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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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on Wednesday 24 July 2024 Reference: RD-PHD-24-GC-R1-MH Title: Fulfilling the 'promise of precision'? A user-centred study of sensor technology for farm animal welfare Primary Supervisor - Dr Gemma Charlton
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computer codes to solve some of the daily research problems and have experience with high performance computing. You should have a PhD in Chemistry, Physics or Materials Science with a proven research track
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Supervisor: Prof. David Cook (Brewing Science) Secondary Supervisor: Dr Joanna Yorke (Brewing Science), Prof. Ian Fisk (Food & Nutritional Sciences), Prof. Ray Marriott (TNS Ltd) Subject Area
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Supervisory Team: Hywel Morgan, Dan Spencer and Franklin Nobrega (Biological Sciences) PhD Supervisor: Hywel Morgan Project description: Antimicrobial resistance is predicted to become a primary
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thermoplastics or vitrimers. Funded by EPSRC and Cranfield University, this project aligns with the Royal Academy of Engineering Research Fellowship initiative titled "Multifunctional Z-Direction Hybridisation
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operational parameters, and understanding the impact of water chemistry on virus disinfection efficacy. The research will provide a comprehensive assessment of current disinfection practices, particularly in
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-structure modelling challenges within this field. In addition, AI technology will play a crucial role as a supportive tool, contributing to more efficient and accurate turbulence modelling. We are actively
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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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roadmaps, and the development of test campaigns and flying demonstrators. You will also explore technologies related to electric motors, power electronics, batteries, and their integration with gas turbines