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Sustainable waste management of construction materials: Mathematical modelling and analysis

Mayowa Emmanuel Bamisaye, Babatunde Oluwaseun Ajayi, Issara Sereewatthanawut

2025Resources Conservation & Recycling Advances7 citationsDOIOpen Access PDF

Abstract

The construction industry remains one of the most significant contributors to global energy consumption and CO 2 emission, with construction and demolition waste management emerging as a critical leverage point for environmental improvement. This study employs a hybrid approach that integrates System Dynamics (SD) modelling with Random Forest (RF) algorithm to optimize concrete waste management systems. The analysis encompasses the entire waste processing lifecycle—including demolition, sorting, transportation, recycling, and landfilling—with specific focus on material recovery, landfill use, energy consumption, and CO 2eq emissions. Findings revealed that transportation and demolition account for the majority of energy use and emissions. However, strategic interventions such as expanding recycling infrastructure, transitioning to natural gas and electric trucks, and optimizing truck load capacity can reduce energy consumption and emissions by 20–30%. Additionally, the adoption of demolition robots further decreases energy use by 18% and emissions by 47%. By enhancing material processing efficiency and increasing the use of recycled concrete in new construction, this study reinforces circular economy principles. This study provides a quantitative basis for policy measures aimed at promoting upcycling, improving energy efficiency, and supporting net-zero emission goals in construction sector.

Topics & Concepts

Construction wasteConstruction engineeringWaste managementCivil engineeringEngineeringComputer scienceEnvironmental planningEnvironmental scienceRecycled Aggregate Concrete PerformanceMunicipal Solid Waste ManagementInnovations in Concrete and Construction Materials
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