Abstract
Extended producer responsibility (EPR) is a legislative mandate that requires a producer to be accountable for the whole life cycle of its product—from product design to final disposal. The EPR system is imposed to solve the problem of the growing e-waste in different areas of the world. Different countries have different system designs and approaches in EPR, depending on the country’s legislation, customer demand, incentives, and resources; it can either be a physical responsibility or a financial responsibility. Physical responsibility is when the producers are responsible for the physical movements of the e-wastes necessary, while financial responsibility is when the producers are financially supporting all the costs needed to successfully fulfil the EPR goals. In this study, we will determine which type of EPR system is better by doing a comparison on its social welfare value using a social welfare model. This study uses a notebook computer as an example, and based on our analysis, we conclude that the physical responsibility is better if and only if the rate of return of e-waste is equal to or greater than a certain percentage. Otherwise, the financial responsibility model outperforms the physical responsibility model. A sensitivity analysis is also carried for each parameter used in the two models for determining the significance.
Highlights
E-wastes are electronic products that have reached their end-of-life (EOL) or been disposed of by the consumers
Our study proposed the FR4 model, which considers the effect of repaired parts recycling (RPR) and using recycled materials (URM) and has the higher social welfare than the FR1 model
Extended producer responsibility (EPR) is a legislative mandate that requires producers to be accountable for the whole life cycle of its products
Summary
E-wastes are electronic products that have reached their end-of-life (EOL) or been disposed of by the consumers These e-wastes are continuously rising due to the high rate of technology development [1,2]. A massive usage of electrical and electronic equipment (EEE) nowadays leads to an expected increase of e-wastes two to three times faster than any other waste material worldwide [4,5]. These e-wastes contain hazardous elements such as lead, chromium, cadmium, and mercury, which are dangerous to both the human race and the environment [6]. 44.7 Mt of e-waste were generated globally in Sustainability 2020, 12, 4037; doi:10.3390/su12104037 www.mdpi.com/journal/sustainability
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