%0 Journal Article
%T A Review of the Life Cycle Analysis for Plastic Waste Pyrolysis
%A Dounmene Tadida Lhami Arielle
%A Wafula Gerald Nalume
%A Youwene Gilbert
%J Open Journal of Polymer Chemistry
%P 113-145
%@ 2165-6711
%D 2024
%I Scientific Research Publishing
%R 10.4236/ojpchem.2024.143006
%X Pyrolysis is a rapidly expanding chemical-based recyclable method that complements physical recycling. It avoids improper disposal of post-consumer polymers and mitigates the ecological problems linked to the production of new plastic. Nevertheless, while there is a consensus that pyrolysis might be a crucial technology in the years to come, more discussions are needed to address the challenges related to scaling up, the long-term sustainability of the process, and additional variables essential to the advancement of the green economy. Herein, it emphasizes knowledge gaps and methodological issues in current Life Cycle Assessment (LCA), underlining the need for standardized techniques and updated data to support robust decision-making for adopting pyrolysis technologies in waste management strategies. For this purpose, this study reviews the LCAs of pyrolytic processes, encompassing the complete life cycle, from feedstock collection to end-product distribution, including elements such as energy consumption, greenhouse gas emissions, and waste creation. Hence, we evaluate diverse pyrolysis processes, including slow, rapid, and catalytic pyrolysis, emphasizing their distinct efficiency and environmental footprints. Furthermore, we evaluate the impact of feedstock composition, process parameters, and scale of operation on the overall sustainability of pyrolysis-based plastic waste treatment by integrating results from current literature and identifying essential research needs. Therefore, this paper argues that existing LCA studies need more coherence and accuracy. It follows a thorough evaluation of previous research and suggests new insights into methodologies and restrictions.
%K Plastics
%K Thermal Recycling
%K Carbon Dioxide Emissions
%K Life Cycle Evaluation
%K Pyrolysis
%U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=134305