Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
- Delft University of Technology (TU Delft)
- Wageningen University & Research
- Delft University of Technology (TU Delft); Delft
- Eindhoven University of Technology (TU/e)
- Utrecht University
- ARCNL
- Delft University of Technology (TU Delft); Published yesterday
- Eindhoven University of Technology
- Eindhoven University of Technology (TU/e); Eindhoven
- Eindhoven University of Technology (TU/e); yesterday published
- University of Twente (UT)
- University of Twente (UT); Enschede
- Utrecht University; Published yesterday
- Wetsus - European centre of excellence for sustainable water technology
- 4 more »
- « less
-
Field
-
to electrochemisty and electromagnetics. Interface tracking/capturing methods such as immersed boundary method, level-set method, volume-of-fluid, phase filed method are options for model development.
-
In the energy transition many technologies rely on the injection and extraction of energy carriers, like geothermal heat, CO2 and hydrogen. Repeated fluid pumping could lead to clogging of fluid
-
dispersion. Yet conventional Computational Fluid Dynamics (CFD) workflows rely on watertight geometric models and volumetric meshes that are slow, complex, and costly to produce. Within the POINT-TWINS project
-
December 2025 Apply now In the energy transition many technologies rely on the injection and extraction of energy carriers, like geothermal heat, CO2 and hydrogen. Repeated fluid pumping could lead to
-
geothermal heat, CO2 and hydrogen. Repeated fluid pumping could lead to clogging of fluid pathways. Are you ready to dive into the how, using cutting-edge imaging techniques? Then the Department of Earth
-
of microorganisms in fluids. Living systems such as bacteria or algae exhibit remarkable capabilities: they swim, adapt, interact, and self-organize into dynamic patterns. Understanding and replicating these life
-
PhD researchers working on related reactive fluids and energy topics. You will work in a multicultural environment where knowledge is shared openly, and you will be supported through mentorship and
-
computational fluid dynamic simulations can currently resolve spatial and temporal scales of industrially-relevant turbulent flows within days/weeks. On the other hand, typical design cycles in industry still
-
with high-performance computing (HPC), parallel computational fluid dynamic simulations can currently resolve spatial and temporal scales of industrially-relevant turbulent flows within days/weeks
-
connections between research and education. Our research is clustered in three focal areas: Fluids, Bio and Soft Matter (FBSM); Plasmas and Beams (PB); and Nano, Quantum and Photonics (NQP). Our shared ambition