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-scenario risk approach, combining state-of-the-art climate and hydrological science with direct collaboration with water companies. Current UK drought risk assessments face critical limitations: Reliance
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(CHF) phenomena – the prediction of which is key to safely designing and operating water based nuclear reactors. Current industrial modelling tools necessitate excessively conservative safety margins
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Discipline: Engineering & Technology, Materials Science, Mechanical Engineering Qualification: Doctor of Philosophy in Engineering (PhD) This project is a collaborative research effort between
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transformations, advanced materials processing and characterisation. Supervisor: Dr David Collins Stipend: Full funding for 4 years covering a personal maintenance stipend starting at £20,780 (current rate). Fees
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undergraduate degree relevant to each individual project, e.g., Experimental Psychology, Physics, Neuroscience, Computer Science, Electrical Engineering, or a related subject. In addition, an appropriate master’s
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Research Infrastructure? No Offer Description Two fully-funded 3-year PhD studentships are available in Neuromorphic and Bio-inspired computing at the interface between control engineering, electrical
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). Preference will be given to candidates with a background in electrical engineering and a strong interest in undertaking experimental activities. The candidate is expected to have regular meetings with Siemens
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partnership with the Royce Institute and Cummins, you will study the microstructure of nickel-based alloys used in turbine wheels — vital components for hydrogen-ready engines and future power technologies
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alternatives. Yet, large-scale commercialisation of bioplastics faces environmental and economic challenges. Current feedstocks pose trade-offs: edible crops such as maize and sugarcane raise food security
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inherited from steel scrap on slag performance and utilisation in the scrap-based electric arc furnace (EAF) steelmaking. The research will support the steel industry’s transition to net-zero steel