Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Employer
- Newcastle University
- University of Nottingham
- Forschungszentrum Jülich
- DAAD
- Delft University of Technology (TU Delft)
- Empa
- KU LEUVEN
- Nature Careers
- Swansea University
- University of Sheffield
- Uppsala universitet
- Aalborg Universitet
- Aalborg University
- Brunel University London
- CNRS
- Cranfield University
- Delft University of Technology (TU Delft); Published yesterday
- Eindhoven University of Technology (TU/e); yesterday published
- Imperial College London;
- Inria, the French national research institute for the digital sciences
- Linköping University
- Newcastle University;
- Queensland University of Technology
- The University of Edinburgh
- The University of Manchester
- Universidade de Vigo
- Universitat Autonoma de Barcelona
- Universitat Politècnica de València
- University of Birmingham;
- University of Bristol;
- University of East Anglia
- University of Newcastle
- University of Sheffield;
- University of Surrey
- 24 more »
- « less
-
Field
-
CFD-DEM Modelling for Producing High-Purity Quartz Sand Award Summary 100% fees covered, and a minimum tax-free annual living allowance of £20,780 (2025/26 UKRI rate). Additional project costs will
-
on empirical optimisation, leading to inefficiencies in energy use and impurity removal. This PhD project proposes to develop a Coupled Computational Fluid Dynamics-Discrete Element Method (CFD-DEM) model
-
PhD project is centred around advanced CFD modelling of liquid green fuel (methanol and ammonia) combustion under engine-like conditions, i.e., in a constant-volume combustion chamber (CVCC
-
. The duration of the position is three years. Your work tasks The PhD project is centred around advanced CFD modelling of liquid green fuel (methanol and ammonia) combustion under engine-like conditions, i.e., in
-
industrial adoption of high-order CFD technologies. As the PhD researcher on this project, you will investigate and develop the numerical and algorithmic components needed to make this hybrid high order to low
-
CFD technologies. As the PhD researcher on this project, you will investigate and develop the numerical and algorithmic components needed to make this hybrid high order to low order strategy practical
-
Dynamics (CFD). This is an exciting opportunity to contribute to cutting-edge research that supports the next generation of sustainable aeroengines. The successful candidate will join a supportive team of
-
push the limits of multiphysics CFD for laser manufacturing by developing a next-generation simulation capability for laser drilling (with relevance to additive manufacturing). Your work will capture
-
push the limits of multiphysics CFD for laser manufacturing by developing a next-generation simulation capability for laser drilling (with relevance to additive manufacturing). Your work will capture
-
critical, to ensure expected engine performance is achieved. To predict this complex flow and heat transfer, next-generation Computational Fluid Dynamics (CFD) solvers using Large-Eddy Simulation (LES) and