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Fully-funded PhD Studentship: Adaptive Mesh Refinement for More Efficient Predictions of Wall Boiling Bubble Dynamics This exciting opportunity is based within the Fluids and Thermal Engineering
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. Lightweight aerostructures with high shear strength, vibration damping, and acoustic attenuation are crucial for meeting strength and noise certification requirements in the aerospace industry. Certain thin
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(including 7 full professors) and approximately 120 PhD students and post-doctoral research fellows. The group has excellent facilities for experimental work including approximately 2500m2 of research space
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these components inside the PCB and connect them internally, which not only saves space, but also easily confines the electromagnetic noise and manages the cooling of the system. Eventually, it will greatly reduce
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are increasingly using self -funded services via pharmacies, getting both medicines and health advice to treat common infections without seeing a doctor. The vast “smart data” that these interactions are producing
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to another that can be viewed as heteroclinic connections between phase-locked states. The PhD project will consider the role that communication delays between nodes can have in shaping patterns of dynamic
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, usability, and insight into leakage dynamics across diverse constructions. Research Objectives The project is structured around three synergistic work packages: Descriptive Analytics: You will conduct a
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Statistics, School of Medicine, University of Nottingham) Dr Wei Shen Lim (Honorary Professor in Respiratory Medicine, University of Nottingham, Consultant Respiratory Physician, Nottingham University
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dynamic environments, including narrow spaces and interactions with unfamiliar objects. This project aligns with Rolls-Royce’s technical needs for developing soft robotic solutions to enable in-situ/on-wing
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deep inside confined spaces, such as pipes and vessels. Kinematics, static and dynamic models of the snake robot. Localisation of the snake robot with various sensory feedback, including vision and Fibre