Low-temperature limitation of bioreactor sludge in anaerobic treatment of domestic wastewater

Two strategies exist for seeding low-temperature anaerobic reactors: the use of specialist psychrophilic biomass or mesophilic bioreactor sludge acclimated to low temperature. We sought to determine the low-temperature limitation of anaerobic sludge from a bioreactor acclimated to UK temperatures (< 15 degrees C). Anaerobic incubation tests using low-strength real domestic wastewater (DWW) and various alternative soluble COD sources were conducted at 4, 8 and 15 degrees C; methanogenesis and acidogenesis were monitored separately. Production of methane and acetate was observed; decreasing temperature resulted in decreased yields and increased 'start-up' times. At 4 degrees C methanogenesis not hydrolysis/acidogenesis was rate-limiting. The final methane yields at 4 degrees C were less than 35% of the theoretical potential whilst at 8 and 15 degrees C more than 75 and 100% of the theoretical yield was achieved respectively. We propose that the lower temperature limit for DWW treatment with anaerobic bioreactor sludge lies between 8 and 4 degrees C and that 8 degrees C is the threshold for reliable operation.