Feedstock thermal pretreatment selectively steers process stability during the anaerobic digestion of waste activated sludge.

Abstract

Strategies to enhance process performance of anaerobic digestion remain of key importance to promote wider usage of this technology for integrated resource recovery from organic waste streams. Continuous inoculation of the microbial community in the digester via the feedstock could be such a cost-effective strategy. Here, anaerobic digestion of fresh waste activated sludge (WAS) was compared with sterilized WAS in response to two common process disturbances, i.e. organic overloading and increasing levels of salts, to determine the importance of feedstock inoculation. A pulse in the organic loading rate severely impacted process stability of the digesters fed sterile WAS, with a 92 ± 45% decrease in methane production, compared to a 42 ± 31% increase in the digesters fed fresh WAS, relative to methane production before the pulse. Increasing salt pulses did not show a clear difference in process stability between the digesters fed fresh and sterile WAS, and process recovery was obtained even at the highest salt pulse of 25g Na+L-1. Feedstock sterilization through thermal pretreatment strongly impacted the microbial community in the digesters. In conclusion, feedstock thermal pretreatment strongly impacted anaerobic digestion process stability, due to feedstock inoculation and compositional modification.