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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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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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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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2023.14 Developing high-throughput membrane adsorbers via electrospinning for selective PFAS removal
approach is centered around electrospinning: a very versatile technology offering the possibility to produce nanofibers together forming very open, highly porous, robust polymer structures with a low flow
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this technology and we will study the interactions between PFAS molecules and an electrically charged carbon surface. The interplay between hydrophobic and charged-based interactions is of particular importance
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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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Engineered nature-based systems to protect drinking water aquifers against organic micropollutants To mitigate seasonal water stress, drinking water companies at the high sandy soils in eastern
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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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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