A pilot study on the dual membrane process of ultrafiltration and nanofiltration to treat algae-laden raw water compared to O3-BAC

Journal of Water Supply: Research and Technology-Aqua Pub Date : 2023-02-20 DOI:10.2166/aqua.2023.191

Xingqi Ding, Zhenxun Yu, Huaqiang Chu, D. Wang, Kun Liu, Buyun Wang, Caihuan Tong, B. Dong

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Abstract

In this study, a dual membrane process (DMP) that combines seven-hole ultrafiltration and nanofiltration was designed and compared to O3-biological activated carbon (O3-BAC) for high-quality drinking water production. The pollutant removal, membrane fouling, long-term operational characteristics, and technical economy were systematically investigated using raw water from Tai Lake, which has a high algae content. The results elucidate that the DMP has superb decontamination. This method has much better removal of turbidity, CODMn, UV254, and algae than O3-BAC. Its removal of ammonia nitrogen and fluorescent substances is slightly lower than that of O3-BAC, but the effluent still satisfies the drinking water standard. The DMP is also much more capable of dealing with high algae-laden raw water. Compared to O3-BAC, the cost of the DMP is 46.4% higher per ton without consuming chemicals, so it is more environmentally friendly. In summary, the DMP offers a promising and effective technology to treat high algae-laden water with the advantages of high stability, reliable effluent, and zero emissions.

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超滤/纳滤双膜工艺处理含藻原水与O3-BAC的中试研究

本研究设计了七孔超滤和纳滤相结合的双膜工艺(DMP)，并与o3 -生物活性炭(O3-BAC)进行了比较。以藻类含量高的太湖原水为原料，系统地研究了其污染物去除、膜污染、长期运行特性和技术经济性。结果表明，DMP具有良好的去污性能。与O3-BAC相比，该方法对浊度、CODMn、UV254和藻类的去除效果更好。其对氨氮和荧光物质的去除率略低于O3-BAC，但出水仍满足饮用水标准。DMP也更有能力处理高藻类含量的原水。与O3-BAC相比，DMP在不消耗化学品的情况下，每吨成本高出46.4%，因此更环保。综上所述，DMP具有高稳定性、出水可靠、零排放等优点，是一种有前途的、有效的高藻类水处理技术。

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Journal of Water Supply: Research and Technology-Aqua

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