Effect of cascade biological pretreatment of raw water with algae on conventional water treatment process

G. Zhu, Chaowen Fan, Yue Zhou, Xiwu Lu
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Abstract

A cascade biological pretreatment reactor(CBPR) was used to improve the removal rates of ammonia, small molecule organic compounds and microcystins from eutrophic raw water. The pilot-scale installation was run continually based on the conventional water treatment process(CWTP) and the process combined with biological pretreatment(BPTP). The effluents of each reactor were analyzed. The results show that CBPR removes more than 75% of ammonia and helps to increase the DOC removal rate from 30.3% to 49.2% in the coagulation-sedimentation reactor. Compared with CWTP, the removal rates of extracellular microcystin-LR and total microcystin-LR are increased 47.4% and 43.1% in BPTP, respectively. The CBPR removes effectively small particles with diameter less than 5µm and increases big particles with diameter more than 7µm, which enhances the particles removal in coagulation-sedimentation and filtration reactors. The CBPR degrades effectively small molecular organic compounds, decomposes big molecular organic compounds into small ones and promotes the removal of medium molecular organic compounds by CWTP.
藻类级联生物预处理原水对常规水处理工艺的影响
采用级联生物预处理反应器(CBPR)提高了富营养化原水中氨、小分子有机物和微囊藻毒素的去除率。在常规水处理工艺(CWTP)和生物预处理工艺(BPTP)的基础上,进行了中试装置的连续运行。对各反应器的出水进行了分析。结果表明,在混凝沉淀反应器中,CBPR对氨氮的去除率达75%以上,并将DOC去除率从30.3%提高到49.2%。与CWTP相比,BPTP对胞外微囊藻毒素lr和总微囊藻毒素lr的去除率分别提高了47.4%和43.1%。CBPR对粒径小于5µm的小颗粒有较好的去除效果,对粒径大于7µm的大颗粒有较好的去除效果,增强了混凝沉降和过滤反应器的颗粒去除效果。CBPR能有效降解小分子有机化合物,将大分子有机化合物分解成小分子有机化合物,促进CWTP对中分子有机化合物的去除。
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