Evaluation of a lab-scale tidal flow constructed wetland performance: Oxygen transfer capacity, organic matter and ammonium removal

Abstract

Oxygen transfer capacity and removal of ammonium and organic matter were investigated in this study to evaluate the performance of a lab-scale tidal flow constructed wetland. Average oxygen supply under tidal operation (350 g m −2 d −1) was much higher than in conventional constructed wetlands (<100 g m −2 d −1), resulting in enhanced removal of BOD 5 and NH 4 +. Theoretical oxygen demand from BOD 5 removal and nitrification was approximately matched by the measured oxygen supply, which indicated aerobic consumption of BOD 5 and NH 4 + under tidal operation. When BOD 5 removal increased from 148 g m −2 d −1 to 294 g m −2 d −1, neither exhausted oxygen from the aggregate matrix during feeding period (111 g m −2 d −1) nor effluent dissolved oxygen (DO) concentration (2.8 mg/L) changed significantly, demonstrating that the oxygen transfer potential of the treatment system had not been exceeded. However, even though DO had not been exhausted, inhibition of nitrification was observed under high BOD loading. The loss of nitrification was attributed to excessive heterotrophic biofilm growth believed to induce oxygen transfer limitations or oxygen competition in thickened biofilms.