Microbial electrochemical degradation of lipids for promoting methane production in anaerobic digestion

In order to solve problems of low methane production from lipids in anaerobic digestion, microbial electro-chemical degradation was proposed to promote methane yield of glycerol trioleate (a typical lipid component of food waste). The beta-oxidation of lipids was strengthened with an applied voltage to promote electron transfer and anaerobic digestion. SEM images showed that a lot of spherical and rod-shaped microbes adhered to elec-trode surfaces. Cyclic voltammetry showed that electron transfer rate constant at 0.8 V was 14.4-fold that at 0 V. Three-dimensional fluorescence spectroscopy showed that small organic degraded molecules were used more efficiently in anaerobic digestion. The methane yield of glycerol trioleate increased to 791.6 mL/g-TVS (at 0.8 V), while methane production peak rate increased to 26.8 mL/g-TVS/d with a shortened peak time to 24th day. The overall energy conversion efficiency in methane production increased from 53.6 to 60.1% due to microbial electrochemical degradation of lipids.

Automated summary

Microbial electro-chemical degradation was proposed to enhance methane production from lipids in anaerobic digestion. Applying a voltage strengthened the beta-oxidation of lipids, promoting electron transfer and methane yield. The overall energy conversion efficiency in methane production increased due to microbial electrochemical degradation of lipids.