Effect of Dissolved Oxygen on Biological Nutrient Removal by Denitrifying Phosphorus‐Accumulating Organisms in a Continuous‐Flow System

Abstract

A laboratory‐scale continuous‐flow system with an anaerobic/anoxic/aerobic configuration was set up to study the effect of oxygen in the internal recycle stream; of particular interest was its performance of denitrifying phosphorus‐accumulating organisms (DPAOs). It was found that, by using a degas device, the dissolved oxygen in the nitrate recycle stream was effectively decreased from 0.1±0.02 to 0.01±0.01 mg/L. This provided a favorable condition for DPAOs to grow under an anoxic condition and thus be sustained successfully in the system. When the degas device was removed from the system, the dissolved oxygen concentration in the anoxic reactor increased to 0.1±0.02 mg/L. The proliferation of the denitrifying glycogen‐accumulating organisms (DGAOs) population and deterioration of DPAOs performance was observed. The increased population of DGAO/GAOs, which competed for the carbon source with DPAO/PAOs, resulted in a poor performance of biological phosphorus removal.