Project Abstract

A Sustainable Approach to Waste Management and Construction The global construction industry is a significant contributor to environmental degradation, with the production of concrete being a major source of greenhouse gas emissions and the depletion of natural resources. Simultaneously, the ever-increasing accumulation of plastic waste worldwide poses a significant challenge to waste management systems. This project aims to address these pressing issues by exploring the incorporation of recycled plastic waste into concrete mixtures, thereby creating a sustainable and eco-friendly solution for both the construction and waste management sectors. Concrete is the most widely used construction material globally, with a production volume that exceeds 4 billion tons per year. The conventional production of concrete is a resource-intensive process that requires the extraction and processing of large quantities of natural aggregates, such as sand and gravel, as well as the use of energy-intensive cement manufacturing. This has led to a growing awareness of the need for more sustainable construction practices. One promising approach is the utilization of recycled plastic waste as a partial replacement for natural aggregates in concrete mixtures. The project will investigate the feasibility and performance of concrete mixtures that incorporate various types of recycled plastic waste, including post-consumer plastic bottles, plastic bags, and other common plastic waste streams. The study will evaluate the physical, mechanical, and durability properties of the resulting concrete, ensuring that it meets the necessary structural and performance requirements for construction applications. By incorporating recycled plastic waste into concrete, this project aims to achieve several key objectives 1. Waste management The utilization of plastic waste in concrete can contribute to the diversion of plastic from landfills and oceans, helping to address the global plastic pollution crisis. 2. Resource conservation The partial replacement of natural aggregates with recycled plastic waste can reduce the demand for virgin materials, preserving natural resources and fostering a more circular economy. 3. Environmental impact reduction The incorporation of recycled plastic can potentially lead to a reduction in the carbon footprint associated with concrete production, as the energy-intensive cement manufacturing process can be partially offset by the use of recycled materials. 4. Economic benefits The successful implementation of this approach can create new market opportunities and revenue streams for waste management and recycling industries, as well as cost savings for the construction sector. The project will involve a comprehensive research methodology, including laboratory testing, performance evaluations, and feasibility analyses. The research team will collaborate with industry partners, waste management authorities, and construction stakeholders to ensure the practical application and widespread adoption of the developed concrete mixtures. The findings of this project will contribute to the growing body of knowledge on the use of recycled plastic waste in construction materials, providing valuable insights and guidelines for architects, engineers, and policymakers. By promoting the incorporation of recycled plastic waste in concrete, this project aims to foster a more sustainable and circular built environment, addressing the dual challenges of waste management and the environmental impact of the construction industry.

Project Overview