@misc{Muthyapaga2025, type = {Master Thesis}, author = {Muthyapaga, Sujit Kumar}, title = {Enhancing Plastic Degradation in Anaerobic Environments Using Biodigesters and qualitative quantitative analysis of biogas.}, school = {Hochschule Rhein-Waal}, year = {2025}, abstract = {Plastic pollution has been one of the significant challenges worldwide. We must develop innovations and recycling technologies with millions of tons of plastic produced annuallyThe amount of plastic waste in landfills, seas, and ecosystems has been seriously degrading the environment. New innovative ideas for reducing plastic waste, such as biodigesters and composting methods, are being utilized worldwide. This research examines options such as anaerobic biodigesters and composting techniques to improve plastic breakdown in controlled atmosphere conditions. In anaerobic digestion, digestion happens with the help of microbial organisms as they help break down the organic materials without oxygen and break down the plastics, simultaneously generating renewable energy resources. This research evaluates polymers developed through a blown film extrusion process at different temperatures, such as Polylactic Acid (PLA), Polybutylene Adipate Terephthalate (PBAT), Polyhydroxybutyrate-co-hydroxy hexanoate(PHBH), Bioplast GF 106, and Ecovio, under anaerobic conditions. The degradation results of polymers after a specific period were analyzed based on their mechanical and chemical properties. The research aimed to assess the rates and effectiveness of plastic decomposition in biodigesters compared to conventional degradation methods while also exploring the viability and scalability of biodigesters for managing plastic waste. This research provides information on the degradation of polymers under anaerobic conditions and how the temperature produced affects their degradation, along with methane production. This information could inform future strategies and regulations focused on decreasing plastic pollution and improving sustainability.}, language = {en} }