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sustainability for flushable, premoistened nonwoven wipes, e.g. use less, clean better, surface actives play an indispensable role. The aim of this project is to design and optimise innovative surface actives used
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and improved air quality. Current transition models however are often of limited use to engineering design of these systems because the inlet of the pipeline, which plays a key role in the development
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circular battery economy. It shifts the focus from selling batteries to selling battery services, incentivising manufacturers to design for longevity, remanufacture, and responsible end-of-life management [1
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such as human resources personnel, safety managers and occupational health staff, in order to design, test and pilot intervention content, based around necessary adaptations to fit the offshore work
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As the Senior Researcher Developer (PGR), you¿ll have an exciting opportunity to lead the design and delivery of an innovative PGR development portfolio. You will be central to the University¿s
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Supervisory Team: Prof. Ali Elham PhD Supervisor: Ali Elham Project description: Topology optimisation is one of the most powerful engineering design technologies. It is superior to shape and size
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resources personnel, safety managers and occupational health staff, in order to design, test and pilot intervention content, based around necessary adaptations to fit the offshore work environment and context
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rate). Overview The research addresses the broad areas of infrastructure resilience and design in the face of climate change and the implications for disruption management. Specifically, the following
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products through empirical work underpins the process design of most commercial batch granulation processes. This consumes many batch runs, plant time and input materials for new drugs and new process lines
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forward for fusion research. For UK based researchers the next step is to work towards a direct-driven laser fusion facility. Such a step requires predictive models for laser system and fuel pellet design