Reusing and Characterization of the Used Reverse Osmosis Membrane and its Application in Surface Water Purification
R. El-Aassar et al., M. (2021). Reusing and Characterization of the Used Reverse Osmosis Membrane and its Application in Surface Water Purification. EKB Journal Management System, 25(2), 509-522. doi: 10.21608/ejabf.2021.165717
Mohamed R. El-Aassar et al.. "Reusing and Characterization of the Used Reverse Osmosis Membrane and its Application in Surface Water Purification". EKB Journal Management System, 25, 2, 2021, 509-522. doi: 10.21608/ejabf.2021.165717
R. El-Aassar et al., M. (2021). 'Reusing and Characterization of the Used Reverse Osmosis Membrane and its Application in Surface Water Purification', EKB Journal Management System, 25(2), pp. 509-522. doi: 10.21608/ejabf.2021.165717
R. El-Aassar et al., M. Reusing and Characterization of the Used Reverse Osmosis Membrane and its Application in Surface Water Purification. EKB Journal Management System, 2021; 25(2): 509-522. doi: 10.21608/ejabf.2021.165717

Reusing and Characterization of the Used Reverse Osmosis Membrane and its Application in Surface Water Purification

Egyptian Journal of Aquatic Biology and Fisheries
Article 26, Volume 25, Issue 2, March and April 2021, Page 509-522  XML PDF (895.37 K)
Document Type: Original Article
DOI: 10.21608/ejabf.2021.165717
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Author
Mohamed R. El-Aassar et al.
Abstract
The current study concerns the recycling of the used reverse osmosis membrane named DOW FILMTEC™ SW30HR–380. The performance improvement includes the following steps:(1) Molecular characterization of the used membrane where it contributes to understanding the physicochemical properties of reverse osmosis membranes and their performance, using different analytical techniques like FTIR, SEM, and tensile strength. (2) reuse of the Polysulfone layer of the membrane as a filter for the turbidity removal of surface water.(3) Comparison between the turbidity removal % by the Polysulfone layers (arranged in a disc filter) and the conventional coagulants.  From the results, we found that SEM photographs were evidence for the high fabrication of the membrane. The coating layer showed a high hydrophilic hydroxyl group appearing in FTIR spectra. Mechanically, the polyamide layer showed the best tensile properties. Raw water quality and the conditions leading to filter clogging were discussed. The removal percentage of turbidity and algae from surface water reached 60 and 80% respectively using five successive Polysulfone layers with a surface area of 12.5 cm2/layer. At the same turbidity, tested coagulants achieved higher removal % than that of the Polysulfone layers. On one hand, the recycled reverse osmosis membrane may be used as an alternative technique for removing turbidity and algae, while on the other hand, it reduces harmful effects and emissions
Keywords
Used RO membrane; characterization; polyamide; conventional technique; surface water purification
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