Tertiary Treatment for Safely Treated Wastewater Reuse

Promising Techniques for Wastewater Treatment and Water Quality Assessment Pub Date : 2021-12-01 DOI:10.5772/intechopen.94872

N. Belaid

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Abstract

The tertiary treatment of resulting water from a conventional biological treatment process is envisaged in the aim to obtain a high quality of water that can be reused for different purposes. This treatment is based on the integration of the membrane-based technologies in the total process of wastewater treatment. The experimental studies are carried out on a small pilot, equipped with different mineral membranes of micro and ultrafiltration. These membranes are used for the different tested processes (MF, MF-UF and cogulation-MF). The results obtained make it possible to attend a complete elimination of the total flora and an additional reduction of the other parameters such as turbidity, suspended matter, COD and BOD. Tests on a large scale are then carried out on a semi-industrial pilot, equipped with the same type of membranes. The optimization of the operating conditions made allow the obtaining under the conditions of transmembrane pressure 0.85 bar, a cross flow velocity of 2.25m/s and with ambient temperature a filtrate flux of about 200 L/hm 2. The coupling of a stage of coagulation in the membrane process allows the reduction of the effect of the membrane fouling and an improvement of 36% of the filtrate flux.

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三级处理技术在废水回用中的应用

设想对传统生物处理过程产生的水进行三级处理，目的是获得可重复用于不同目的的高质量水。该处理是基于膜基技术在废水处理全流程中的集成。实验研究是在一个小型试验装置上进行的，配备了不同的微滤和超滤矿物膜。这些膜用于不同的测试过程(MF, MF- uf和凝固-MF)。所获得的结果使完全消除总菌群和其他参数(如浊度、悬浮物、COD和BOD)的额外降低成为可能。然后在配备相同类型膜的半工业试点上进行大规模测试。通过对操作条件的优化，可获得跨膜压力0.85 bar、横流速度2.25m/s、环境温度下滤液通量约为200 L/hm 2的滤液。膜过程中混凝阶段的耦合可以减少膜污染的影响，并提高36%的滤液通量。

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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Promising Techniques for Wastewater Treatment and Water Quality Assessment

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