Article ID Journal Published Year Pages File Type
632720 Journal of Membrane Science 2015 26 Pages PDF
Abstract
Economic and environmental concerns demand the recycling and reuse of fouled, end-of-life, reverse osmosis (RO) membranes. Different dry stored coupons of commercial TM720-400 membranes were subjected to the chemical attack of NaOCl (124 ppm free chlorine), acetone solution (10,000 ppm) or N-methyl-2-pyrrolidone solution (10,000 ppm). The best permeability results were achieved with NaOCl solution and consequently it was used as the key reagent for further analysis. The effect of pH and membrane storage on the transformation process was evaluated. Membrane permeability and rejection coefficients were tested filtering synthetic brackish water containing NaCl (2,000 ppm), MgSO4 (2,000 ppm) and dextrose (250 ppm). The basic pH showed the highest effect on the membranes performance therefore, experiments were carried out up to 410 h exposure time. The transforming process was repeated for five different commercial membrane brands, stored wet. Most of the transformed membranes achieved permeability and rejection like nanofiltration (NF) membranes up to 50 h exposure time and performed like ultrafiltration (UF) membranes after 242 h exposure time. It was observed that permeability and rejection coefficients were affected by the storage condition. This treatment may provide a cost effective and eco-friendly method of recycling end-of-life RO membrane process, at lab scale.
Related Topics
Physical Sciences and Engineering Chemical Engineering Filtration and Separation
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