Evaluation of the antimicrobial activity of synthetic and natural phenolic type antioxidants in biodiesel fuel

Abstract

The aim of this study was to investigate the effect of phenolic type antioxidants on the microbial stability of biodiesel fuel along with their relative efficiency to enhance the oxidation and storage stability. Ten commercially available phenolic compounds either of synthetic or natural origin were added separately at concentrations of 1000, 200 and 50mg/kg in two types of fatty acid methyl esters (FAME) from different source materials, namely soybean oil and pomace olive oil. A selection of the treated FAMEs were also blended with Ultra Low Sulfur Diesel (ULSD) fuel at a concentration of 7% v/v in order to examine the activity of these substances in the final blend. The antimicrobial properties of the phenolic antioxidants were assessed by employing two different methodologies. At first the treated FAMEs and biodiesel blends were examined by detecting their inhibitory potential against the growth of a gram-positive bacterium. Secondly, the ability of the phenolic compounds to suppress bottoms-water microbial activity when added at 1000mg/kg was assessed, by preparing laboratory-scale challenged microcosms and by measuring the alterations in the cellular Adenosine Triphosphate (cATP) concentration throughout a period of one month. The Rancimat method was employed in order to detect alterations of the relative resistance to deterioration in the presence of the phenolic compounds. The results figured that the hydroquinone and catechol derivatives were the most efficient not only in improving the oxidative behaviour but also in inhibiting the microbial activity in the tested fuels and suppressing the active bioburden in contaminated diesel/biodiesel fuel microcosms. Overall, it was shown that some phenolic antioxidants, primarily added to biodiesel to improve the oxidative stability, could simultaneously enhance the microbial stability of the fuel.