Performance and microbial community dynamics relationship within a step-feed anoxic/oxic/anoxic/oxic process (SF-A/O/A/O) for coking wastewater treatment

A step-feed anoxic/oxic/anoxic/oxic (SF-A/O/A/O) was developed and successfully applied to full-scale coking wastewater treatment. The performance and microbial community were evaluated and systematically compared with the anoxic/oxic/oxic (A/O/O) process. SF-A/OA/O process exhibited efficient removal of COD, NH 4 + -N, TN, phenols, and cyanide with corresponding average effluent concentrations of 317.9, 1.8, 46.2, 1.1, and 0.2 mg·L −1 , respectively. In particular, the TN removal efficiency of A/O/O process was only 7.8%, with an effluent concentration of 300.6 mg·L −1 . Furthermore, polycyclic aromatic hydrocarbons with high molecular weight were the dominant compounds in raw coking wastewater, which were degraded to a greater extent in SF-A/OA/O. The abundance in Thiobacillus , SM1A02 , and Thauera could be the main reason why SF-A/O/A/O was superior to A/O/O in treating TN. The microbial community structure of SF-A/O/A/O was similar among stages in system (P ≥ 0.05, Welch's t -test) and was less affected by environmental factors, which may have been one of the important factors in the system's strong stability. • SF-A/O/A/O process was successfully applied at full-scale to treat coking wastewater. • Comparing SF-A/O/A/O with A/O/O process on the performance and microbial community. • SF-A/O/A/O process was able to reduce TN by 85.8%, while the A/O/O was only 7.8%. • High molecular weight PAHs were degraded to a greater extent in SF-A/OA/O. • Similar of microbial community may make contribution to the stability of SF-A/O/A/O.