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deployment enabling validation and demonstration of real-world applications. For more details, please view https://www.ntu.edu.sg/erian We are seeking a Research Fellow to lead the development and
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academic and industrial partners. Key Responsibilities Perform advanced 3D CFD simulations of hydrogen/oxygen jets and combustion in argon-atmosphere experiments (CVC and RCM setups). Develop and validate
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objectives and activities include: • Developing a CFD model to analyse arc physics and establish correlations between transferred energy distribution and deposition conditions (including WA-DED process
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The Fire and Explosion Modelling Group (FEMG) at University of Surrey is seeking a Research Fellow to work on computational fluid dynamics (CFD) analysis of accidental releases of liquid hydrogen and ammonia
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a new product to market. As a CFD Engineer, you will develop, run, and interpret detailed simulations of our novel membrane modules and other process technologies. You will engage in a cross
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for the turbomachinery design optimization process conducted by a parallel PhD student at LMFA. The numerical solver involved is ProLB. It is an innovative Computational Fluid Dynamics (CFD) software solution developed
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to wake development. Boundary conditions to the CFD model will be further developed to analyse the impact of meso-scale variation of the flow occurring over much larger spatial scales than the turbine array
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. The research will investigate how phase distribution and flow velocities influence fluid–structure interaction (FSI) and will focus on developing novel sub-models for coupled CFD–FEM simulations. Your tasks
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(FSI) that are met in incidents. The PhD researcher will develop, validate and apply coupled CFD-FEM to advance hydrogen safety science and engineering to solve challenging problems of hydrogen safety
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interaction with materials, as well as surface reaction kinetics based on kMC-type descriptions. The main activities include: (1) the development of efficient surrogate models of kMC-based surface kinetics