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application development that is integrated to methods of the polymer recovery starting from a PHA-rich biomass. Today, to enhance the viability and ensure storage stability of seeds, they are modified by thin
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, and producing hydrogen directly from seawater. In the transition towards a circular sustainable economy, these processes are of utmost importance and play a pivotal role. This PhD project is driven by
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desalination. Our research faces the challenge of utilizing real waste brines with diverse ion compositions from different feed water types (e.g. ground, surface, effluent water), requiring adaptation of BPMED
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2023.14 Developing high-throughput membrane adsorbers via electrospinning for selective PFAS removal
threatening the quality of our drinking water urgently has to be removed from the environment. A highly flexible approach for the selective capturing of components from aqueous streams are polymer membrane
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the water matrix, gas composition and process parameters to enhance the PFAS concentrating factor and removal efficiency. Effective removal methods of PFAS from the process will be explored to further enhance
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) at concentrations above 0.1 µg/L (the standard set by the European groundwater directive). To protect the groundwater quality, and to prevent the need for advanced treatment upon abstraction, there is a need for
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hydrocarbons that are widely used because of their special properties. These highly Persitent, Mobile and Toxic (PMT) molecules pose significant challenges in water treatment, as removal and degradation
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immediate need for innovative solutions to align with the EU Water Framework Directive’s criteria, set to be met by the end of 2027. This multifaceted challenge involves addressing nutrient (N and P) runoff