Analysis of the Life Cycle Environmental Impact Reductions of Remanufactured Turbochargers

Abstract

Abstract Recently, remanufacturing approach/technology, which includes a series of the processes of disassembling, cleaning, inspecting, repairing/reconditioning, reassembling components for resale, is becoming more popular as companies look for a way to combat the current climate crisis, and as it allows companies to reduce environmental impacts and to save energy and resources. This study analyzed the reduction effect of six environmental impacts and the savings effect of energy and resources by turbocharger remanufacturing compared to its newly manufacturing using a life cycle assessment (LCA) methodology. The results show that the most significant benefit of the turbocharger remanufacturing related to environmental impacts was the global warming potential (GWP), which could be reduced by 52.18%, followed by the abiotic depletion potential (ADP), terrestrial ecotoxicity potential (TETP), human toxicity potential (HTP), freshwater aquatic ecotoxicity potential (FAETP) and marine aquatic ecotoxicity potential (MAETP) which could be reduced by 51.93%, 44.76%, 44.23%, 42.59%, and 36.74%, respectively. Also, its resource saving could be obtained from 21.74–73.47% depending on the type of resources. Furthermore, turbocharger remanufacturing offered a significant energy saving of 83.93%. The results obtained from this study could be used for national policy-making to a net-zero carbon transition.