| Title | The ecodesign methodologies to achieve buildings' deconstruction: A review and framework |
|---|---|
| ID_Doc | 16973 |
| Authors | Munaro, MR; Tavares, SF; Bragança, L |
| Title | The ecodesign methodologies to achieve buildings' deconstruction: A review and framework |
| Year | 2022 |
| Published | |
| Abstract | The ecodesign methodologies in the design stage enable buildings to be adapted to the needs of users and deconstructed at the end-of-life. Although ecodesign methods incorporate circular economy (CE) principles, they are little explored in projects and constructions. This study analyses how the construction sector approaches ecodesign methods to achieve buildings' deconstruction. Through an integrative literature review, 288 articles were threefold analyzed: (i) bibliometric, (ii) conceptually about ecodesign methods, and (iii) categorically. The results showed a lack of understanding about the ecodesign concepts, and an integrated methodology was proposed. The most inclusive and sustainable ecodesign method for buildings deconstruction was Design for Adaptability and Disassembly (DfAD). The review shows the concentration of the studies in three categories and a framework was created relating DfAD strategies. The sector needs more information on ecodesign methods, deconstruction strategies, reusing of materials, and in the life cycle tools as decision support to make sustainable buildings.(c) 2021 Institution of Chemical Engineers. Published by Elsevier B.V. All rights reserved. |
Similar Articles
| ID | Score | Article |
|---|---|---|
23027
|
Munaro, MR; Tavares, SF Design for adaptability and disassembly: guidelines for building deconstruction(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 | |
| 2065
|
O'Grady, T; Minunno, R; Chong, HY; Morrison, GM Design for disassembly, deconstruction and resilience: A circular economy index for the built environment(2021) | |
| 28478
|
Pristerà, G; Tonini, D; Tornaghi, ML; Caro, D; Sala, S Taxonomy of design for deconstruction options to enable circular economy in buildings(2024) | |
| 13755
|
Melella, R; Di Ruocco, G; Sorvillo, A Circular Construction Process: Method for Developing a Selective, Low CO2eq Disassembly and Demolition Plan(2021)Sustainability, 13, 16 | |
| 3362
|
Guerriero, A; Busio, F; Saidani, M; Boje, C; Mack, N Combining Building Information Model and Life Cycle Assessment for Defining Circular Economy Strategies(2024)Sustainability, 16, 11 | |
| 10358
|
Cruz-Rios, F; Grau, D Design for Disassembly: An Analysis of the Practice (or Lack Thereof) in the United States(2020) | |
| 3571
|
Gillott, C; Mihkelson, W; Lanau, M; Cheshire, D; Tingley, DD Developing regenerate: A circular economy engagement tool for the assessment of new and existing buildings(2023)Journal Of Industrial Ecology, 27, 2 | |
| 4538
|
Kret-Grzeskowiak, A; Baborska-Narozny, M Guidelines for disassembly and adaptation in architectural design compared to circular economy goals-A literature review(2023) | |
| 3090
|
de Lima, PRB; Rodrigues, CD; Post, JM Integration of BIM and design for deconstruction to improve circular economy of buildings(2023) |