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of numerical models (CFD) for the analysis and understanding of the behavior of the solution to be developed. Objectives:1. Designing a base design for incorporating a modular battery, 2. Develop and calibrate 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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and implement computational fluid dynamics (CFD) and fire dynamics models in OpenFOAM tool for battery thermal runaway and fire propagation. • Conduct numerical simulations to investigate
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prior knowledge and experience in fluid mechanics, for both steady and unsteady flow behaviours Relevant experience in both commercial (ANSYS Fluent preferably) and opensource CFD code (OpenFoam
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implementation of a coupled Computational Fluid Dynamics (CFD) and fire dynamics model within the OpenFOAM framework. This model will simulate battery thermal runaway and subsequent fire propagation. The
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system You should hold a PhD (or equivalent experience) in Plasma Physics, Electrical or Aerospace Engineering. Experimental experience is essential; CFD or non-thermal plasma and power electronic design
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based on magnetohydrodynamic (MHD) principles Optimising ICP(Inductively Coupled Plasma) torch design for high enthalpy thermal plasma flow Developing CFD models for a dual stage plasma torch. You should
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based on magnetohydrodynamic (MHD) principles Optimising ICP(Inductively Coupled Plasma) torch design for high enthalpy thermal plasma flow Developing CFD models for a dual stage plasma torch. You should
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research across thermal-energy storage, heat-transfer systems, and control engineering. This includes CFD/FEA modelling using tools such as ANSYS, COMSOL or OpenFOAM, laboratory experimentation for PCM
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system You should hold a PhD (or equivalent experience) in Plasma Physics,Electrical or Aerospace Engineering. Experimental experience is essential; CFD or non-thermal plasma and power electronic design