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their employability in dynamic sectors such as technology, healthcare, education, and urban development. This experience will prepare them to address complex challenges in evolving systems across a range of industries
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for efficient solar energy harvesting. This project will deliver novel methods for modelling and controlling LSS structural dynamics in the extreme orbital environment. The objectives are as follows: 1. Undertake
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pesticides can range from 4 to 10 years, meeting PFAS guidelines can reduce its operation to just a few months, depending on the PFAS signature of the water. This puts increasing pressure on the process cost
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microbiology. It addresses the urgent need for energy-efficient grain storage solutions in the context of climate change and Net Zero commitments. By integrating thermal dynamics, moisture migration modelling
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project will examine how commercial water users view the risks and benefits of using water reuse systems to provide non-drinking water for a range of applications (e.g. for cooling and industrial processes
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featuring a diverse range of blue space and urban geographies – as case studies, and activities linked to the Oxford-Cambridge Growth Arc. The PhD researcher will join a dynamic group of interdisciplinary
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simulations, covering a range of typical part geometries and deposition strategies, complemented by experimental validation. • Developing an efficient method for converting partial surface temperature data
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the polymer matrix at nanoscale level where the carbon/glass fibres cannot reach. Our research shows that nanoscale reinforcement of polymer matrix used in glass/carbon fibre composites significantly