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indicate increased risk of skin breakdown. The project will involve design and modelling, 3D printing and prototyping, mechanical testing, and evaluation of sensing performance in representative conditions
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other at policy-relevant scales, while ‘top-down’ estimates, based on atmospheric measurements and modelling, are hampered by large natural fluxes of CO2 between the terrestrial biosphere and the
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into rivers to restore natural processes, are increasingly employed to address habitat degradation, biodiversity loss, and flood-risk. This PhD aims to monitor and model the ecological responses of plant and
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modelling framework to predict key thermal hydraulic parameters for boiling flows within complex geometries at high heat flux conditions, relevant to the engineering design of thermal management elements
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. Previous experience in computational modelling, air quality or psychology is desirable. The Research Project The overall aim of this PhD project is to understand how indoor air quality (IAQ) affects
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assumes a single, uniform floor condition, real buildings vary widely, from timber and composite systems to reinforced concrete slabs, each with unique stiffness, damping, and boundary conditions. These
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to mineral dissolution followed by the precipitation of secondary minerals. From a fluid dynamics perspective, the newly formed solids can be regarded as particles suspended within the pore-scale flow
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rely on surrogate tissues from lesion margins or benign conditions, which may not fully reflect healthy tissue. This limits our ability to build high-quality reference datasets. With advances in
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influence. A comparative analysis, synthesizing phylogenetic, geographic and social-economic factors, including biological traits, environmental conditions and anthropogenic pressures, will illuminate
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the corrosion of reinforcing steel, which compromises safety, durability, and sustainability. Current corrosion prediction models often fall short because they rely on oversimplified assumptions and