Project description:strategy to alleviate ammonia inhibition in anaerobic digestion

Project description:By means of semi-continuous experiment, the washout effect of incoming and outgoing materials and long-term accumulation of endogenous ammonia in actual anaerobic digestion plant were simulated, and the ammonia inhibition mechanism in anaerobic digestion was explored.

Project description:Species in conductive materials supplemented anaerobic digestion

Project description:Studying stability of anaerobic digestion under NaCl disturbances

Project description:Phenol inhibition on anaerobic digestion

Project description:Mitigation of anaerobic digestion inhibitions with support media

Project description:Effect of different conductive materials on anaerobic digestion (archaea)

Project description:anaerobic digestion of WAS under ammonia stress and conductive materials

Project description:anaerobic digestion of glucose under ammonia stress and conductive materials

Project description:Anaerobic digestion is a popular and effective microbial process for waste treatment. The performance of anaerobic digestion processes is contingent on the balance of the microbial food web in utilizing various substrates. Recently, co-digestion, i.e., supplementing the primary substrate with an organic-rich co-substrate has been exploited to improve waste treatment efficiency. Yet the potential effects of elevated organic loading on microbial functional gene community remains elusive. In this study, functional gene array (GeoChip 5.0) was used to assess the response of microbial community to the addition of poultry waste in anaerobic digesters treating dairy manure. Consistent with 16S rRNA gene sequences data, GeoChip data showed that microbial community compositions were significantly shifted in favor of copiotrophic populations by co-digestion, as taxa with higher rRNA gene copy number such as Bacilli were enriched. The acetoclastic methanogen Methanosarcina was also enriched, while Methanosaeta was unaltered but more abundant than Methanosarcina throughout the study period. The microbial functional diversity involved in anaerobic digestion were also increased under co-digestion.