Publication: Solid waste collection optimization objectives, constraints, modeling approaches, and their challenges toward achieving sustainable development goals
Date
2020
Authors
Hannan M.A.
Hossain Lipu M.S.
Akhtar M.
Begum R.A.
Al Mamun M.A.
Hussain A.
Mia M.S.
Basri H.
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier Ltd
Abstract
Solid waste collection (SWC) has been one of the growing challenges throughout the world due to the development of urbanization and uncontrolled growth of the population. It is a complex process that is expensive and requires the elaborate logistics management and in-depth mathematical computation. Hence, there is an urgent necessity to develop an efficient waste collection process while saving time, fuel, labour, maintenance costs, and carbon emissions. This goal of this is paper is to deliver a comprehensive review of the SWC system concerning solid waste collection objectives, constraints, the different optimization approaches, and models, along with their strengths and weakness. The different types of optimization objectives and constraints on SWC are highlighted towards improving solid waste collection and minimizing the cost. Furthermore, this review has classified the available optimization methods into different categories and technologies to provide a clear understanding for the readers. Besides, future research gaps are identified through the investigation of various key issues and challenges of the existing methods. Moreover, the significant contributions of SWC in connection to sustainable development goals (SDGs) are explained thoroughly. Finally, the review delivers some important proposals that would be beneficial to the researchers and policymakers to design an efficient and robust SWC system toward achieving SDGs. � 2020 Elsevier Ltd
Description
Planning; Population statistics; Solid wastes; Sustainable development; Complex Processes; Logistics management; Maintenance cost; Mathematical computation; Optimization approach; Optimization method; Solid waste collection; Waste collection; Constrained optimization