Experimental investigation on the use of COVID-19 waste in bituminous concrete.

The COVID-19 pandemic has resulted in unprecedented growth in the production and disposal of PPEs, face masks, gloves, face shields, and disinfectants. Daily consumption of masks and PPE has increased the plastic load on the municipality and very few plastics are taken to the recycling during the complete shut down during Covid-19. Plastic pollution is already a matter of concern that is increasing due to the negligence of humans. COVID-19 health crisis puts extra pressure on the regular waste management systems as increased daily consumption of single-use plastics around the world. It leads to the inappropriate management of waste; including mobile incineration, direct land-filling, and local burning of the waste. As the PPE kits and gowns are made of polypropylene plastic, they are non-biodegradable like any other plastics. Incineration and land-filling of plastics do not help them to degrade, even if it increases the number of pollutants in the form of microparticles. In this paper, we discussed the research procedures to utilize the waste plastic specifically Covid-19 waste which is received from the health care clinics in Bituminous concrete for the construction of flexible roads. The main objective of the study was to investigate the effectiveness of the bituminous mix modified with Polypropylene gowns waste and to compare it with the conventional bituminous mix. This research concentrated on the Maximum Stability and Flow Value of the asphalt mixture with the waste. The measurements of the Plastic of 10%, 12.5%, 15%, 17.5 %, and 20% were utilized as substitutions for the bitumen binder in the mix. From the experimental investigation, it is concluded that the optimum bitumen content is found at 10% Plastic waste with 6.5 bitumen content. Bitumen properties also increase with the addition of PPE waste.