-
the atmosphere, and the interactions between wind farms. This project represents an opportunity for us to advance our collective knowledge of fluid and atmospheric dynamics relevant to wind energy. Join us in
-
to push the boundaries of fundamental fluid and atmospheric dynamics, enhance wind farm efficiency, and deepen our understanding of their interaction with the atmosphere. Join us in pushing the boundaries
-
industrial innovators and will provide a dynamic and stimulating environment for your development as a research scientist. As part of the PhD program, you would have the opportunity to receive further
-
2024 - 21:59 (UTC) Type of Contract Temporary Job Status Not Applicable Hours Per Week 40.0 Is the job funded through the EU Research Framework Programme? Not funded by an EU programme Is the Job related
-
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