Journal
ENVIRONMENTAL ENGINEERING RESEARCH
Volume 27, Issue 1, Pages -Publisher
KOREAN SOC ENVIRONMENTAL ENGINEERS - KSEE
DOI: 10.4491/eer.2020.509
Keywords
GAC adsorption process; Membrane process; Ozonation process; Perfluoroalkyl substances; Pharmaceuticals
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Funding
- Pusan National University
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This study aimed to evaluate the removal efficiencies of pharmaceuticals and poly- and perfluoroalkyl substances (PFASs) by different water treatment processes. The results showed that ozonation process effectively removed most pharmaceuticals, while GAC adsorption and RO membrane processes were more effective in removing PFASs.
We aimed to assess the removal efficiencies of four pharmaceuticals (carbamazepine, crotamiton, metformin, and sulfamethoxazole) and four poly- and perfluoroalkyl substances (PFASs) (PFHxA, PFHxS, PFOA, and PFOS) by lab-scale ozonation, granular activated carbon (GAC) adsorption, and reverse osmosis (RO) membrane processes under varying operating conditions. Ozonation and GAC adsorption processes were conducted at two temperatures (5 and 25 degrees C) and three pH conditions (3, 7, and 11). The membrane process was performed using an unstirred cell with two different RO membranes. The most pharmaceuticals were effectively removed by ozonation, whereas metformin and PFASs were unaffected due to their stable chemical structures. In the GAC process, metformin was hardly removed under acidic conditions but it was enhanced by over 90%. PFASs were effectively removed by GAC adsorption and RO membrane processes. The RO membrane for brackish water treatment showed higher rejection than that for residential water treatment. Moreover, the rejection of PFAS increased as the molecular weight increased. A strategy was found to effectively remove the remaining metformin in most advanced water treatment processes. Chemically persistent PFASs were hardly removed by the ozonation process but were effectively removed by physical treatments such as GAC adsorption and RO membrane processes.
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