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circular systems and improve the conditions for cultivation in urban environments. The aim is to contribute to advancements in wastewater treatment and resource recovery for sustainable water management and
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. The aim is to contribute to advancements in wastewater treatment and resource recovery for sustainable water management and food production. We will work in parallel with different areas that all connect
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imperative to safeguard both human well-being and the integrity of our natural environment. Currently, no water or wastewater treatment plants are designed to target micropollutants, resulting in the presence
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-based solutions (NbS) for water and wastewater treatment. The research will explore sustainable engineering strategies to boost their performance to deliver benefits for the environment and society. The
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sewage and wastewater treatment plants, are known to be profitable food sources for insectivorous songbirds. Swallows and martins are reliant on these foraging sites as they often are sources of high-value
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Worldwide decentralized water and wastewater systems, including in UK rural areas and Islands, can have a high cost and be unreliable, often failing during treatment. This project is part of
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biological phosphorus removal. Change: Evaluate bioreactor operations using cutting-edge omics techniques Impact: Improve phosphorus removal and recovery in wastewater treatment processes The PhD project aims
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-based solutions (NbS) for water and wastewater treatment. The research will explore sustainable engineering strategies to boost their performance to deliver benefits for the environment and society. The
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-September) Project description: The occurrence of per- and polyfluoroalkyl substances (PFAS) in biosolids of wastewater treatment plants is becoming a serious issue since these substances are persistent in
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for the treatment and recycling of nutrients from food wastewater by physical and biotechnical methods Supervisor: prof.Ing.Ľuboš Jurík, PhD. Workplace: Institute