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Field
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. Experience with numerical modelling techniques (e.g., DEM, FEM), computational fluid dynamics (CFD), and/or experimental methods (e.g., X-ray radiography, TDR) is highly desirable. Successful candidates will
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) Computational Fluid Dynamics (CFD) Modelling [may involve groundwater modelling with heat transfer depending on the chosen candidate] 3) Energy calculations and life cycle assessments (LCA analysis) 4) Conducting
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(CFD) and density functional theory (DFT) forms a powerful in silico approach to understanding CVD at the atomic level, while kinetic Monte Carlo methods can be used to study the development of different
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spearhead the development of next-generation data-driven wind farm flow models – Combining deep learning and high-fidelity simulations (CFD, meso-scale, and meso-scale-LES). You’ll then apply these cutting
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, homogenisation models reduce their accuracy. Consequently, numerical simulations using a DEM-CFD coupling would allow a local analysis of the granular bed and could give the opportunity to estimate the influence
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have a strong background in marine hydrodynamics or applied mathematics, as the study will involve mathematical modelling and taking demanding PhD courses. Both potential flow theory and CFD will be
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formation. Complementing these experimental efforts, Computational Fluid Dynamics (CFD) simulation will be employed to interpret CRUD build-up measurements, identify key phenomena influencing CRUD deposition
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groundwater modelling software (e.g., MODFLOW, FEFLOW, Hydrus etc.), geochemical/reactive transport modelling tools (e.g., PHREEQC, MIN3P, CrunchFlow, TOUGHREACT, PHT3D, FLOTRAN etc.), or CFD codes (e.g
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demanding PhD courses. Both potential flow theory and CFD will be applied. There are also possibilities for conducting model test. As a PhD Candidate with us, you will work to achieve your doctorate, and at
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of English proficiency may be required. The project will provide numerous research and development opportunities including: Development of phenomenological and CFD models for aeration systems of sewage