Effects of alkalinity addition with different strategies on CANON process: Start‐up, performance, and microbial community: Fid-Bau Portal

Effects of alkalinity addition with different strategies on CANON process: Start‐up, performance, and microbial community

Liu, Guangqing / Zhou, Xiaohua / Liang, Huili / Han, Liming / Qiao, Zhuangming / Su, Bensheng

Abstract

The effects of alkalinity addition with different strategies on the start‐up, performance, and microbial community of completely autotrophic nitrogen removal over nitrite (CANON) were investigated over 450 days. In phase I, the alkalinity was increased gradually from 300 to 2,000 mg/L to obtain the optimal range. In phase II, the reactor was restarted to verify the appropriate alkalinity value of 1,600 mg/L. The fact that it only took 90 days (phase I: 170 days) to complete the start‐up of CANON in phase II demonstrated that an alkalinity value of 1,600 mg/L was suitable when the influent NH₄⁺‐N concentration was 200 mg/L (alkalinity/NH₄⁺‐N = 8:1). The slope (k = 2.00) of NH₄⁺‐N concentration decrease in phase II during the start‐up process was significantly higher than that in phase I (k = 1.50). High removal efficiencies of NH₄⁺‐N (98%) and TN (80%) were attained in both phases. Specific anaerobic ammonium oxidation (anammox) activity tests showed that the anammox activity of the two phases reached 3.31 and 5.31 mg TN/(g VSS·h), respectively. High‐throughput sequencing analysis revealed that appropriate alkalinity could promote the enrichment of Candidatus Brocadia, C. Jettenia, and C. Kuenenia (total abundance of 31.96%) while effectively inhibiting Nitrospira (abundance of less than 0.50%).

An alkalinity/NH₄⁺‐N ratio of 8 promoted the rapid start‐up and stable performance of CANON. NH₄⁺‐N and TN removal efficiencies of 98% and 80%, respectively, were obtained. High alkalinity promoted the enrichment of Candidatus Brocadia, Candidatus Jettenia, Candidatus Kuenenia and inhibited Nitrospira.