The synergistic effects of dissolved oxygen and pH on N2O production in biological domestic wastewater treatment under nitrifying conditions

Nitrous oxide (N2O) is a potent greenhouse gas, which is produced during nitrifying and denitrifying processes. Some factors and mechanisms affecting N2O emission have been reported in previous literature, but wastewater biological nitrification is accompanied by a dynamic process of dissolved oxygen (DO) consumption and pH reduction, it is more meaningful to study the synergistic effects between DO and pH on N2O production. In this study, the synergistic effects between DO and pH on N2O production were investigated with real domestic wastewater. The results showed that high DO levels and a high pH could improve the oxidation ratio of [GRAPHICS] and the production ratio of [GRAPHICS] while effectively reducing the accumulation ratio of N2O. The [GRAPHICS] was a prerequisite for nitrifier denitrification; when [GRAPHICS] was oxidized completely, there would be no N2O production and an even higher concentration of [GRAPHICS] The pH factor is shown to directly affect N2O emission, although free ammonia and free nitrous acid which changed with pH had no correlation with N2O emission. There were two reasons: (1) pH can influence the flow direction of electrons afforded by NH2OH oxidation; at high pH, electrons were mainly used for combining H+ and O-2 (O-2 + 4H(+) + 4e(-) = 2H(2)O), the accumulation of [GRAPHICS] cannot be a result of denitrification, and a higher DO can get more electrons to prefer [GRAPHICS] and (2) [GRAPHICS] was the prerequisite for NH2OH oxidation, since NH2OH oxidation process was the way to provide electrons for nitrifier denitrification.