Simultaneous Biological Nutrient Removal: Evaluation of Autotrophic Denitrification, Heterotrophic Nitrification, and Biological Phosphorus Removal in Full-Scale Systems
Autor: | Robert A. Cowan, Helen X. Littleton, Peter F. Strom, Glen T. Daigger |
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Rok vydání: | 2003 |
Předmět: |
Denitrification
Ecological Modeling Microorganism Environmental engineering Phosphorus Biology Nitrification Waste Disposal Fluid Pollution Anoxic waters Phosphorus metabolism Bioreactors Enhanced biological phosphorus removal Environmental chemistry Environmental Chemistry Sewage treatment Waste Management and Disposal Water Science and Technology Waste disposal |
Zdroj: | Water Environment Research. 75:138-150 |
ISSN: | 1061-4303 |
DOI: | 10.2175/106143003x140926 |
Popis: | Simultaneous biological nutrient removal (SBNR) is the biological removal of nitrogen and phosphorus in excess of that required for biomass synthesis in a biological wastewater treatment system without defined anaerobic or anoxic zones. Evidence is growing that significant SBNR can occur in many systems, including the aerobic zone of systems already configured for biological nutrient removal. Although SBNR systems offer several potential advantages, they cannot be fully realized until the mechanisms responsible for SBNR are better understood. Consequently, a research program was initiated with the basic hypothesis that three mechanisms might be responsible for SBNR: the reactor macroenvironment, the floc microenvironment, and novel microorganisms. Previously, the nutrient removal capabilities of seven full-scale, staged, closed-loop bioreactors known as Orbal oxidation ditches were evaluated. Chemical analysis and microbiological observations suggested that SBNR occurred in these systems. Three of these plants were further examined in this research to evaluate the importance of novel microorganisms, especially for nitrogen removal. A screening tool was developed to determine the relative significance of the activities of microorganisms capable of autotrophic denitrification and heterotrophic nitrification-aerobic denitrification in biological nutrient removal systems. The results indicated that novel microorganisms were not substantial contributors to SBNR in the plants studied. Phosphorus metabolism (anaerobic release, aerobic uptake) was also tested in one of the plants. Activity within the mixed liquor that was consistent with current theories for phosphorus-accumulating organisms (PAOs) was observed. Along with other observations, this suggests the presence of PAOs in the facilities studied. |
Databáze: | OpenAIRE |
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