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Continuously Languages English English English Postdoctoral Fellow in Computational Fluid Dynamics (CFD) for Sediment Transport Apply for this job See advertisement This is NTNU NTNU is a broad
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the acquired data, and prepare a report; c) Prepare a CFD model of a boiler burner for combustion analysis, apply reacting flow models, perform computation, study propensity to flash-back, calculate noise
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developing Discrete Element Models (DEM) or hybrid models (e.g., DEM-CFD, DEM-SPH). A proven research record through publications and code development is required. We are seeking a proactive individual with
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developing Discrete Element Models (DEM) or hybrid models (e.g., DEM-CFD, DEM-SPH). A proven research record through publications and code development is required. We are seeking a proactive individual with
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developing suitable CFD models to study the behaviour of plasma and waste flow, and suggest designs based on parametric sensitivity analysis. Such results will be integrated into system upgrades. About You You
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, energy conversion) in one compact cycle, offering advantages over traditional incineration and large-scale plasma plants. This role, based at Cranfield University, will involve developing suitable CFD
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experience includes developing Discrete Element Models (DEM) or hybrid models (e.g., DEM-CFD, DEM-SPH). A proven research record through publications and code development is required. We are seeking a
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. Under this job title, you will develop a CFD modelling platform to evaluate the combustion, flammable and toxic gases emission and dispersion characteristics resulted from battery fires/thermal runaway in
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. This role, based at Cranfield University, will involve developing suitable CFD models to study the behaviour of plasma and waste flow, and suggest designs based on parametric sensitivity analysis
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heat and mass transfer, thermal comfort, and computational fluid dynamics (CFD). These skills will be applied to design, evaluate, and optimise strategies that enable the effective implementation of MMV