Performance of simultaneous carbon and nitrogen removal of high-salinity wastewater in heterotrophic nitrification-aerobic denitrification mode

In this work, heterotrophic nitrification-aerobic denitrification (HN-AD) mode was successfully established after a 105-day acclimation in a sequencing batch reactor (SBR) system using mustard tuber wastewater (MTWW) as substrate. The performance of simultaneous carbon and nitrogen removal (SCNR) was investigated using manual wastewater within the salinity from 1% to 6%. Results indicate that high salinity caused little effect on carbon removal, while it brought a significant influence on nitrogen removal. At the salinity of 1% and 3%, the heterotrophic nitrification rates were 2.83 and 3.96-fold of those of the autotrophic nitrification, respectively. As the salinity was up to 6%, the autotrophic nitrification was significantly inhibited, while the anoxic denitrification was slightly affected and the aerobic denitrification became dominant. The analysis on microbial community structure of the acclimated wastewater sludge reveals that the genera with autotrophic nitrification were gradually eliminated with an increasing salinity during the acclimation. Paracoccus, Pseudomonas, Alcaligenes and Bacillus were the dominant genera related to HN-AD process. The optimal operation parameters for SCNR were investigated, including C/N ratio (25), DO concentration (6 mg/L) and temperature (35 °C). This work provides an insight into the migration of nitrogen removal pathway and the succession of HN-AD microbial community in the process of high-salt wastewater biotreatment.