CHANGGuo-song,YUJing-jie,WANGShao-po,et al.Effect of Internal Recirculation Frequency on Denitrifying Phosphorus Removal in Oxidation Ditch[J].China Water & Wastewater,2022,38(21):12-19.
内循环频次对氧化沟反硝化除磷的影响
- Title:
- Effect of Internal Recirculation Frequency on Denitrifying Phosphorus Removal in Oxidation Ditch
- Keywords:
- oxidation ditch; internal recirculation frequency; aerobic phosphorus removal; denitrifying phosphorus removal; extracellular polymers
- 摘要:
- 以环状廊道前设置厌氧区、环状廊道内设置缺氧区和好氧区的改良氧化沟为研究对象,通过测定反硝化聚磷菌占总聚磷菌的比例(DPAOs/PAOs)以及水相和泥相的含磷量,对系统中的磷进行质量平衡分析,考察环状廊道内混合液的内循环频次(单位时间内混合液在环状廊道内循环流动的圈数,IRF)在0.52~18.74 圈/h范围变化时对系统中污染物去除和磷转化途径的影响。结果表明,当IRF≤1.62 圈/h时,有利于将更多的磷储存在细胞内形成胞内多聚磷酸盐;当IRF在3.36~7.53 圈/h之间时,有利于反硝化除磷,且系统可获得较好的同步脱氮除磷效果,此时DPAOs/PAOs可达50%左右,COD、TN、TP的平均去除率分别可达到92%、80%和93%以上;当IRF≥11.35圈/h时,TN去除效果不佳,无法实现高效同步脱氮除磷。
- Abstract:
- The phosphorus mass balance in a modified oxidation ditch (OD) with anaerobic zone in front of the circular corridor and anoxic and aerobic zones in the circular corridor was analyzed by determining the proportion of denitrifying phosphorus accumulating bacteria in the total phosphorus accumulating bacteria (DPAOs/PAOs) and the phosphorus concentration in wastewater and sludge. The effects of the internal recirculation frequency (cycles number of mixed liquor circulating in circular corridor per unit time, IRF) of the mixed liquor in the circular corridor on pollutants removal and phosphorus conversion pathways were investigated when the IRF varied from 0.52 circles/h to 18.74 circles/h. When IRF was not more than 1.62 circles/h, it was beneficial to store more phosphorus in cells to form intracellular polyphosphates. When IRF was between 3.36 circles/h and 7.53 circles/h, it was conducive to denitrifying phosphorus removal, and the system achieved better simultaneous nitrogen and phosphorus removal performance. In addition, the ratio of DPAOs to PAOs was approximately 50%, and the average removal rates of COD, TN and TP reached above 92%, 80% and 93%, respectively. When IRF was not less than 11.35 circles/h, the TN removal performance was not good, and it was not conducive to efficient simultaneous nitrogen and phosphorus removal.
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