The nitrogen removal and sludge reduction performance of a multi‐stage anoxic/oxic (A/O) biofilm reactor

Abstract: To overcome the problems of high excess sludge yield and poor nitrogen removal efficiency in traditional biological treatment processes, a multi-stage A/O biofilm reactor was developed by combining the multi-stage A/O process with novel floating spherical carriers, resulting in repeated coupling of anoxic and aerobic environments. Results showed that the system achieved COD, NH + 4 − N, and TN removal efficiencies of 93.8%, 84.5%, and 75.7%, respectively, with average effluent concentrations lower than: 29.8 C… Show more

“…In the study by Song et al [30], with a waste activated sludge concentration of 12.9 g/L, electrolysis time of 30 min, and 5 W electric power, the electrochemical pretreatment could remove 2.75% of volatile solids (VS) and 7.87% of volatile suspended solids (VSS). Although the application of electrochemical treatment for sludge reduction has currently been gradually increased, there are few studies combining electrochemical sludge treatment with existing wastewater treatment processes, for instance, the A/O process, which has a number of merits such as high efficiency in ammonium removal and pollutant degradation, high loading volume, simple for operation as well as low investment and operating costs [32][33][34][35].…”

Effect of on-Site Sludge Reduction and Wastewater Treatment Based on Electrochemical-A/O Combined Process

“…In the study by Song et al [30], with a waste activated sludge concentration of 12.9 g/L, electrolysis time of 30 min, and 5 W electric power, the electrochemical pretreatment could remove 2.75% of volatile solids (VS) and 7.87% of volatile suspended solids (VSS). Although the application of electrochemical treatment for sludge reduction has currently been gradually increased, there are few studies combining electrochemical sludge treatment with existing wastewater treatment processes, for instance, the A/O process, which has a number of merits such as high efficiency in ammonium removal and pollutant degradation, high loading volume, simple for operation as well as low investment and operating costs [32][33][34][35].…”

Effect of on-Site Sludge Reduction and Wastewater Treatment Based on Electrochemical-A/O Combined Process

Microbial community and function evaluation in the start-up period of bioaugmented SBR fed with aniline wastewater

Nitrogen removal from low COD/N interflow using a hybrid activated sludge membrane-aerated biofilm reactor (H-MABR)