the classification of barriers to circular economy (CE) adoption in the building construction industry (BCI) of developing and developed economies. This is crucial because the vagueness of the impacts of CE barriers in extant studies affects encyclopaedic and specific CE policy formulation. Consequently, feedbacks from 140 CE experts across 39 developing and developed economies were analysed. Fuzzy synthetic evaluation (FSE) method was deployed to objectively determine the significant impacts of the barriers, whereas the Mann-Whitney U test was applied to identify significant differences in experts' opinions between the two economies. The FSE results indicated that organizational, information technology, and infrastructure and logistics barriers are the most critical to global CE adoption. The Mann-Whitney U test reveals a significant difference in the experts’ perspectives between developing and developed economies on regulatory, information technology, and economic and market barriers. Therefore, they are perceived as specific barriers as they impact CE adoption in BCI differently across the two economies. However, infrastructure and logistics, and organizational barriers are classified as general barriers. The findings of this study underscored the contextuality of barriers to CE adoption in BCI and demonstrated the need for generic and specific policy development. Also, the significance indices of the classification of the barriers using FSE method serve as an allocative function that will help policymakers and stakeholders allocate requisite resources to the most profound barriers towards achieving global systemic circularity and zero construction waste. •An international survey on barriers to CE implementation in the BCI was conducted.•Symmetries exist on three barriers groups and were labeled general barriers.•Asymmetries exits on other two barriers group and were tagged specific barriers.•The study will guide general and specific policies execution for CE adoption in the BCI.
ISSN:0360-1323
1873-684X
DOI:10.1016/j.buildenv.2022.109885