Improving the Environmental Sustainability of Pallet Logistics through Preemptive Remanufacturing: An Integer Linear Optimization Model
Document Type
Conference Proceeding
Publication Date
8-15-2018
Abstract
The use of pallets is crucial in handling and transportation processes and wooden pallet represent the most common packaging type in the US and in Europe. This work focuses on the environmental impact of wooden pallet reverse logistics, exploring the advantages of preemptive remanufacturing policies. Preemptive schedules allow the service provider to allocate transportation emissions across multiple pallet components, increasing the environmental efficiency of the transportation process. This advantage has to be compared to the lost opportunity of repairing a usable component earlier than required. An integer linear optimization model analyzes this trade-off and the benefits of a preemptive remanufacturing schedule are described. The impact of transportation distance on the efficiency of preemptive policies is explored through a sensitivity analysis.
Publication Title
Progress in Material Handling Research
Repository Citation
Tornese, Fabiana; Pazour, Jennifer A.; Carrano, Andres L.; and Thorn, Brian K., "Improving the Environmental Sustainability of Pallet Logistics through Preemptive Remanufacturing: An Integer Linear Optimization Model" (2018). Engineering Faculty Publications. 291.
https://digitalcommons.fairfield.edu/engineering-facultypubs/291
Published Citation
Tornese, Fabiana, Jennifer Pazour, Andres L. Carrano, Brian K. Thorn. 2018. "Improving the Environmental Sustainability of Pallet Logistics through Preemptive Remanufacturing: An Integer Linear Optimization Model." Progress in Material Handling Research, 15 Savannah, GA: College Industry Council on Material Handling Education.
Peer Reviewed
Comments
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