Circular manufacturing 4.0: towards internet of things embedded closed-loop supply chains

Increased global economic competition and growing importance of environmental issues force manufacturers to consider implementation of closed-loop supply chains (CLSCs) ensuring recovery of end-of-life products (EOL) for recycling or reuse. Such CLSCs are subject to many uncertainties in their flows...

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Published in	International journal of advanced manufacturing technology Vol. 118; no. 9-10; pp. 3241 - 3264
Main Authors	Delpla, Victor, Kenné, Jean-Pierre, Hof, Lucas A.
Format	Journal Article
Language	English
Published	London Springer London 01.02.2022 Springer Nature B.V
Subjects	CAE) and Design Computer-Aided Engineering (CAD Data collection End of life Engineering Industrial and Production Engineering Industrial applications Industrial development Integer programming Internet of Things Life cycle assessment Linear programming Manufacturing Mechanical Engineering Media Management Mixed integer Optimization Original Article Remanufacturing Standard components Supply chains Internet of things Industry 4.0 Circular economy Remanufacturing Closed-loop supply chain Sustainable supply chain
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Abstract	Increased global economic competition and growing importance of environmental issues force manufacturers to consider implementation of closed-loop supply chains (CLSCs) ensuring recovery of end-of-life products (EOL) for recycling or reuse. Such CLSCs are subject to many uncertainties in their flows given the varying conditions of EOL products. In the era of Industry 4.0, developments in the field of the internet of things (IoT) allow the collection of data throughout full product life cycles to determine most optimal treatments to apply after product recovery. This study proposes a CLSC model maximizing the total profit of the manufacturing company by selecting the treatment to be applied to the collected products according to their condition as estimated by life cycle data collection enabled by IoT. A mixed integer linear programming model is considered for a modular product sharing standard components. To validate the proposed CLSC model on an actual innovative real-world application, we used a modular smartphone as case study. The developed model proposes a solution for the return loop of a CLSC to meet a refurbished product demand over multiple periods. The interest of using intelligent devices that predict the degradation of products during their life cycle is highlighted. The full implementation of such intelligent tracking technology on all products, and not only partially, would be beneficial by more than 5.3% for high remanufacturing costs. The profit would increase by more than 49% if the quantity of recoverable EOL products exceeded the demand for refurbished products.
AbstractList	Increased global economic competition and growing importance of environmental issues force manufacturers to consider implementation of closed-loop supply chains (CLSCs) ensuring recovery of end-of-life products (EOL) for recycling or reuse. Such CLSCs are subject to many uncertainties in their flows given the varying conditions of EOL products. In the era of Industry 4.0, developments in the field of the internet of things (IoT) allow the collection of data throughout full product life cycles to determine most optimal treatments to apply after product recovery. This study proposes a CLSC model maximizing the total profit of the manufacturing company by selecting the treatment to be applied to the collected products according to their condition as estimated by life cycle data collection enabled by IoT. A mixed integer linear programming model is considered for a modular product sharing standard components. To validate the proposed CLSC model on an actual innovative real-world application, we used a modular smartphone as case study. The developed model proposes a solution for the return loop of a CLSC to meet a refurbished product demand over multiple periods. The interest of using intelligent devices that predict the degradation of products during their life cycle is highlighted. The full implementation of such intelligent tracking technology on all products, and not only partially, would be beneficial by more than 5.3% for high remanufacturing costs. The profit would increase by more than 49% if the quantity of recoverable EOL products exceeded the demand for refurbished products.
Author	Delpla, Victor Kenné, Jean-Pierre Hof, Lucas A.
Author_xml	– sequence: 1 givenname: Victor surname: Delpla fullname: Delpla, Victor organization: Department of Mechanical Engineering, École de Technologie Supérieure – sequence: 2 givenname: Jean-Pierre surname: Kenné fullname: Kenné, Jean-Pierre organization: Department of Mechanical Engineering, École de Technologie Supérieure – sequence: 3 givenname: Lucas A. orcidid: 0000-0002-0495-9572 surname: Hof fullname: Hof, Lucas A. email: lucas.hof@etsmtl.ca organization: Department of Mechanical Engineering, École de Technologie Supérieure
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Snippet	Increased global economic competition and growing importance of environmental issues force manufacturers to consider implementation of closed-loop supply...
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SubjectTerms	CAE) and Design Computer-Aided Engineering (CAD Data collection End of life Engineering Industrial and Production Engineering Industrial applications Industrial development Integer programming Internet of Things Life cycle assessment Linear programming Manufacturing Mechanical Engineering Media Management Mixed integer Optimization Original Article Remanufacturing Standard components Supply chains
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Title	Circular manufacturing 4.0: towards internet of things embedded closed-loop supply chains
URI	https://link.springer.com/article/10.1007/s00170-021-08058-3 https://www.proquest.com/docview/2620907548
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