Find your prospective supervisor, research project or research group, collaborator or expert by searching UNSW Sydney Researcher Profiles. Use keywords to view their research interests, publications and areas of expertise.
The aim of the project is to develop and commercialise an improved roof-mounted hybrid solar concentrator PV/thermal (CPVT) product for the cost-effective delivery of solar hea
This project will produce an easy-to-use prototype system for guiding blind and visually impaired (BVI) people both indoors and outdoors and delivering location based information.
To achieve high economical efficiency, modern chemical plants are becoming increasingly complex, to an extent that cannot be effectively managed by existing process modelling and control techniques.
Fouling reduces throughput and productivity of membrane systems and as such increases operating costs and reduces profitability of water treatment industries. This work aims to reduce fouling by reducing the amount of solute at a membrane surface by destabilizing flow control.
The aim of the project is to reveal the mechanisms of the stabilisation of lifted jet flames in hot oxidiser. Such flames occur in several important combustion devices, notably diesel engines.
The project will contribute fundamental knowledge towards the development of the clean and highly efficient homogeneous charge compression ignition engine concept.
Alternative fuels such as renewable ethanol have much potential for a sustainable transportation future, yet engines are not optimised for these fuels, and engine design is hindered by the lack of understanding of key governing phenomena.
This proposal seeks to establish state-of-the-art, high-speed laser diagnostics facilities that provide Australian researchers with unique capabilities to make real-time and space-resolved measurements of reactive species and polluting particles in combustion systems.
Everyone has experienced the sadness associated with melting ice cream, but there are actually some fascinating physics at work that determine the time it takes for a block of ice cream to melt and collapse under its own weight.
We have a number of possible projects in this area dealing with the fascinating self-assembly of monoglycerides in water, as occurs whenever we ingest and digest fats.
The stability of many foods is based on, or affected by, emulsions arrested by colloids. Prediction, and thus optimization, of these products’ stability is often impossible because practitioners lack the fundamental understanding needed to design microstructural and rheological properties.
Anatomically-accurate model of rabbit cardiac pacemaker tissue defined using the MML framework, illustrating a propagating electrical wavefront emanating from the central pacemaking site.
Simplified fluid-structure interaction model of ventricular assist flow in the presence of contracting heart wall and aortic valve leaflets. Ventricular inlet (left) and outlet (right) boundaries are shown as white squares, and ventricular assist flow occurs through the outlet at the bottom.