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Location of facilities and network design for reverse logistics of lithium-ion batteries in Sweden

Marduch Tadaros, Athanasios Migdalas, B. Samuelsson, Anders Segerstedt

2020Operational Research53 citationsDOIOpen Access PDF

Abstract

Abstract Estimations of the amount of lithium-ion batteries reaching their end-of-life in 2025 and the amount being recycled indicates large deviations. To enable an efficient recycling process a well-defined and efficient supply chain network for the recovery of discarded lithium-ion batteries must be put in place. This includes analyzing the needs and restrictions of such a network. The aim of this paper is to provide decision support tools, to analyze input, and optimize a future supply chain for discarded lithium-ion batteries. A mixed integer programming model is developed and applied to the Swedish market. The findings show that several aspects will affect a reverse supply chain for discarded lithium-ion batteries, many of which are still uncertain and hard to predict.

Topics & Concepts

Lithium (medication)Supply chainProcess (computing)Computer scienceReverse logisticsInteger programmingComputational intelligenceOperations researchBusinessEngineeringArtificial intelligenceAlgorithmMarketingOperating systemMedicineEndocrinologyRecycling and Waste Management TechniquesExtraction and Separation ProcessesSustainable Supply Chain Management
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