Abstract
Remanufacturing is an opportunity to deliver all-round sustainability benefits when products are designed accordingly. In this paper, we focus on the link between remanufacturing and the opportunity to lower the variable remanufacturing cost via process innovation. Specifically, we analyse how the opportunity is utilized in a supply chain consisting of a manufacturer and a retailer. Only the manufacturer may undertake process innovation, while remanufacturing as such could be done by either the manufacturer or the retailer. We find that although the traditional manufacturing process accepts incremental improvement, remanufacturing in general requires stepwise innovation; thus, the optimal strategy of managing process innovation in a forward supply chain does not directly apply to manage process innovation for remanufacturing in a closed-loop supply chain. Our analytical results also show that a decentralised supply chain could be more likely to take up remanufacturing than an integrated supply chain, especially when the process innovation cost is sufficiently high. Consequently, inefficiency resulting from decentralisation of decision-making in the closed-loop supply chain may cause not only underinvestment but also overinvestment in process innovation for remanufacturing. Finally, through an extensive numerical analysis, we find that this overinvestment always reduces the environmental impact in terms of the overall production quantity, even if the decision-making process does not explicitly consider any environmental aspect.
Highlights
Remanufacturing presents a golden opportunity to deliver a sustainable future
Our primary objective in this paper is to develop a general understanding of the operational strategy to manage Process Innovation for Remanufacturing (PIR) in a closedloop supply chain; we are interested in the following question:
If the investment on PIR cannot guarantee a minimum cost reduction necessary to take up remanufacturing at all, it is optimal for the supply chain to produce new products only
Summary
Remanufacturing presents a golden opportunity to deliver a sustainable future. It reduces the disposal of end-of-use products and consumes less natural resources and energy than manufacturing all-new products (Agrawal, Ferguson, & Souza, 2016; Atasu, Guide, & Van Wassenhove, 2008; Giuntini & Gaudette, 2003). Our primary objective in this paper is to develop a general understanding of the operational strategy to manage PIR in a closedloop supply chain; we are interested in the following question:. If the investment on PIR cannot guarantee a minimum cost reduction necessary to take up remanufacturing at all, it is optimal for the supply chain to produce new products only. As for a closed-loop supply chain with retailerremanufacturing, conventional wisdom might suggest the manufacturer invests nothing in PIR because of the cannibalisation concern. Our analysis demonstrates an overinvestment problem resulting from decentralisation of decision-making: the manufacturer invests over the global optimal level in PIR under certain conditions. All mathematical proofs are provided in the online Appendix A
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