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profoundly affect their mechanical properties and overall performance. Therefore, understanding the temperature field and developing effective thermal control techniques are vital to ensuring a high-quality WA
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of industrial cooking. The project will be based within the Centre for Sustainable Energy Use in Food Chains (CSEF) which has substantial expertise and experimental and computational facilities to support the
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technicians. Applicants should have experience in experimental fluid mechanics and aerodynamics. Prior experience in aeroacoustics is desirable. Applications are welcome from candidates currently pursuing
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, with expertise in fluid mechanics and heat transfer Experience with OpenFOAM simulation software Programming skills with software such as Matlab and/or Python How to apply Please send an email with
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understanding of stress and resilience mechanisms. The project is an interdisciplinary effort bridging psychology, neuroscience, endocrinology, and pharmacology. We collect a range of outcomes to understand
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based on fluid mechanics, non-equilibrium thermodynamics and statistical mechanics. Further information about PoreLab can be found here: https://porelab.no/ The position reports to Professor Alex Hansen
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be involved in analyzing both experimental and clinical data, focusing on: • Stress responses and recovery patterns • Endocannabinoid measurements in blood, hair, and cerebrospinal fluid
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distribution. This process often takes place in large scale driers where the material is heated and broken up mechanically with mixing blades. However, under certain conditions the process can break down as the
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experimentation. As the projects evolve, they will also participate in the analysis of bio-fluid samples from animal models and postmortem human subjects to validate discoveries in brain tissues as potential
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this project, the student will gain highly sought-after expertise in experimental fluid mechanics which is a key identified area of growth to enable development of next generation power and propulsion systems