Multi-objective sustainable location-districting for the collection of municipal solid waste: Two case studies

•We model districting and location decisions for solid waste management.•Decisions are evaluated based on economic, environmental, and social criteria.•A heuristic is developed for a multi-objective solid waste management problem.•Case studies show that the approach can significantly improve current...

Full description

Saved in:
Bibliographic Details
Published in:Computers & industrial engineering 2020-12, Vol.150, p.106965, Article 106965
Main Authors: Mostafayi Darmian, Sobhan, Moazzeni, Sahar, Hvattum, Lars Magnus
Format: Article
Language:English
Subjects:
Best-worst method
Local search
Multi-objective optimization
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•We model districting and location decisions for solid waste management.•Decisions are evaluated based on economic, environmental, and social criteria.•A heuristic is developed for a multi-objective solid waste management problem.•Case studies show that the approach can significantly improve current designs.•Waste collection centers can be located to minimize environmental pollutants. This paper presents a multi-objective location-districting optimization model for sustainable collection of municipal solid waste, motivated by strategic waste management decisions in Iran. The model aims to design an efficient system for providing municipal services by integrating the decisions regarding urban area districting and the location of waste collection centers. Three objectives are minimized, given as 1) the cost of establishing collection centers and collecting waste, 2) a measure of destructive environmental consequences, and 3) a measure of social dissatisfaction. Constraints are formulated to enforce an exclusive assignment of urban areas to districts and that the created districts are contiguous. In addition, constraints make sure that districts are compact and that they are balanced in terms of the amount of waste collected. A multi-objective local search heuristic using the farthest-candidate method is implemented to solve medium and large-scale numerical instances, while small instances can be solved directly by commercial software. A set of randomly generated test instances is used to test the effectiveness of the heuristic. The model and the heuristic are then applied to two case studies from Iran. The obtained results indicate that waste collection costs can be reduced by an estimated 20–30%, while significantly improving the performance with respect to environmental and social criteria. Thus, the provided approach can provide important decision support for making strategic choices in municipal solid waste management.
ISSN:0360-8352
1879-0550
DOI:10.1016/j.cie.2020.106965