Please note that the PhD projects listed are examples of projects offered to current CDT students and as such are not generally available to prospective students.
Geometric numerical integration concerns the preservations the geometric and conservative structure of the underlying PDEs. This geometric structure is responsible for the (integral) conservation laws...
Understanding the effect of airflow in indoor environments is of great interest due to its close relationship to occupant’s safety, thermal comfort, energy and infection...
Wings of most insects are decorated by complex nanostructures that promote multifunctionality. Such natural examples offer consistent source of inspiration for biomimetic engineering of novel...
This project seeks to overcome current obstacles to predictive modelling of nucleate boiling in droplets impacting on realistic non-uniform heated surfaces. The key development will be...
Understanding convection is important in a range of geophysical problems. For example, in the interior of the Earth in the fluid outer core or in...
Microfluidic devices are promising to revolutionise the biomedical industry from rapid disease diagnostics and modelling to high-throughput drug screening and assessment. Much of the engineering...
Computational fluid dynamics (CFD) simulations can assist in treatment planning for cardio/cerebrovascular interventions. This project involves the development of fully-automatic images-to-simulation workflows that can be...
Have you ever felt uncomfortable or suffocated in crowds in a shopping mall? Do you know how fast an airborne contagious disease can spread in...
Understanding the effect of airflow in enclosed/indoor environments is of great interest due to its close relationship to occupant’s health, thermal comfort, and energy efficiency....
This project will address fundamental aspects of viscous flow arising from the evolution of a complex microstructure in the material, eventually informing efforts to predict...