| Title | Systematic review of drivers influencing building deconstructability: Towards a construct-based conceptual framework |
|---|---|
| ID_Doc | 25640 |
| Authors | Balogun, H; Alaka, H; Egwim, CN; Ajayi, S |
| Title | Systematic review of drivers influencing building deconstructability: Towards a construct-based conceptual framework |
| Year | 2023 |
| Published | Waste Management & Research, 41, 3 |
| Abstract | Deconstruction is an innovative and sustainable option for building end-of-life. It can turn the negative impacts of demolition, including diverting valuable resources from the congested landfill into beneficial use through reuse and recycling. However, the feasibility of deconstruction has placed a massive limitation on the implementation of deconstruction. This research carried out a systematic literature review of 35 academic and 3 non-academic pieces of literature to develop a construct-based deconstructability framework. This framework - built around technical, economic, legal, operational, schedule and social construct - describes the condition under which deconstruction is likely to work and drivers influencing deconstructability. A total of 44 drivers influencing deconstructability were established and ranked from which design and building technology, cost including expense and revenues from the resale, supply and demand of the recovered component and material, the schedule for the deconstruction were identified as most influential. However, every identified driver should be considered during the deconstructability assessment of a building. |
Similar Articles
| ID | Score | Article |
|---|---|---|
17799
|
Balogun, H; Alaka, H; Ajayi, S; Egwim, CN Critical factors for assessing building deconstructability: Exploratory and confirmatory factor analysis(2024) | |
| 23027
|
Munaro, MR; Tavares, SF Design for adaptability and disassembly: guidelines for building deconstruction(2023) | |
| 19518
|
Allam, AS; Nik-Bakht, M From demolition to deconstruction of the built environment: A synthesis of the literature(2023) | |
| 28664
|
Bertino, G; Kisser, J; Zeilinger, J; Langergraber, G; Fischer, T; Österreicher, D Fundamentals of Building Deconstruction as a Circular Economy Strategy for the Reuse of Construction Materials(2021)Applied Sciences-Basel, 11.0, 3 | |
| 28119
|
Boukherroub, T; Tchakoutio, AN; Drapeau, N Using Lean in Deconstruction Projects for Maximising the Reuse of Materials: A Canadian Case Study(2024)Sustainability, 16.0, 5 | |
| 10358
|
Cruz-Rios, F; Grau, D Design for Disassembly: An Analysis of the Practice (or Lack Thereof) in the United States(2020) | |
| 28478
|
Pristerà, G; Tonini, D; Tornaghi, ML; Caro, D; Sala, S Taxonomy of design for deconstruction options to enable circular economy in buildings(2024) | |
| 3090
|
de Lima, PRB; Rodrigues, CD; Post, JM Integration of BIM and design for deconstruction to improve circular economy of buildings(2023) | |
| 16973
|
Munaro, MR; Tavares, SF; Bragança, L The ecodesign methodologies to achieve buildings' deconstruction: A review and framework(2022) | |
| 12815
|
Pittri, H; Agyekum, K; Botchway, EA; Alencastro, J; Oladinrin, OT; Dompey, AMA Drivers for design for deconstruction (DfD) implementation among design professionals(2024)Smart And Sustainable Built Environment, 13.0, 5 |