Abstract

Low carbon and phosphorus concentrations were controlled to investigate their influences on nitrogen removal in activated sludge reactors. Results demonstrated that when the initial COD/NH 4 +-N (C/N) ratio was adjusted to 4/1, NH 4 +-N removal efficiency achieved the maximum value of 93.0%. With the rising of C/N ratio, total nitrogen (TN) removal efficiencies increased gradually while NH 4 +-N removal efficiencies had slight downward trend. When the C/N ratio was 10/1, TN removal efficiency in the system reached the maximum value of 64.2% comparing to those at C/N ratios of 8/1, 6/1 and 4/1. However, TN removal efficiencies decreased with the reduction of total phosphorus concentration in the influent at constant C/N ratio. When the C/P ratio varied from 100/1 to 100/0.6, TN removal efficiencies declined a little. When the C/P ratio decreased to 100/0.4, TN removal efficiencies reduced dramatically. In general, low carbon level had little impact on NH 4 +-N removal efficiency, just adverse to total nitrogen removal efficiency which was low at C/N ratio of 4/1. Low phosphorus concentration had a significant negative effect on NH 4 +-N and total nitrogen removal efficiency. Low phosphorus concentration had significant negative effect on NH 4 +-N and total nitrogen removal efficiency which even resulted in sludge bulking.

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