Ongeveer 22 uur geleden - NWO-institutenorganisatie - Nijmegen
During this project you will develop and exploit an experimental setup able to measure the spatial diffusion of photo-excited electron-hole pairs (excitons) …
Multidisciplinary project to forecast water depths in the Dutch North Sea
The project is organized along three interrelated sub-projects. For each subproject, a PhD candidate is looked for. In subproject P1, we will develop a new technique to transfer heights over large water bodies in order to realise a height system that covers the whole model domain and meets the required accuracy. This realisation serves as the unified height datum to which both observed and modelled water levels will refer. In subproject P2, we will develop a model that resolves the fronts, freshwater lenses, and baroclinic effects, that are characteristic features in the Dutch coastal waters, at high resolution. To validate/calibrate this model, we will use salinity/temperature profiles derived from multibeam echosounding data. In subproject P3, we will develop new and operational techniques to 1) assimilate full water levels (in particular those provided by satellite radar altimeters), and 2) describe the accuracy of the model forecasts. Together with the contributions from P1 and P2, this enables us to build a prototype of the seamless forecasting system for total water depths in the Dutch North Sea. Building and validating this prototype is also part of P3. For more information about the project as a whole and the three subprojects, we refer to versatile-hydrodynamics.nl/.
Applicants should have the following qualifications:
• Ability to cooperate with both scientific and industrial partners;
• Proven programming skills;
• Keen interest in data analytics;
• Good proficiency in spoken and written English.
Specific requirements P1:
• MSc degree in geodesy (preferably);
• Solid background in physical geodesy and probability and estimation theory;
• Knowledge of physical oceanography/experience in numerical flow modelling is beneficial.
Specific requirements P2:
• MSc degree in environmental fluid mechanics/physical oceanography/mathematics;
• Solid background in environmental flows physics;
• Proven experience with numerical modelling.
Specific requirements P3:
• MSc degree in mathematics;
• Knowledge of data assimilation, stochastic processes, probability theory, statistics, and system and control;
• Strong affinity with numerical modelling.
Delft University of Technology (TU Delft) is a multifaceted institution offering education and carrying out research in the technical sciences at an internationally recognised level. Education, research and design are strongly oriented towards applicability. TU Delft develops technologies for future generations, focusing on sustainability, safety and economic vitality. At TU Delft you will work in an environment where technical sciences and society converge. TU Delft comprises eight faculties, unique laboratories, research institutes and schools. Civil Engineering & Geosciences The Versatile Hydrodynamics project is a joint project of three faculties of TU Delft, the German Federal Agency for Cartography and Geodesy (BKG, Frankfurt), and Deltares. It aims at the development of tomorrow’s marine navigation products. The development of a hydrodynamic model which resolves all relevant 3D physical processes is a key element of the project. This model will be linked to a strong and extended observational network that allows accurate, seamless forecasting of total water depths in the Dutch North Sea. Please check versatile-hydrodynamics.nl for more information.