Organic micropollutants (OMPs) are detected in sources for drinking water and treatment possibilities are investigated. Innovative removal technologies are available such as membrane filtration and advanced oxidation, but also biological treatment should be considered. By combining an advanced oxidation process with managed aquifer recharge (MAR), two complementary processes are expected to provide a hybrid system for OMP removal, according to the multiple barrier approach. Laboratory scale batch reactor experiments were conducted to investigate the removal of dissolved organic carbon (DOC) and 14 different pharmaceutically active compounds (PhACs) from MAR influent water and water subjected to oxidation, under different process conditions. A DOC removal of 10% was found in water under oxic (aerobic) conditions for batch reactor experiments, a similar value for DOC removal was observed in the field. Batch reactor experiments for the removal of PhACs showed that the removal of pharmaceuticals ranged from negligible to more than 90%. Under oxic conditions, seven out of 14 pharmaceuticals were removed over 90% and 12 out of 14 pharmaceuticals were removed at more than 50% during 30 days of experiments. Under anoxic conditions, four out of 14 pharmaceuticals were removed over 90% and eight out of 14 pharmaceuticals were removed at more than 50% over 30 days' experiments. Carbamazepine and phenazone were persistent both under oxic and anoxic conditions. The PhACs removal efficiency with oxidized water was, for most compounds, comparable to the removal with MAR influent water.
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Research Article|
October 01 2012
Pharmaceutical removal during managed aquifer recharge with pretreatment by advanced oxidation
K. Lekkerkerker-Teunissen;
1Dunea, PO 34, 2270 AA, Voorburg, The Netherlands
2Delft University of Technology, PO 5048, 2600 GA, Delft, The Netherlands
E-mail: [email protected]
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E. T. Chekol;
E. T. Chekol
3UNESCO-IHE Institute for Water Education, Westvest 7, 2601 DA Delft, The Netherlands
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S. K. Maeng;
S. K. Maeng
5Sejong University, 98 Gunja-Dong, Gwangjin-Gu, Seoul 143-747, South Korea
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K. Ghebremichael;
K. Ghebremichael
4Patel School of Global Sustainability, University of South Florida, Tampa, FL, USA
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C. J. Houtman;
C. J. Houtman
6The Water Laboratory, PO Box 734, 2300 RS Haarlem, The Netherlands
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A. R. D. Verliefde;
A. R. D. Verliefde
2Delft University of Technology, PO 5048, 2600 GA, Delft, The Netherlands
8Particle and Interfacial Technology Group, Faculty of Bioscience Engineering, Ghent University, Coupure Links 653, B-9000 Gent, Belgium
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J. Q. J. C. Verberk;
J. Q. J. C. Verberk
2Delft University of Technology, PO 5048, 2600 GA, Delft, The Netherlands
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G. L. Amy;
G. L. Amy
2Delft University of Technology, PO 5048, 2600 GA, Delft, The Netherlands
3UNESCO-IHE Institute for Water Education, Westvest 7, 2601 DA Delft, The Netherlands
7King Abdullah University of Science and Technology, 4700 KAUST, Thuwal 23955-6900, Kingdom of Saudi Arabia
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J. C. van Dijk
J. C. van Dijk
2Delft University of Technology, PO 5048, 2600 GA, Delft, The Netherlands
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Water Supply (2012) 12 (6): 755–767.
Article history
Received:
February 21 2012
Accepted:
May 02 2012
Citation
K. Lekkerkerker-Teunissen, E. T. Chekol, S. K. Maeng, K. Ghebremichael, C. J. Houtman, A. R. D. Verliefde, J. Q. J. C. Verberk, G. L. Amy, J. C. van Dijk; Pharmaceutical removal during managed aquifer recharge with pretreatment by advanced oxidation. Water Supply 1 October 2012; 12 (6): 755–767. doi: https://doi.org/10.2166/ws.2012.050
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