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to teach this core graduate course examining the problems and techniques relevant to effective management of a public agency in a complicated and often turbulent political environment. The course covers
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candidates with research interests from any area of coastal physical oceanography, including a broad set of processes and varying scales: turbulence and mixing, meso- and submesoscale dynamics, boundary layers
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Framework Programme? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Teaching School : Grenoble INP – ENSE3 School website: http: https
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Doctoral Network COMBINE. See https://euraxess.ec.europa.eu/jobs/401249 for the common job offer for all DCs on Euraxess. Within the COMBINE project, a total of 17 PhD positions are available
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Overall, Purpose of the Job The main tasks are to advance the use of high-fidelity modelling to improve understanding of the characteristics of the turbulent wakes that develop downstream of large
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both fixed and mobile sensors, the candidate will design methods to improve turbulence models, reduce uncertainties, and deliver reliable real-time forecasts. The ambition is clear: support better
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Modeling, Analysis & Prediction of Particle-laden Real-Gas Supersonic Turbulence. (Ref. 10267290001)
Description Mission: Carry out the modeling, analysis and prediction of real gas supersonic turbulence. Fuctions to be developed: Develop tools to aid analysis. Perform experimental and computational analyses
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encouraged to visit the ESA website: http://www.esa.int Field(s) of activity/research for the traineeship As part of the Wave Interaction and Propagation Section, you will contribute to consolidating
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activity concerns the execution of Direct Numerical Simulations (DNS) of stratified turbulent flows containing dispersed solid phases, as well as the in-depth analysis and interpretation of the results
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controlled turbulent flow conditions. Functions to be developed: Design and build an experimental device to study the growth of biofilms under controlled turbulent flow conditions. Plan and execute