Performance evaluation of CO2 reduction in green materials

Abstract

The concrete sector has come under a greater microscope to lower its carbon dioxide emissions due to growing sustainability awareness. Most of the carbon dioxide emissions from the industry are caused by transporting materials and manufacturing Portland cement, the primary binder in concrete. To improve sustainability and achieve net-zero emissions by 2050, the industry has, nevertheless, made a number of hopeful moves in the last ten years. This study examines the permeability conduct of polymer E waste in concrete. Specifically, it finds that the optimal amount of fly ash content in concrete, regardless of the presence of recycled polymer E waste, reduces saturated water absorption and increases it as fly ash mixing increases. With an increase in fly ash and E waste, porosity and sorptivity are somewhat rising. Linear regression in IBM SPSS 23 Statistical analysis is used to demonstrate the compressive strength of the tests using a statistical software. The experimental value is compared with the predicted value using the relationship between the predicted and experimental values of recycled polymer E waste concrete to evaluate the percentage of error. This research examined how the construction industry addresses these sustainability challenges to raise awareness among its stakeholders and the industry itself also the present work is intended to describes the performance assessment and statistical analysis of green building materials (recycled polymer E waste concrete) with the mixture of fly ash and analyzing various characteristics for CO₂ reduction.