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for interview on an ongoing basis. How to Apply In the first instance please send an email to stor-i@lancaster.ac.uk with: a current copy of your CV; a covering letter explaining your motivation for applying
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of barrier winds off East Greenland using new wintertime observations from a research cruise. Carry out numerical weather prediction simulations of barrier wind case studies with the observed sea-ice
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flood extents under different storm surge scenarios, as determined through high-fidelity CFD-DEM simulations? - What is the optimal spatial arrangement (single/multiple lines, angle of incidence) of PBs
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sensing (e.g., PlanetScope, Sentinel-1), advanced numerical modelling (HEC-RAS, Delft-FM), and targeted field surveys to map mining intensity, simulate channel adjustment, and assess changing flood hazards
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approaches for designing new supramolecular materials. Using, for example, a mixture of classical and quantum mechanics simulations, cheminformatics and coarse-grained simulations, we will uncover the design
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structures. This highly interdisciplinary project combines mechanical engineering, materials science, and control systems, and will require both numerical simulation and experimental validation. The outcomes
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candidates should contact Dr Fielden by email in the first instance with a copy of their CV and a covering letter outlining their research interests. Applicants should have obtained a strong Master's degree in
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vegetation communities to assess the distribution of vascular and non-vascular plants. Modelling will enable the simulation of the hydrological impacts of the restoration under both current and projected
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these PhD projects the research will aim at quantifying some of these mechanisms for different wildfire scenarios. The project will likely require a combination of qualitative, quantitative and simulation
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particle simulation methods, validated by experiments, to develop a scaling method to predict continuous blending performance based on lab scale mixing performance, process parameters and physiochemical