Fecha de publicación:
23/12/2024
Fuente: Sustainability - Revista científica (MDPI)
Sustainability, Vol. 16, Pages 11293: LCA and Emergy Approach to Evaluate the Environmental Performance of Plastic Bags from Fossil and Renewable Sources with the Function of Conditioning MSW
Sustainability doi: 10.3390/su162411293
Authors:
Matheus Tavares Lacerda
Marcelo Vitor Fiatkoski
Marcell Mariano Corrêa Maceno
Feni Dalano Roosevelt Agostinho
Michele Rigon Spier
Mariana Kleina
Marcos Augusto Mendes Marques
This study aimed to compare the environmental performance of plastic bags made of three different polymers, considering two product functions: carrying goods and packing municipal solid waste. The three polymers studied were HDPE, LDPE, and thermoplastic starch (TPS). Life cycle assessment and emergy accounting were used to evaluate the environmental performance of each scenario in analysis. To develop this research, eight scenarios were created to represent the customs of use and consumption in the Brazilian population. The LCA results showed that, in general, the scenarios with HDPE plastic bags presented the best environmental performances, while those with TPS presented the worst. The processes that contributed most to these results, representing 70% or more of the environmental impact in each impact category, are related to the use of raw materials, electricity, and water for the manufacture of plastic bags and the treatment in landfills. In other words, the fact that TPS has a mass around six times greater than that of HDPE and two times greater than that of LDPE ends up leaving this type of polymer with the worst environmental performance. In the comparative analysis of scenarios for the same polymer, scenarios that involve the use and reuse of plastic bags present the lowest potential environmental impacts. In contrast, those related to the use and disposal in landfills present the highest possible environmental impacts. The results of emergy accounting showed that the HDPE scenarios had the lowest total emergy flow, ranging from 1.77 × 1013 seJ to 2.40 × 1013 seJ. In contrast, the LDPE scenarios had the highest total emergy flow, ranging from 1.15 × 1014 to 1.21 × 1014 seJ. Although LDPE had the highest total emergy flow values, these results are similar to those obtained by the fossil resource scarcity impact category, which focuses on resource consumption analysis. Thus, through a real approach to the use of plastic bags and solid waste management in the Brazilian context, this study brings essential insights to direct public policies related to the consumption of plastic bags.
