Effective removal of phosphorus from sewage using a modified biological method
Subject Areas : Water and EnvironmentFeyzollah Paserh 1 , S. Mahdi Borghei 2 , seyyed nezameddin hosseini 3 , Amirhossein Javid 4
1 - - Ph.D. of Environmental Engineering, Department of Environmental Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran.
2 - Full Professor, Department of Chemical and Petroleum Engineering, Sharif University of Technology, Tehran, Iran
3 - - Associate Professor of Research Institute of Pasteur Institute of Iran, Tehran, Iran*(Corresponding Authers).
4 - Associate Professor of Science and Research, Faculty of Environment and Energy, Tehran, Iran
Keywords: Phosphorus, modified Bardenpho, sewage, biological Remove,
Abstract :
Abstract Background and Objective: Proper management of sewage is one of the most important environmental issues, organic matter and nutrients, including phosphorus compounds, are the potential pollutants of the receiving waters. Release of phosphorus from municipal wastewater treatment plant effluent to the environment is one of the main reasons for the phenomenon of the Eutrophication. Therefore, the aim of this study was to determine the amount of nutrients and organic matter in wastewater of Yasouj city and efficient removal of nutrients such as total phosphorus by modified Bardenpho system. Method: This is a cross-sectional study. The sampling method as Composite Sampling and study population was samples of treatment system input (after screening system) and output of treatment system (after sedimentation). In order to identify of affecting factors on phosphorus removal use of modified Bardenpho pilot. The amount of nitrate, total phosphate, COD and BOD5 removal for 9 months was evaluated. The collected data were analyzed by using SPSS software (version 16). Findings: According to the results, the average of input COD in system (674.55±228.54), input phosphorous (21.26±4.8), input nitrate (25.91±19.63), input BOD (378/33±106/66) mg per liter and the input pH (7.22±0.35). There is a significant Relationship between the input COD and percentage of phosphorus removal (P.value=0/004), but there is not significant relationship between the pH input and phosphorus removal percentage (P.value=0.339). Most phosphorus removal was observed in Solids Retention Time (SRT) of 15 days (69.72%). Internal recycle of 200 percent (68/96%) showed the highest percentage of phosphorous removal. Discussion and Conclusion: According to obtained information, the optimum conditions for phosphorus removal showed SRT =15, HRT =0/5-1 in anaerobic tank, the internal recycle percentage of 200%, recycled activated sludge (75%) and keep the DO =2-3. Therefore, for removal of phosphorus addition of physical and chemical methods can use of modified biological processes. In this systems, by replacing of an anaerobic stage at the beginning of the process, improve phosphorus removal. This method can be a good alternative to treatment plants with activated sludge system.
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