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Engineering of biological activated carbon (BAC) filters for micropollutants removal in tertiary wastewater treatment. Micropollutants have been identified as contaminants of concern present in
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are both extremely challenging. Anticipated stringent guidelines for drinking water and waste water discharge necessitate the development of new treatment technologies. Several water treatment technologies
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of PFAS is produced. To protect the source water bodies and reduce the overall PFAS load in the environment, additional treatment of these retentate streams is required. One promising removal technology to
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treatment solutions have been investigated. Hollow-fiber nanofiltration has shown to be a highly effective and attractive treatment technology to remove micropollutants and produce high-quality greywater
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Electrospinning for production of 3D-structured bipolar membranes for water dissociation applications In water technology, the demand for bipolar membranes is steadily rising. Bipolar membranes
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complex engineering challenges, especially when dealing with diverse brine compositions. Despite past research on BPMED, the interaction between brine softening and BPMED remains relatively unexplored. By
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, extracellular enzymes, Fenton (like) reactions, and reactive oxygen species. The companies in the Groundwater technology theme aim to construct and study a 100m2 nature-based system at a drinking water
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eutrophication, by engineering the controlled release of macro- and micronutrients. Such synthetic polymers, as functional additives with agricultural products, are effective but not degradable. They can
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life, insects, and a diverse range of plants, but lack comprehensive data. It is not economically feasible, to use traditional methods (sampling and lab analysis). A new systemic and cost-effective
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2023.14 Developing high-throughput membrane adsorbers via electrospinning for selective PFAS removal
important, (membrane)adsorption is a versatile technology for the selective removal of undesired components or the capturing of valuable resources for reuse to attack water scarcity. Currently there is an