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will develop a wide range of knowledge and skills in Colloidal and Interface Science, Tribology, and establish a broad appreciation of Formulation Engineering. They will build a portfolio of
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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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Carbon Capture and Storage (CCS) and Direct Air Capture (DAC) technologies. DAC is a developing technology for removing CO2 from the atmosphere where the CO2 concentration is low. It is aimed at removing
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skills in colloidal and interface science, as well microbiology, whilst establish a broad appreciation of formulation engineering. They will build a portfolio of transferrable skills such as project
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based on the UKRI rate (£19,237 for 2024/25). This project intends to leverage the power of engineering biology / synthetic biology to contribute innovative solutions for climate change mitigation
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PhD in Water Resources:An integrated modelling and experimental framework for flood risk assessment. Award Summary School of Engineering Funded Studentship: UKRI annual living allowance, research
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to minimise the dead/un-metered volume of H2, hence improve the accuracy of flow metering. This project offers a unique opportunity to work at the forefront of process measurement technology development. As a
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, challenging training at the forefront of research into theoretical and computational fluid mechanics. Research Topic:The relevance of pipeline flows in fluids engineering is immense, involving, amongst many
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(SOEC) has emerged as a promising technology for hydrogen production, renewable energy storage and CO2 mitigation. In addition, co-electrolysis of carbon dioxide with steam in SOEC produces synthetic gas
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and innovative technology development through interdisciplinary collaborations across our scientific research teams. The Franklin has selected a unique suite of techniques where we can push developments