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learning and development Proficient in technical writing and presentation Possess strong analytical and critical thinking skills Where to apply Website https://www.timeshighereducation.com/unijobs/listing
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collaborators. 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
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simulation of fluid-structure interaction (FSI) with focus on the fluid mechanics. We couple computational fluid dynamics (CFD) to a structural solver and/or a controller for the detailed simulation of a
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in developing a continuous extraction process demonstrator to obtain extracts from microalgae biomass using pulse electric fields. The overall objective will be to propose an innovative method
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for the activity to be developed, candidates must have skills and previous experience in computational fluid dynamics (CFD) tools, particularly in the simulation of multiphase flows in mesoscale reactors, preferably
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regulations, developing low-emission, carbon-free burners has become crucial for industry and a technical challenge for researchers. Ammonia (NH3) and hydrogen (H2) are the main carbon-free fuels under
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Helmholtz-Zentrum Dresden-Rossendorf - HZDR - Helmholtz Association | Dresden, Sachsen | Germany | 25 days ago
) # Develop and further improve multi-sensor and imaging-based measurement methods to capture key process variables in different zones of the flotation cell # Integrate and interpret data from different sensors
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develop computational fluid dynamic (CFD) tools that make exascale computing accessible to a broader set of users. The successful candidate will develop a massively parallel solver, capable of running
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transfer This research combines advanced numerical simulation and artificial intelligence to develop predictive models for high-temperature multiphase flows, with specific relevance to steel casting
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(Türkiye), Oxford Brookes University (UK), and Gdansk University of Technology (Poland). The project aims to develop a new generation of microfluidic system for combined hydrodynamic and acoustic cavitation