Özet:

In recent years, interest in water recovery from treated wastewater and water reuse has been increasing in the regions having water shortage and hence economic value of water. The study aims to recover effluent for urban secondary treatment effluent with the laboratory scale NF (Nanofiltration) process with the removal of a high rate of organic/inorganic matter as well as microbial pollution, thus be able to introduce effective water management approach for this effluent water Taguchi Design was applied to plan experimental procesure, The transmembrane pressure (5; 7.5; 10 bar), volume reduction factor: (VRF) (2; 3; 4) and membrane type (NP030; NF270; NF90) were optimized with the "Response Surface Method" for the NF process. As a result NF90 with 5 bar and 2 VRF operating conditions were selected as the best performing membrane for water recovery. Based on the validation experiment results, the total coliform of the effluent reduced from 6.8x106 cfu/100 mL to below to detectable level. Further, Chemical Oxygen Demand (COD) and Total Dissolved Solids (TDS) decreased to 14 mg/L and 86 mg/L, respectively. Based on the assessment of the national and international regulations on the reusability of NF permeate water from experiment; pH, Biological Oxygen Demand (BOD5) were 6.5, and 9.6 mg/L, as well as fecal coliform and total suspended solids (TSS) were not detected in the permeate. To come to the conclusion, the permeate water acquired from the proces is suitable for irrigation purposes and can also be used for the purposes such as industrial cooling water and discharge to groundwater

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