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.
Settling of solid particles in fluids are seen in numerous industrial and natural situations, ranging from pharmaceutical processing to sedimentation in oceans. Whilst empirical and...
Our ability to confidently predict the safety of a nuclear waste repository depends on our ability to correctly model the interaction of fluids residing in...
The importance and relevance of fluid mixing in modern science is clear, both from the range of industrial and environmental situations in which it appears,...
NASA image of organised deep convective storms over Africa Tropical weather and climate is dominated by deep convection (“thunderstorms”). Organised systems of convection (mesocale convective...
The Wetropolis flood demonstrator [1] is a portable set-up designed to provide the general public a visualisation of what a return period is for extreme...
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...
Wastewater treatment processes have high energy costs and are challenging to optimise due to the complex coupled processes occurring. Over 10 billion litres of sewage...
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...
Contaminant removal commonly involves forcing a fluid through a sorption column – a confined tube filled with porous material capable of removing certain components of...
The planetary boundary layer (the first 1–2 km above the surface) is the most dynamic and turbulent layer of Earth’s atmosphere, contributing the greatest uncertainty...