Non-linear dynamics of magnetic bearing systems. The aim of this project is to gain a much deeper insight into the effects of non-linearities on the dynamic behavior and on the performance of active magnetic bearings(AMBs). This project will focus attention on stability analysis, bifurcation control, malfunction analysis, and nonlinear dynamic behavior. The expected outcomes are better understanding and prediction of nonlinear behavior and control of AMBs and improved guidelines for designing sa ....Non-linear dynamics of magnetic bearing systems. The aim of this project is to gain a much deeper insight into the effects of non-linearities on the dynamic behavior and on the performance of active magnetic bearings(AMBs). This project will focus attention on stability analysis, bifurcation control, malfunction analysis, and nonlinear dynamic behavior. The expected outcomes are better understanding and prediction of nonlinear behavior and control of AMBs and improved guidelines for designing safer and more effective AMBs.Read moreRead less
Investigation of the audio spotlight for active noise control. The focus of this project is to investigate a new technology - the audio spotlight - with the aim of developing an active noise control (ANC) system that incorporates the audio spotlight as a control source. The audio spotlight offers the potential to overcome or significantly modify the fundamental physical constraints that limit the performance of ANC systems that use conventional loudspeakers as control sources. Just as audio spot ....Investigation of the audio spotlight for active noise control. The focus of this project is to investigate a new technology - the audio spotlight - with the aim of developing an active noise control (ANC) system that incorporates the audio spotlight as a control source. The audio spotlight offers the potential to overcome or significantly modify the fundamental physical constraints that limit the performance of ANC systems that use conventional loudspeakers as control sources. Just as audio spotlights may be the most radical technological development in acoustics since the invention of the coil loudspeaker, successful incorporation of an audio spotlight into an active noise control system will revolutionise active noise control.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120102052
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Resolving flame stabilisation mechanisms in the transition to moderate or intense low oxygen dilution (MILD) combustion. Next-generation combustion technologies are required in the transition to more efficient, and less polluting, energy production. This project will address the important issue of understanding flame stabilisation on a fundamental level to facilitate the design and development of more efficient and sustainable combustion systems.
Resolving the impact of pressure on hot and low-oxygen combustion. Despite the important role of renewable energy sources, combustion will remain essential for transportation into the foreseeable future. This project aims to investigate flames burning in a hot and low-oxygen environment. The objective is to better understand how these conditions could be applied to gas turbines. This project expects to generate new knowledge to enable a reduction in emissions, improvement in efficiency and incre ....Resolving the impact of pressure on hot and low-oxygen combustion. Despite the important role of renewable energy sources, combustion will remain essential for transportation into the foreseeable future. This project aims to investigate flames burning in a hot and low-oxygen environment. The objective is to better understand how these conditions could be applied to gas turbines. This project expects to generate new knowledge to enable a reduction in emissions, improvement in efficiency and increase in power output. Expected outcomes of this project include improved understanding of the governing physics to enable development of design tools for next-generation engines. This should provide significant benefits, such as reduced reliance on fossil fuels and a critical reduction in greenhouse gas emissions.Read moreRead less
Better predictions of spray flames. This project aims to predict spray flames using experimental and computational modelling of the combustion near burning droplets in spray flames. Spray flames are the dominant source of energy for the transportation sector, and are expected to remain so well into the future. Limited understanding of combustion processes surrounding the burning of the droplets restricts further technological development. This project is expected to enable progress in design too ....Better predictions of spray flames. This project aims to predict spray flames using experimental and computational modelling of the combustion near burning droplets in spray flames. Spray flames are the dominant source of energy for the transportation sector, and are expected to remain so well into the future. Limited understanding of combustion processes surrounding the burning of the droplets restricts further technological development. This project is expected to enable progress in design tools for spray flame combustors operating on liquid fuels, including bio-fuels. The result will be lower pollutant emissions and lower the cost of design of new engines.Read moreRead less
The precise manipulation and deformation of fine glass medical products. The production of high quality medical products requires strict process control, which is especially important for products of microscopic dimensions such as the glass pipettes used for in vitro fertilization (IVF) procedures and other research applications. In this project, a tailored mechanical system capable of simultaneously deforming a fine glass pipette at two points of micro geometrical dimensions and different temp ....The precise manipulation and deformation of fine glass medical products. The production of high quality medical products requires strict process control, which is especially important for products of microscopic dimensions such as the glass pipettes used for in vitro fertilization (IVF) procedures and other research applications. In this project, a tailored mechanical system capable of simultaneously deforming a fine glass pipette at two points of micro geometrical dimensions and different temperatures will be developed after accurately experimentally benchmarking and computationally simulating the process. The system will be able to accommodate different types of pipettes and significantly improve the productivity and quality of this micro process.Read moreRead less
Adaptation of carbon free fuels to high temperature industrial processes. This project aims to deepen our understanding of the underpinning scientific and engineering solutions required to adapt carbon free renewable fuels to high temperature industrial processes. The project will advance the knowledge base of innovative strategies, such as fuel blending and oxidant stream vitiation needed to replace fossil based fuels with alternatives such as hydrogen, or ammonia. Advance experimental and comp ....Adaptation of carbon free fuels to high temperature industrial processes. This project aims to deepen our understanding of the underpinning scientific and engineering solutions required to adapt carbon free renewable fuels to high temperature industrial processes. The project will advance the knowledge base of innovative strategies, such as fuel blending and oxidant stream vitiation needed to replace fossil based fuels with alternatives such as hydrogen, or ammonia. Advance experimental and computational tools will be used to investigate the controlling parameters to facilitate adaptation including burning characteristics, modes of heat transfer and pollutant emissions. The project will generate deeper understanding of the proposed approaches, detailed and unique high fidelity data, and suitable predictive models.Read moreRead less