Efficiency of a gravity-driven membrane in a water treatment plant

Journal of Water Supply: Research and Technology-Aqua Pub Date : 2023-02-09 DOI:10.2166/aqua.2023.198

C. Cai, Yi-mei Tian, Xiuli Wu, Yuanna Zhang, Yong-Wen Ke, Yan Wang, Wenjun Sun

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Abstract

Membrane filtration technology is widely applied in conventional surface water treatment plants because of its low power load and high filtration accuracy. This study follows the transition from a power-driven to a gravity-driven siphon-submerged ultrafiltration membrane system in a drinking water treatment plant in Shandong Province, China. The proportion of space membrane areas in the tank was further developed, by increasing the membrane areas of a single tank to 1.6 times of that before the transformation, the design production capacity of a single tank is increased from 10,000 m3/d before the transformation to 16,700 m3/d. The recovery rate of a single tank was also increased from 96.28 to 97.77%. The energy consumption per ton of water decreased from 0.06 to 0.017 MJ. The annual carbon emissions reduction reached 197.13 tons per tank. In terms of the water quality, the algae removal rate from surface water by the ultrafiltration membrane reached 100%. Further, the removal rates of 2 μm particles, turbidity, and chlorophyll were above 99%. Our results suggest that gravity-driven siphon-submerged ultrafiltration promotes environmental protection, energy conservation, and emissions reduction. This technology introduces a new development direction for membrane filtering in drinking water treatment plants.

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水处理厂重力驱动膜的效率

膜过滤技术以其功率负荷小、过滤精度高的特点在常规地表水处理厂得到广泛应用。本研究跟踪了中国山东省一家饮用水处理厂从动力驱动到重力驱动的虹吸-淹没超滤膜系统的过渡。进一步发展罐内空间膜面积比例，将单罐膜面积提高到改造前的1.6倍，使单罐设计生产能力由改造前的1万m3/d提高到1.67万m3/d。单罐回收率由96.28%提高到97.77%。每吨水的能耗由0.06 MJ降低到0.017 MJ。每箱每年减少碳排放197.13吨。在水质方面，超滤膜对地表水的藻类去除率达到100%。对2 μm颗粒、浊度、叶绿素的去除率均在99%以上。研究结果表明，重力驱动虹吸-淹没超滤具有环保、节能和减排的作用。该技术为饮用水处理厂膜过滤技术的发展指明了新的方向。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Water Supply: Research and Technology-Aqua

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