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Development of porous burner reactors

The project involves a laboratory experimental study to examine the mechanisms of ultra-lean combustion, coupled with a computational fluid dynamics (CFD) and kinetic modelling stud more...

Supervisor(s): Harris, Andrew (Professor)

Development of a CFD based numerical approach in predicting wind loads on structures

The purpose of this research is to identify alternative approaches to traditional wind tunnel based design procedure and improve the current design standards. more...

Supervisor(s): Mohotti, Damith (Dr)

Computational Automotive Aeroacoustics

Current automotive aerodynamic design is driven by a myriad of requirements including minimum drag, minimum noise, favourable handling, thermal management and vehicle soiling. Our g more...

Supervisor(s): Thornber, Ben (Dr)

Blast and impact loadings on structures

The purpose of this research is to identify improve the current design approaches and develop innovative structural systems to mitigate damage caused by extreme loadings such as bla more...

Supervisor(s): Mohotti, Damith (Dr)

Improving flow stability in small-scale spray dryers

The aim of this project is to improve the degree of flow stability in small-scale spray dryers.  more...

Supervisor(s): Langrish, Timothy (Professor)

New robust spray dryer designs

This project will develop more robust designs of spray dryers that give greater flow stability and are more tolerant of process upsets than current conventional designs. more...

Supervisor(s): Langrish, Timothy (Professor)

Stability and transition of natural convection boundary layers

This ongoing project is developing analytic and semi-analytic methods and using direct numerical simulation to further develop our understanding of the fundamental behaviour of the more...

Supervisor(s): Armfield, Steven (Professor)

Biological flocculation of suspended particle matter in nutrient-rich acqueous ecosystems

This project is aimed to investigate the flocculation dynamics of biomineral suspended particle matter (SPM) in turbulently-stirred waters. The objective is to assess the effect of more...

Supervisor(s): Maggi, Federico (Dr)

Guided Self-Organisation and Swarm Engineering

Funding is available for applicants interested in carrying out fundamental and applied research in the field of complex systems. The research will involve theoretical work as well a more...

Supervisor(s): Prokopenko , Mikhail (Professor)

Development of smart materials impedance graded composite materials in blast and impact mitigation

The purpose of this research is to develop novel composite materials and structural systems which have wide range of applications. more...

Supervisor(s): Mohotti, Damith (Dr)