Valorisation of low-density polythene (LDPE) waste into fuels and chemicals through alkane hydroxylase and microbial treatment

Abstract

Polythene exhibits low reactivity and slow biodegradability due to its highly reduced hydrocarbon structure. In this study, a process has been developed for the transformation of polythene waste into fuel and its precursor molecule by microbial and enzymatic treatments. In first step polythene was pretreated with Paenibacillus alvei. Through fermentation process for 15 days and products released after fermentation were subsequently bio-transformed into alcohols and acids corresponding to its hydrocarbons, employing Alkane hydroxylase (AlkB). On fermentation using Paenibacillus alvei, 16.8% weight loss was observed after 15 days and surface modification was analyzed through AFM and SEM. The major products released during microbial pretreatment analyzed through Chromatography–High-Resolution Mass Spectrometry (GC-HRMS) were pentane, hexane, heptadecane, dodecane, tetracontane, bromotetradecane, methyl esters, hexadecane, etc. which were converted in second step into hexadecanol, octadecanol, octadecanoic acid, and heptadecanoic acid, etc. with the help of Alkane hydroxylase on enzymatic transformation. These findings suggested that the microbial pretreatment results in a release of alkanes, some fatty acids, and esters using Paenibacillus alvei Among these, AlkB facilitated the transformation of C16 and C15 hydrocarbons into hexadecanol, and pentadecanol respectively. This process holds the potential as an alternative to traditional fuels, and an optimization process can be pursued to enhance the overall yield.