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- NORWEGIAN UNIVERSITY OF SCIENCE & TECHNOLOGY - NTNU
- ; University of Southampton
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- ; Northumbria University
- ; Technical University of Denmark
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- Eindhoven University of Technology
- NTNU - Norwegian University of Science and Technology
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(computational fluid dynamics, solving linear systems, high-performance computing, etc.). Soft skills: analytical thinking, structured and organized work, high intrinsic motivation. Requirements (MATHEMATICS
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France Application Deadline 17 Jun 2024 - 23:59 (Europe/Paris) Type of Contract Temporary Job Status Full-time Offer Starting Date 2 Sep 2024 Is the job funded through the EU Research Framework Programme
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in the fields of energy engineering, computational fluid dynamics, and multiphase fluid mechanics. You will join an enthusiastic, friendly, and supportive group of PhD students and postdocs who are all
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with the Technical University of Denmark you will develop a detailed Computational Fluid Dynamics (OpenFOAM) model to simulate and quantify the trapping of microplastics in salt marsh vegetation. Next
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models. In collaboration with the Technical University of Denmark you will develop a detailed Computational Fluid Dynamics (OpenFOAM) model to simulate and quantify the trapping of microplastics in salt
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liquid tin targets: what really happens when a laser pulse hits a tin droplet? New fluid dynamics understanding will lead to new capabilities for laser-tailoring targets. These new capabilities will allow
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thresholds for vibration during transportation difficult to establish. The aim of this project is to experimentally address the multiphase fluid dynamics of shaking vials and intravenous bags containing liquid
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atmospheric and computational fluid dynamic models. However, simulations are expensive, particularly at high resolutions, and thus, it can be impractical to simulate all the possible wind farm development
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our extensive workshops. You will have the opportunity to work with the tight-knit PhDs and postdocs of the Experimental Fluids Group at Southampton who will be a part of your network. Entry
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close proximity to porous materials to understand their influence on bubble dynamics. Use non-Newtonian fluids, including granular materials and yield-stress fluids, to observe and quantify