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to the development of concepts of hydrogen storage by using floating foundations and necessary improvements. • Develop finite element structural models / hydrodynamic simulations of floating foundations
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structural materials (both metals and ceramics), computational solid mechanics, and thermohydraulics. The successful candidate will develop automated frameworks for finite element analysis of high temperature
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-equilibrium and finite size effects in magnetic materials, metal hydrides and soft matter. Samples are synthesised and studied with e.g. optical methods and transport measurements in-house. These
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background in finite element modeling (preferably using software such as Abaqus or FEniCS) Experience in fracture mechanics (ex Phase-Field approach) Previous experience with sensitivity analysis and reduced
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radiative transfers), which aims to design new sustainable high-temperature heat exchangers based on silicon carbide (SiC). These exchangers can be used as solar volumetric receivers, which are key elements
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. Develop finite element structural models / hydrodynamic simulations of floating foundations storing hydrogen with operational wind turbine, electrolysers and environmental loads. Optimise design of hybrid
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: Research excellence. Ideal candidates will be published research in at least one of the following areas: adaptive finite element methods, discontinuous Galerkin methods, multigrid methods, domain
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. in Materials Science, Mechanical Engineering, Chemical Engineering, or a closely related field. Demonstrated expertise in techniques, e.g., electron microscopy, finite element analysis, or other
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background in finite element modeling (preferably using software such as Abaqus or FEniCS) Experience in fracture mechanics (ex Phase-Field approach) Previous experience with sensitivity analysis and reduced
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simulations based on Smoothed Particle Hydrodynamics (SPH) or Finite Element Method (FEM), which require significant computational resources and expert knowledge. These traditional methods lead to prolonged