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Optimizing construction and demolition waste transportation for sustainable construction projects

Nehal Elshaboury, Mohamed Marzouk

2020Engineering Construction & Architectural Management51 citationsDOI

Abstract

Purpose There have been numerous efforts to tackle the problem of accumulated construction and demolition wastes worldwide. In this regard, this study develops a model for identifying the optimum fleet required for waste transportation. The proposed model is validated through a case study from the construction sector in New Cairo, Egypt. Design/methodology/approach Various fleet combinations are assessed against the time, cost, energy and emissions generated from waste transportation. Genetic algorithm optimization is performed to select the near-optimum solutions. Complex proportional assessment and operational competitiveness rating analysis decision-making techniques are applied to rank Pareto frontier solutions. These rankings are aggregated using an ensemble approach based on the half-quadratic theory. Finally, a sensitivity analysis is implemented to determine the most sensitive attribute. Findings The results reveal that the optimum fleet required for construction and demolition wastes (CDW) transportation consists of one wheel loader of bucket capacity 2.5 cubic meters and nine trucks of capacity 22 cubic meters. Furthermore, consensus index and trust level of 0.999 are obtained for the final ranking. This indicates that there is a high level of agreement between the rankings. Moreover, the most sensitive criterion (i.e. energy) is identified using a sensitivity analysis. Originality/value This study proposes an efficient and effective construction and demolition waste transportation strategy that will lead to economic gains and protect the environment. It aims to select the optimum fleet required for waste transportation based on economic, social and environmental aspects. The usefulness of this study is establishing a consensual decision through the aggregation of conflicting decision makers' preferences in waste transportation and management.

Topics & Concepts

Demolition wasteDemolitionRanking (information retrieval)TruckPareto principleSensitivity (control systems)Transport engineeringConstruction wasteEngineeringCivil engineeringOperations researchComputer scienceWaste managementOperations managementAutomotive engineeringElectronic engineeringMachine learningRecycled Aggregate Concrete PerformanceMunicipal Solid Waste ManagementSustainable Supply Chain Management
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