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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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individually, make a real difference. The role The Fire and Explosion Modelling Group (FEMG) at University of Surrey is seeking a Research Fellow to work on CFD modelling of hydrogen fire and explosions using
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to the development of intelligent design workflows using CFD and data-driven methods to assess and optimise next-generation vessel designs. You will collaborate closely with project partners, applying state-of-the-art
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(CFD) methods. The role focuses on transitioning legacy CFD solvers to modern, Python-based AI frameworks (e.g., PyTorch, JAX), targeting high-efficiency, scalable simulations of water-air systems with
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%20Programmes/MCCS%20Programme). The primary role involves developing and validating CFD models to study wave attenuation by mangroves, seagrass, and coral. Responsibilities include calibrating simulations with
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this role, you will contribute to the development of intelligent design workflows using CFD and data-driven methods to assess and optimise next-generation vessel designs. You will collaborate closely with
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datasets, and iterate designs to improve thermal and energy performance. • Develop detailed transient and steady-state CFD models using ANSYS to aid the design and validation of the personalized cooling
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. Experience in commercial CFD package such as ANSYS package is preferred. Candidate preferably should be familiar and have sufficient experience in using ANSYS FLUENT, Meshing tool and post-processing software
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with focus on energy and environmental performance of buildings and outdoor spaces and their interaction. The ideal candidate will have research experience in CFD and dynamic thermal modelling
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. The small streamwise grooves mimic the denticles of shark skin. The role will use your skills in computational fluid dynamics (CFD) to develop a computational modelling framework using large eddy simulation