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Future food security relies on the efficient and sustainable use of finite land and water resources. Water use efficiency in crops is critical, especially in irrigated systems. Surfactants can
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This exciting fully funded PhD is sponsored by EPSRC and Northumbrian Water, with an enhanced stipend of £21,500 per annum (with fees covered). This project will deliver strategies to strengthen and
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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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environmental benefit, and enable smarter investments in water infrastructure and management. By joining this ambitious effort, you will contribute to improve the natural environment, the state of our rivers, and
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safety enhancements in waste management. Students will benefit from being part of the EPSRC Centre for Doctoral Training in Water Infrastructure and Resilience (WIRe), a world leading collaboration between
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around 60% of the total global textiles and contributes to around 10% of global carbon emissions and 20% of water waste. In fact, globally the fashion industry is the second-highest industry in terms
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background in environmental and civil engineering, water and wastewater, molecular biology, microbiology, biochemistry, or other similar sciences. If you are eligible to apply for the scholarship (i.e. a
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Freshwater pollution is a manufactured water landscape (waterscape), embedding with its flows and cycles technologies, institutions, discourses, and meanings which produce and are produced by power
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Pollution has resurfaced as a critical issue for the health of river ecosystems. Persistent and emerging water quality problems are being highlighted regularly by the media and community groups
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contribute to the delivery of Cranfield University’s research portfolio in the Advanced Sensors Laboratory for Water-Environment-Health led by Prof Zhugen Yang , preferably with a background in biosensing