Effects of influent C/N ratio,C/P ratio and volumetric exchange ratio on biological phosphorus removal in UniFed SBR process |
| |
Authors: | Chen‐hong Zhao Yong‐zhen Peng Shu‐ying Wang Akio Takigawa |
| |
Affiliation: | 1. Key Laboratory of Beijing for Water Quality Science and Water Environmental Recovery Engineering, Beijing University of Technology, Pingleyuan 100, Chaoyang District, Beijing 100022,China;2. Department of Civil and Environmental Engineering, Maebashi Institute of Technology, 460‐1,Kamisatory‐cho, Maebashi, Gunma, 371‐0816, Japan |
| |
Abstract: | BACKGROUND: UniFed SBR is a novel process that can achieve high levels of nitrogen and phosphorus removal simultaneously in a simple single SBR tank. In this study, effects of influent C/N ratio, influent C/P ratio and volumetric exchange ratio on biological phosphorus removal in UniFed SBR process were investigated in a lab‐scale UniFed apparatus treating real domestic wastewater. RESULTS: The results showed that phosphorus removal efficiency increased as C/N ratio increased from 27% at 2.8 to 88% at 5.7. For C/N ratios 6.5 and above, complete phosphorus removal could be achieved. When C/N ratios and volumetric exchange ratio were fixed at 6 and 33%, respectively, phosphorus removal efficiency remained at 100% for C/P ratios higher than 33; effluent phosphate concentration was below the detection limit. For C/P ratios lower than 33, phosphorus removal efficiency decreased linearly with C/P ratio. Under the same influent C/N ratio and C/P ratio, the following factors all contributed to better phosphorus removal performance: greater volumetric exchange ratio; more organic substrate for PAOs to utilize, less inhibition by NOx? of phosphorus release during the feed/decant period; more PHB synthesized; and more aerobic phosphate uptake. CONCLUSION: High influent C/N ratio, high C/P ratio and high volumetric exchange ratio were beneficial to phosphorus removal in this process. Copyright © 2008 Society of Chemical Industry |
| |
Keywords: | UniFed SBR process biological phosphorus removal C/N ratio C/P ratio volumetric exchange ratio |
|
|