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OpenFOAM, that is able to account for the true characteristics of a heat transfer surface. Development and implementation of a suitable subgrid near-wall model to account for the transition between contact
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describe intra-wave cross-shore sand transport and morphodynamics (e.g. OpenFoam). The model will be validated using lab and field data, in particular from new wave flume experiments by a fellow SOURCE PhD
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will be developed using the OpenFOAM toolkit. A modelling workflow will be created, and then used as the basis for the optimisation, potentially using tools such as Bayesian Optimisation. In addition
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in numerical techniques used to solve ordinary and partial differential equations and be proficient with related commercial or open-source software tools (e.g., ANSYS, FEniCS, OpenFOAM or similar) and
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typically encountered in industrial operations. We envisage coupling CFD simulations in OpenFOAM with FEM analyses in Abaqus or similar software. Supervisors:Dr V.L. Tagarielli and Prof F. Montomoli Duration
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of programming/software, MATLAB, Python, OpenFOAM, LabView, ANSYS, etc. Research quality and publications – Journal papers Genuine interest in research and willingness to learn and carry out high quality research
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. Still, it has relatively modest use. One bottleneck is the large computational times. Our hybrid CFD method which we refer to as Potential Viscous Code (PVC3D), based on OpenFOAM, combines potential flow
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++• CFD software (OpenFOAM, Ansys, …)• Numerical optimization• Flow solvers• Heat transfer modeling Selection process Applicants should express their interest by sending an email to Prof. Niels Horsten via
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., OpenFOAM, StarCCM+ etc.), programming skills in any common languages (e.g., MATLAB, Python, R, C/C++), demonstrated publication record Your benefits You will have access to the university’s staff benefits