Environment and Economic analysis of reverse supply chain scenarios for remanufacturing using discrete-event simulation approach

Ravichandran, Mahadharsan and K.E.K, Vimal and Kumar, Vikas and Kulkarni, Onkar and Govindaswamy, Sundaramali and Kandasamy, Jayakrishna (2023) Environment and Economic analysis of reverse supply chain scenarios for remanufacturing using discrete-event simulation approach. Environment, Development and Sustainability. ISSN 1573-2975

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Abstract

The study covers the concepts involved in reverse supply chain modeling using the case of a manufacturing company. The purpose of this study is to build a sustainable reverse supply chain model for resource conservation through remanufacturing of stator shafts by using a discrete-event simulation approach. The simulation studies in the reverse supply chain have taken up cases of either plastic or electronic waste remanufacturing, while very limited studies deal with simulation of sustainable reverse supply chains using a manufacturing industry case study from international customers. In this study, reverse supply chain using simulation study in manufacturing sector is carried out using Arena Rockwell simulation software. The simulation model is built using discrete-event simulation for returns from customers of two developed countries i.e., Germany and the United States of America to Chennai, India. The study emphasizes full container load and less than container load modes of shipment scenarios and multiple return cases. The comparative analysis suggests that the value-added and non-value-added time of the reverse supply chain is slightly greater in the less container load scenario. The wait time per entity in remanufacturing processes similar for both shipment scenarios varies significantly based on return cases. The cost and carbon emission associated with transportation, in the reverse supply chain inclusive of social carbon cost has also been estimated. Therefore, the study proposes a possible sustainable reverse supply chain framework that could be adopted by different manufacturing industries and yield opportunities for performance improvement.

Item Type: Article
Identification Number: https://doi.org/10.1007/s10668-023-03141-z
Dates:
DateEvent
9 March 2023Accepted
22 March 2023Published Online
Uncontrolled Keywords: Reverse supply chain, Remanufacturing, Environment, Economics, Supply chain modeling, Discrete-event simulation
Subjects: CAH10 - engineering and technology > CAH10-01 - engineering > CAH10-01-03 - production and manufacturing engineering
CAH17 - business and management > CAH17-01 - business and management > CAH17-01-01 - business and management (non-specific)
CAH17 - business and management > CAH17-01 - business and management > CAH17-01-04 - management studies
Divisions: Faculty of Business, Law and Social Sciences > College of Accountancy, Finance and Economics
Faculty of Business, Law and Social Sciences > College of Business, Digital Transformation & Entrepreneurship
Depositing User: Vikas Kumar
Date Deposited: 14 Mar 2023 14:03
Last Modified: 20 Jun 2024 12:05
URI: https://www.open-access.bcu.ac.uk/id/eprint/14245

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