Environmental Impact Assessment of Different Strategies for the Remanufacturing of User Electronics
Mann, A; Saxena, P; Almanei, M; et al.Okorie, O; Salonitis, K
Date: 24 March 2022
Article
Journal
Energies
Publisher
MDPI
Publisher DOI
Abstract
Over the years, the innovation and development of electrical and electronic equipment
have been on a steep rise. Millions of electronics are being sold or discarded every year in the form
of waste. Sustainable IT (Green IT or Circular Computing) is one of the most environment‐friendly
methods of reusing discarded or waste user ...
Over the years, the innovation and development of electrical and electronic equipment
have been on a steep rise. Millions of electronics are being sold or discarded every year in the form
of waste. Sustainable IT (Green IT or Circular Computing) is one of the most environment‐friendly
methods of reusing discarded or waste user electronics. The remanufacturing of a computer refers
to the disassembly, repair, and upgrade of the original computer to give it a new life, along with a
warranty that is as good as a new product. The goal of this work includes studying and assessing
the total environmental impact of refurbishing a computer using life cycle assessment (LCA) integrated
with discrete event simulation (DES), to compare two business models: (1) a case of centralized
remanufacturing where the plants are in the Middle East, which is the hub for receiving waste electronics
and distributing remanufactured goods; (2) a case of decentralized remanufacturing where
the plants are situated in each continent for over a range of computer models. The environmental
assessment was conducted using the openLCA software in combination with the WITNESS Horizon
software for the DES. The results show that decentralized remanufacturing is a much more environmentally
friendly option for the remanufacturing of computers, and the decentralized remanufacturing
operation has a better throughput as well as efficiency, as compared to the centralized
remanufacturing operation. The centralized remanufacturing scenario has a climate change impact
of 1035.19 kg of CO2‐Eq, as compared to the decentralized remanufacturing scenario with an impact
of 816.12 kg of CO2‐Eq. In terms of the impact on the marine life, decentralized remanufacturing
was found to have 0.28 kg of N‐Eq impact, as compared to centralized remanufacturing (0.22 kg of
N‐Eq). However, this does not give us a complete picture, as the environmental impact of the computer
in its previous life remains unknown. Multi life cycle assessment is the assessment process
that can be used to get a clearer picture of the ecological footprint of the computer during its multiple
life cycles.
Management
Faculty of Environment, Science and Economy
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