Risk explicit interval linear programming model for long-term planning of vehicle recycling in the EU legislative context under uncertainty

► A REILP model for optimal long-term planning in the EU vehicle recycling factories is proposed. ► The model creates optimal plans for procuring, sorting and allocating waste and metals for the desired risk levels. ► A numerical study demonstrated the potentials and applicability of the developed m...

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Bibliographic Details
Published in:Resources, conservation and recycling conservation and recycling, 2013-04, Vol.73, p.197-210
Main Authors: Simic, Vladimir, Dimitrijevic, Branka
Format: Article
Language:English
Subjects:
Applied sciences
business enterprises
eco-efficiency
End-of-life vehicle
EU ELV directive
European Union
Exact sciences and technology
factories
General treatment and storage processes
linear programming
metals
motivation
planning
Pollution
recycling
Risk
Uncertainty
Vehicle recycling
vehicles
Wastes
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Summary:► A REILP model for optimal long-term planning in the EU vehicle recycling factories is proposed. ► The model creates optimal plans for procuring, sorting and allocating waste and metals for the desired risk levels. ► A numerical study demonstrated the potentials and applicability of the developed model. ► Detailed insights on the profitability and eco-efficiency are presented. ► Quantity of land-filled wastes will be radically reduced after January 1, 2015. With the number of vehicles expected to increase to 1.85 billion by 2030 and the scrap generated from end-of-life vehicles (ELVs) expected to be 3.71 billion tonnes, there is a strong motivation to properly process the flow of these materials. The EU Directive on end-of-life vehicles (EU ELV Directive) aims to increase recovery and recycling rates of ELVs in order to reduce waste and improve environmental performances. Long-term optimization planning of vehicle recycling is increasingly important. However, there is a lack of research of uncertainties in the vehicle recycling system, none of the previous studies analyzed the linkage and trade-offs between decision risk and system performances, and no previous research was reported on interval-based programming for vehicle recycling planning problem. In order to meet the imposed eco-efficiency quotas, maximize system profit and minimize decision risk, and at the same time fill the identified research gaps, a risk explicit interval linear programming model for optimal long-term planning in the EU vehicle recycling factories was developed. It can create optimal plans for procuring vehicle hulks, sorting of generated material fractions, allocation of sorted waste flows and allocation of sorted metals for desired value of the system aspiration level. A numerical study demonstrated the potentials and applicability of the proposed model. Vehicle recycling factories aim at reaching the highest possible level of quantity and quality of sorted metal flows. The future eco-efficiency quotas will not endanger their business. The success of the final phase of implementation of the EU ELV Directive is not jeopardized, because even the future eco-efficiency quotas were reached in all created test problems. Quantity of land-filled wastes will be radically reduced after January 1, 2015. The model results and trade-offs would be valuable for supporting the EU vehicle recycling factories in creating optimal long-term production strategies and reducing the risk for uncertai
ISSN:0921-3449
1879-0658
DOI:10.1016/j.resconrec.2013.02.012