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fundamental science and thought leadership on the technological, economic and social context to identify ways forward for commercial success and sustainability. The expected impact of this research project
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% of the world’s food is currently cultivated in farms using artificially irrigated cropping systems. It is estimated that many of these farms are using 2 to 3 times more water than their crop requires. In order to
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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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requirements Applicants should have a minimum equivalent to a UK upper second-class degree (2.1) and preferably an MSc in a relevant subject such as chemistry or chemical engineering. The ideal candidate should
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of more sustainable and safer aerostructure in next generation aircraft. It will impact research strategies and technology for maintenance regime and service operations in the future. The researcher gain
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class UK honours degree or equivalent in a related discipline. This project would suit those with a background in chemical or civil engineering, as well as those with chemistry or biological science
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facilities and interact with experts in Human Factors Integration (HFI), systems engineering, and system modelling. The research will culminate in developing software tools and engaging with a robotic testbed
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environmental, ecological or civil engineering, environmental science, hydrology, ecology, water resources management, and geography. A full-UK driving license is essential. The ideal candidate should have some