Effects of intermittent aeration on nitrogen-removal capability of biological contact oxidation remediation system for micro-polluted source water

XU Jing1,ZHU Liang1,DING Wei1,FENG Li-juan1,XU Xiang-yang1,2,3(1Department of Environmental Engineering,Zhejiang University,Hangzhou 310029,China;2ZJU-UWA Joint Centre in Integrated Water Management and Protection,Hangzhou 310029,China;3Ministry of Agriculture Key Laboratory of Non-point Source Pollution Control,Hangzhou 310029,China)

micro-polluted source water;biofilm;intermittent aeration;shortcut nitrification-denitrification

Aiming at the carbon source limitation of denitrification in oligotrophic habitat,this paper studied the effects of intermittent aeration on the nitrogen-removal capability of biological contact oxidation remediation system for micro-polluted source water,and approached the feasibility and process mechanism of shortcut nitrification and denitrification in the system.Under the condition of 8 h-1 6 h anoxic-aerobic phase(Ⅰ),the remediation system performed stably,and its average removal efficiency of ammonium(NH4+-N),permanganate index(CODMn),and total nitrogen(TN) was 93.0%,78.1%,and 19.4%,respectively.Under the condition of 16 h-8 h anoxic-aerobic phase(Ⅱ),the NH4+-N and CODMn removal efficiency still maintained at 81.2% and 76.4%,respectively,the accumulation of nitrite(NO2--N) was significant,and the removal efficiency of TN reached more than 50%.The nitrogen transformation characteristics in the system during a cycle under condition Ⅱ demonstrated that at the prerequisite of effluent NH4+-N and DO concentrations reaching the standards,shortening aerobic phase length could maintain the DO concentration at 0.5-1.5 mg·L-1 in a long term,inhibit the growth and activity of nitrite-oxidizing bacteria,and thereby,NO2--N had an obvious accumulation,and the nitrogen removal via shortcut nitrification-denitrification in the biological contact oxidation remediation system for micro-polluted source water was finally achieved.