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Turbulent transport of algae in stably stratified rivers: a computational fluid dynamics study

In stably stratified shear flows, turbulent mixing is suppressed by the background stratification. In rivers, these conditions allow buoyant cyanobacteria to float to the surface an more...

Supervisor(s): Williamson, Nicholas (Dr), Armfield, Steven (Professor)

Miscellaneous topics in Geophysical Fluid Dynamics

The project aims at improving modelling and understanding of global ocean processes that include currents, turbulence and mixing. more...

Supervisor(s): Chabchoub, Amin (Associate Professor)

Turbulent mixing in stably stratified flow: a laboratory and field based study

In stably stratified shear flows, turbulent mixing is suppressed by the background stratification. This project will examine this dynamic using laboratory experiments and field meas more...

Supervisor(s): Williamson, Nicholas (Dr), Armfield, Steven (Professor)

Experimental studies on nonlinear wave hydrodynamics

The project aims at finding new characteristic propagation properties of uni-directional and directional nonlinear waves. more...

Supervisor(s): Chabchoub, Amin (Associate Professor)

Modelling of extreme ocean waves

The project aims at modelling and predicting of extreme waves in the ocean. more...

Supervisor(s): Chabchoub, Amin (Associate Professor)

Controlled atomisation of liquid sprays

This PhD project will look at the development, validation and application of computational models for the atomisation of liquid sprays. The successful candidate will work with novel more...

Supervisor(s): Cleary, Matthew (Associate Professor)

Modelling of supersonic combustion

This PhD project will look at the development, validation and application of computational models for the supersonic combustion. The successful candidate will work with novel physic more...

Supervisor(s): Cleary, Matthew (Associate Professor)

Formation of soot and nanoparticles in turbulent flames

This PhD project will look at the development, validation and application of computational models for the formation of soot and other nano-scale particles in turbulent flames. The s more...

Supervisor(s): Cleary, Matthew (Associate Professor)

Develop point-of-care microfluidic technologies for cardiovascular and cerebrovascular diseases

We are developing a clinically useful, rapid and high throughput profiling microdevices for thrombosis and coagulation. It will be extremely useful for patients with diabetes, obesi more...

Supervisor(s): Ju, Lining (Arnold) (Dr)