ELEMENTAL AND THERMOGRAVIMETRIC APPROACH TO ANALYZING THE ENERGY GENERATION POTENTIAL OF RECYCLED PLASTICPAPER COMPOSITES.

Samples of plastic and paper waste were collected and subjected to various procedures including drying, manual sorting, pulverization, and homogenization. The elemental analysis of the samples was conducted following the ASTM D3176-15 standard, revealing that the plastic-paper composite samples had lower carbon and hydrogen content compared to the PL100 plastic benchmark. While thermogravimetric tests were performed on the samples in a thermal analyzer according to the ASTM procedure. Interestingly, the composite samples showed a higher presence of elemental oxygen, except for the sample with 25%wt. of paper. Moreover, sulfur content increased in composite samples with 25% wt., 50% wt., and 75% wt. of paper, while the sample with 100% wt. of paper exhibited a decrease in sulfur content. Combustibility was assessed based on the peak temperature at the maximum weight loss rate, indicating that samples PL100, PL50+PA50, and PL75+PA25 displayed higher combustibility compared to samples PL25+PA95 and PA100. Hence, these samples could be recommended for use as refuse-derived fuel due to their potential for energy recovery. The impact of waste-to-fuel research will be felt in waste reduction (SDG 7), clean energy (SDG 12), climate action (SDG 13), and ecosystem protection (SDG 15). [ABSTRACT FROM AUTHOR]