Inhibitory Effects of Phenolic Monomers on Methanogenesis in Anaerobic Digestion.

ABSTRACT

Aims: The purpose of this study was to evaluate the inhibitory effects of phenolic monomers on methanogenesis in anaerobic digestion and to assess the effect of hydroxyl groups’ number of phenolic monomers (aromatic structure) on inhibition of methane production by acetoclastic methanogens (archaea). Study Design: Anaerobic digestion of pig manure, anaerobic toxicity essay, The effect of the hydroxyl group’s number on the methanogenic toxicity as exhibited by monomeric tannins, Correlation of the methanogenic toxicity (IC50) with aromatic compounds hydrophobicity (logPoct), Correlation of the methanogenic toxicity (IC50) with Cresols boiling point (bp). Place and Duration of Study Department of Chemistry, University of Kinshasa (DR Congo), between September 2011 and May 2012. Methodology: The toxicity to acetoclastic methanogenic bacteria was performed with the standard method of serum bottles; digested pig manure was utilized as inoculums and acetate as substrate. The methane gas volume produced was measured by serum bottles liquid displacement systems (Mariotte flask system). Results: The results of this study indicate that an increase in the number of hydroxyl groups on the aromatic compound was associated with a decrease in the compound’s toxicity to methanogens (archea). The toxicity of various phenolic monomers are decreasing in the following order pyrogallol < hydroquinone < resorcinol < phenol < benzene with 3172, 2745, 1725, 1249 and 209 mg/l IC50 values respectively. A significant negative linear correlation between the toxicity of phenolic monomers together with the reference compound (benzene) and their hydrophobicity was found. Moreover, a high positive linear correlation has been found between the IC50 values of phenolic monomers and their boiling temperatures. Conclusion: The obtained results indicate that relationships exist between the phenolic monomers structure and their inhibitory effects in methane biosynthesis. The analysis of experimental results suggests that an increase in the number of hydroxyl groups on the aromatic compounds was associated with a decrease in the phenolic monomers toxicity.