Scientific journal paper Q1
A methodology to qualitatively select upcycled building materials from urban and industrial waste
Sara Parece (Parece, S.); Vasco Rato (Rato, V.); Ricardo Pontes Resende (Resende, R.); Pedro Luz Pinto (Pinto, P.); Stefania Stellacci (Stellacci, S.);
Journal Title
Sustainability
Year (definitive publication)
2022
Language
English
Country
Switzerland
More Information
Web of Science®

Times Cited: 6

(Last checked: 2024-11-20 21:33)

View record in Web of Science®


: 0.8
Scopus

Times Cited: 11

(Last checked: 2024-11-20 09:25)

View record in Scopus


: 1.3
Google Scholar

Times Cited: 15

(Last checked: 2024-11-19 11:15)

View record in Google Scholar

Abstract
The rising concern about climate change and other challenges faced by the planet led society to look for different design solutions and approaches towards a more balanced relationship between the built and natural environment. The circular economy is an effective alternative to the linear economic model inspired by natural metabolisms and the circular use of resources. This research explores how innovative strategies can be integrated for evaluating local urban and industrial wastes into sustainable building materials. A literature review is conducted focusing on circular design strategies, re-use, recycle, and waste transformation processes. Then, a methodology for the selection of upcycled and re-used building materials is developed based on Ashby’s method. A total of thirty-five types of partition walls, which include plastic, wood, paper, steel, aluminium, and agricultural wastes, are evaluated using a multi-criteria decision aid (M-MACBETH). Among these solutions, ten types of walls show high-performance thermal and sound isolation, fourteen types are effective for coating, and two exhibit structural reliability. Regardless of their functional limitations, the proposed solutions based on waste materials bear great potential within the construction industry.
Acknowledgements
--
Keywords
Circular economy,Multi-criteria decision analysis,Reuse,Upcycle,Industrial waste,Urban waste
  • Environmental Engineering - Engineering and Technology
Funding Records
Funding Reference Funding Entity
UIDB/04466/2020 Fundação para a Ciência e a Tecnologia
UIDP/04466/2020 Fundação para a Ciência e a Tecnologia
Related Projects

This publication is an output of the following project(s):

With the objective to increase the research activity directed towards the achievement of the United Nations 2030 Sustainable Development Goals, the possibility of associating scientific publications with the Sustainable Development Goals is now available in Ciência-IUL. These are the Sustainable Development Goals identified by the author(s) for this publication. For more detailed information on the Sustainable Development Goals, click here.