Reusability analytics tool for end-of-life assessment of building materials in a circular economy

Akanbi, Lukman; Oyedele, Lukumon O.; Delgado, Juan Manuel Dávila; Bilal, Muhammad; Akinadé, Olúgbénga O.; Ajayi, Anuoluwapo O.; Mohammed-Yakub, Naimah

doi:10.1108/wjstsd-05-2018-0041

Cited by 25 publications

(14 citation statements)

References 21 publications

(25 reference statements)

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“…The key concept of the circular economy is to solve or relieve environmental challenges by creating a more sustainable world, turning products at the end of their service lives to be resources for others, closing loops of linear production and consumption as much as possible (Valavanidis, 2018). In addition, its ultimate goal is to ensure that the added values found for products are maintained within the economic circle for as long as possible to avoid waste generation to landfill (Akanbi et al, 2019). Since the early 21st century, the circular economy concept has evolved to become a component of both better waste management and improved material resource efficiency.…”

Section: Short Reportmentioning

confidence: 99%

Identifying Key Implication Factors to Influence the Approach and Promotion of the Sustainable Furniture-Sharing Platform in the Circular Economy in Bangkok, Thailand

Gesawahong

Wongwatcharapaiboon

Muangnapoh

2021

Future Cities and Environment

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Section: Short Reportmentioning

confidence: 99%

Identifying Key Implication Factors to Influence the Approach and Promotion of the Sustainable Furniture-Sharing Platform in the Circular Economy in Bangkok, Thailand

Gesawahong

Wongwatcharapaiboon

Muangnapoh

2021

Future Cities and Environment

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“…As an example, Gepts et al (2019) and Swift et al (2017) created in the demolition phase, an electronic catalogue of materials in good condition for use in new projects. It could be interesting to apply the BIM-based whole-life performance estimator proposed by Akanbi et al (2018Akanbi et al ( , 2019aAkanbi et al ( , 2019b. In this case, prefabricated elements or even the whole construction could be designed for disassembly (Eberhardt et al, 2019b;Minunno et al, 2018).…”

Section: Using Green Building Information Modellingmentioning

confidence: 99%

Circular economy in Brazilian construction industry: Current scenario, challenges and opportunities

et al. 2021

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The effective implantation of the circular economy (CE) presents a great challenge to the industrial sectors, mostly in those of greater environmental impact, such as construction industry. In Brazil, this industry has been growing over the last 20 years; however, such growth was based on an extractivist economy without any consideration to the end of its products lifespan. Only in 2017, 45 million tonnes of construction and demolition waste were generated in the country. This paper presents the current context of public policies in the Brazilian construction industry and proposes initiatives to introduce principles of CE. An exploratory study was developed, and all the 45 references presented in Appendix A of the review paper of Benachio et al. were considered to draw new ideas. These ideas are related and compared to key points in Brazilian regulations. Twelve opportunities for the improvement are listed and organized by construction stages (planning and design, materials manufacturing, construction processes, use and demolition). The ones related to design and planning using Green building information modelling, and materials manufacturing with recycled waste are highlighted due to the existing actions, standards, and Federal legislation. It was found that some sectors and the government already have actions related to CE (based on the 3R principle), but still there are several initiatives needed for its effective implementation in the Brazilian construction industry.

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“…These actions mark the shift from a linear economy to a circular economy). In fact, and to further reduce the scale, we are moving towards the concept of DfD "Design for Disassembly" (especially applied to the "house" system), based on reuse in several life cycles of building products, as it can reduce demolition waste (Akanbi et al, 2019). In summary, the circular economy aims to minimize waste by reusing, repairing, refurbishing and recycling existing materials and products, with 108 a focus on durable designs.…”

Section: The Domestic Space Between Circular Design and Iotmentioning

confidence: 99%

Inhabit the Change: Circular Design & Iot

Palco¹,

Mussari²

2021

USPA

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To solve the problems associated with precarious contemporary housing, it is essential to intervene with structural housing reform. Therefore, it is necessary to start from semantics and read space on the one hand, as a moment where history, traditions and culture meet; on the other hand, as a key to overcome obstacles and general obsolescence.The state of the art includes: repetition of self-built and unregulated low-quality typologies, high migration rate, and socio-economic changes; the consequences are: low-quality buildings, overcrowded or uninhabited urban centers, obsolete spatiality. Today, the challenge is to design in a short time and with high qualitative standards, without giving in to hypertechnology but finding a balancing strategy. It is a matter of anticipating what cannot be expected, and responding to the multitude of ever-changing needs inherent to an atypical user.“Inhabiting” in this perspective must be increasingly “smart and sustainable”. This is done through interactive design, which increasingly uses digitized services and connects objects and people. The goal is to move towards DfD, «Design for Disassembly», through “change” as a paradigm, and the solution is in our homes.

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Reusability analytics tool for end-of-life assessment of building materials in a circular economy

Cited by 25 publications

References 21 publications

Identifying Key Implication Factors to Influence the Approach and Promotion of the Sustainable Furniture-Sharing Platform in the Circular Economy in Bangkok, Thailand

Identifying Key Implication Factors to Influence the Approach and Promotion of the Sustainable Furniture-Sharing Platform in the Circular Economy in Bangkok, Thailand

Circular economy in Brazilian construction industry: Current scenario, challenges and opportunities

Inhabit the Change: Circular Design & Iot

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