| Title | Estimating the Circularity Performance of an Emerging Industrial Symbiosis Network: The Case of Recycled Plastic Fibers in Reinforced Concrete |
|---|---|
| ID_Doc | 27890 |
| Authors | Marinelli, S; Butturi, MA; Rimini, B; Gamberini, R; Sellitto, MA |
| Title | Estimating the Circularity Performance of an Emerging Industrial Symbiosis Network: The Case of Recycled Plastic Fibers in Reinforced Concrete |
| Year | 2021 |
| Published | Sustainability, 13.0, 18 |
| Abstract | In recent times, the construction industry has been handling circular economy strategies in order to face the most important challenges in the sector, namely the lack of raw materials and the environmental impacts derived from all the processes linked to the entire supply chain. The industrial symbiosis approach represents an effective strategy to improve the circularity of the construction industry. This study analyses the circularity performance of an emerging industrial symbiosis network derived from the production of a cement mortar reinforced with recycled synthetic fibers coming from artificial turf carpets. From the collection of artificial turf carpets at the end-of-life stage it is possible to recover several materials, leading to potential unusual interactions between industries belonging to different sectors. A suitable indicator, retrieved from the literature, the Industrial Symbiosis Indicator (ISI), has been used to estimate the level of industrial symbiosis associated with increasing materials recirculation inside the network. Four scenarios-ranging from perfect linearity to perfect circularity-representing growing circularity were tested. Findings demonstrate that the development of an effective industrial symbiosis network can contribute to improving the circular approach within the construction sector, reducing environmental and economic pressures. |
| https://www.mdpi.com/2071-1050/13/18/10257/pdf?version=1631619840 |
Similar Articles
| ID | Score | Article |
|---|---|---|
13790
|
Yang, Y; Guan, JF; Nwaogu, JM; Chan, APC; Chi, HL; Luk, CWH Attaining higher levels of circularity in construction: Scientometric review and cross-industry exploration(2022) | |
| 22471
|
Luthin, A; Crawford, RH; Traverso, M Demonstrating circular life cycle sustainability assessment - a case study of recycled carbon concrete(2023) | |
| 29031
|
Vitale, P; Napolitano, R; Colella, F; Menna, C; Asprone, D Cement-Matrix Composites Using CFRP Waste: A Circular Economy Perspective Using Industrial Symbiosis(2021)Materials, 14.0, 6 | |
| 28973
|
Harala, L; Alkki, L; Aarikka-Stenroos, L; Al -Najjar, A; Malmqvist, T Industrial ecosystem renewal towards circularity to achieve the benefits of reuse- Learning from circular construction(2023) | |
| 2103
|
Mangialardo, A; Micelli, E Rethinking the Construction Industry Under the Circular Economy: Principles and Case Studies(2018) | |
| 343
|
Ogunmakinde, OE; Sher, W; Egbelakin, T Circular economy pillars: a semi-systematic review(2021)Clean Technologies And Environmental Policy, 23, 3 | |
| 22366
|
Antwi-Afari, P; Ng, ST; Chen, J Developing an integrative method and design guidelines for achieving systemic circularity in the construction industry(2022) | |
| 27110
|
Dräger, P; Letmathe, P; Reinhart, L; Robineck, F Measuring circularity: evaluation of the circularity of construction products using the oKOBAUDAT database(2022)Environmental Sciences Europe, 34.0, 1 | |
| 5001
|
Yu, YF; Yazan, DM; Bhochhibhoya, S; Volker, L Towards Circular Economy through Industrial Symbiosis in the Dutch construction industry: A case of recycled concrete aggregates(2021) | |
| 1050
|
Castellet-Viciano, L; Hernández-Chover, V; Bellver-Domingo, A; Hernández-Sancho, F Industrial Symbiosis: A Mechanism to Guarantee the Implementation of Circular Economy Practices(2022)Sustainability, 14, 23 |