Biodegradability and methane productivity during anaerobic co-digestion of refractory leachate

Mature landfill leachate was anaerobically co-digested with synthetic wastewater to evaluate the degradability and methane productivity in various mixing ratios. The proportion of leachate was increased in three equal steps from 0% to 100%, and then decreased again through the same steps back to 0%. Both COD removal efficiency and methane production decreased as the leachate proportion in the influent was increased. When the influent contained 100% leachate, and when 33% synthetic wastewater was reintroduced, methane production was suppressed relative to COD removal. During the same phases, NH4+ accumulated, suggesting an excess of NH4+ mineralization versus uptake. After 100% leachate was supplied, methane yield decreased to near zero, and the production of methane remained suppressed relative to COD reduction even as more synthetic wastewater was reintroduced, until 100% synthetic wastewater was resupplied. This decline in methane yield might be caused by deterioration of methanogenic bacterial activity following treatment of 100% leachate.

► Mature leachate was co-digested with synthetic wastewater in various proportions.
► The degradability and methane productivity of each substrate was evaluated.
► A source of labile matter was required to maintain the methanogenesis potential.
► Both refractory and labile substrates were consumed after 100% leachate was supplied.
► After the 100% leachate phase, methane yield decreased and NH4+ was produced.