Interpreting the effect of increasing COD loading rates on the performance of a pre-anoxic MBBR system: implications on the attached and suspended biomass dynamics and nitrification-denitrification activity.

Abstract

A pre-anoxic MBBR system was subjected to increasing organic loading rates up to 18gCOD/(m(2)day). At 3gCOD/(m(2)day), most of the incoming organic matter was removed via denitrification. However, at higher loads, anoxic COD removal became limited by the nitrite/nitrate supply from the aerobic reactor, which assumed an important role in this conversion. Despite the application of low dissolved oxygen (DO) levels (<2mg/L) in this tank, nitrification was observed to be nearly complete until 8gCOD/(m(2)day). As the organic input was increased, the maximum specific nitrifying activity gradually declined. Activity tests suggested that an oxygen-limited environment was established in the biofilm. At lower loads [3-8gCOD/(m(2)day)], the nitrification product obtained was affected by the DO concentration, whereas from 16 to 21gCOD/(m(2)day), nitrite/nitrate profiles were likely associated with microbial stratification in the biofilm. The results also indicated that the role of the suspended biomass in the overall nitrification and denitrification can be very significant in high loaded MBBRs and should not be neglected, even at low HRTs.