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) reflects this, as PROMs provide essential insights into health, quality of life, and functional status, complementing biology-based health metrics. This research aims to develop next-generation technology
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in fuel cells, electrified aircraft, control systems, and gas turbine engines. Opportunities and Impact Your findings and outcomes will contribute to the development of innovative solutions and methods
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collaborate with internationally leading commercial, research, and academic organisations specialising in fuel cells, electrified aircraft, control systems, and gas turbine engines. Research outcomes will be
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production. In this role, you will develop control over the bonding at interfaces between materials and layers, achieving new engineering solutions only possible through multi-material additive manufacturing
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Supervisors: Prof Ioan Notingher (School of Physics and Astronomy) Dr. George Gordon and Dr. Abdelkhalick Mohammad (Faculty of Engineering) Start date: September 2024 Duration: 3.5 years
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an interdisciplinary team (including microbiologists, engineers, environmental scientists, and data scientists) developing new water sensing technologies (optical/biological) for the monitoring and detection of sewage
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real impact. Essential and Desirable Student background Criteria Background: Engineering ideally with material science Essential knowledge - skills – experience: analytical skills, ability to demonstrate
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. The engineering challenges are to provide users with the controls they would like to have in order to adjust the behaviour of their audio system, for example, boosting the bass response interacting with the room
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, Engineering, Computer Science or relevant discipline Funding and Eligibility Available to eligible home fees students. Key Information Supervisors: Alok Choudhary, Sube Singh
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background (e.g., mathematics, computer science, electronical engineering, physics, statistics, economics). Closing date : 31st July 2024. Funding: Full-time studentships will cover UK course fees and an