Stability Analysis of Power System with Massive Power Electronic Devices. The decarbonization of Australia's power systems is to integrate massive renewable energy sources which are interfaced with many power electronic devices (PEDs). The fast and complex dynamics of PEDs have significantly changed the nature of the power system, which limits the applicability of existing tools and methods to assess its stability. The goal of this project is to gain a comprehensive insight into the stability of ....Stability Analysis of Power System with Massive Power Electronic Devices. The decarbonization of Australia's power systems is to integrate massive renewable energy sources which are interfaced with many power electronic devices (PEDs). The fast and complex dynamics of PEDs have significantly changed the nature of the power system, which limits the applicability of existing tools and methods to assess its stability. The goal of this project is to gain a comprehensive insight into the stability of a futuristic power system with high penetration of PEDs. The intended outcomes will be a model and data jointly driven methodology for high-efficient and real-time stability assessment. The methodology developed in this project will support Australia's transition to a stable, secure, and low-carbon power grid.Read moreRead less
Robust electricity networks accommodating high levels of renewables. Increased wind and solar power are an essential part of greenhouse gas reduction. This project develops innovative network controls using remote measurements for transmission robustness and control on customer demand management to control voltage. These steps will make the electricity supply system robust to high levels of renewable generation.
Improved design and operational efficiency of small wind turbines in unsteady flows. The purpose of this research is to improve the design and performance of small wind turbines for energy generation. The expected outcomes are novel control strategies and mechanical designs that account for unsteady aerodynamics and its effects on structural loads and power quality. Recommendations to improve current design standards will be made.
Conjugate natural convection boundary layers. Conjugate natural convection systems occur when a conducting vertical wall separates fluids at different temperatures (that is at a window separating the interior of a room from the outside or when a container of fluid is placed in a refrigerator). This project will provide accurate predictions of such flows together with scaling relations.
Design of Functionalized Mesoporous Fullerenes for Clean Energy. This project aims to design multifunctional, noble metal-free, and highly ordered mesoporous fullerene with a high conductivity and different porous structures, functionalised with nitrogen and/or metal and metal oxide nanoparticles in both powder and film forms. The most promising, stable, and highly efficient noble metal-free electrode catalyst system will be designed with the functionalised mesoporous fullerenes for polymer elec ....Design of Functionalized Mesoporous Fullerenes for Clean Energy. This project aims to design multifunctional, noble metal-free, and highly ordered mesoporous fullerene with a high conductivity and different porous structures, functionalised with nitrogen and/or metal and metal oxide nanoparticles in both powder and film forms. The most promising, stable, and highly efficient noble metal-free electrode catalyst system will be designed with the functionalised mesoporous fullerenes for polymer electrolyte membrane and direct methanol fuel cells. This novel highly efficient and low cost electrode system for fuel cells aims to help address clean energy generation and environmental problems and create new opportunities for Australian industries.Read moreRead less
Achieving fuel flexibility in modern combustors. This project will develop and apply the leading combustion models to premixed and diffusion flames for a range of fuels with varying properties to provide the fundamental insights and research and development tools that are required for a transition to energy from a diverse range of renewable and synthetic fuels.
Multifunctional 2D materials for sustainable energy applications. This project seeks to explore the great potential of novel graphene-like two dimensional (2-D) materials for energy applications. 2-D materials, which possess atomic or molecular thickness and infinite planar lengths, are regarded as a building block for many applications due to their unique nanostructures, electronic and mechanical properties. This project is focused on the design and exploration of layered two-dimensional artifi ....Multifunctional 2D materials for sustainable energy applications. This project seeks to explore the great potential of novel graphene-like two dimensional (2-D) materials for energy applications. 2-D materials, which possess atomic or molecular thickness and infinite planar lengths, are regarded as a building block for many applications due to their unique nanostructures, electronic and mechanical properties. This project is focused on the design and exploration of layered two-dimensional artificial graphene and graphene analogues with ‘on-demand’ properties to exploit advanced energy applications. There is now a pressing need to integrate graphene sheets into multidimensional and multifunctional systems with spatially well-defined configurations, and integrated systems with a controllable structure and predictable performance. Project outcomes may lead to next-generation devices in energy storage and other applications.Read moreRead less
Designing plasmon-enhanced photocatalysts for solar-driven water pollutant removal. The outcomes of this program will lead to a new class of composite photocatalysts for efficient water purification using sunlight. Such technology will speed up the transition of Australian environmental and energy industries from a fossil fuel economy to renewable energy economy.
Entrainment and Mixing in Turbulent Negatively Buoyant Jets and Fountains. The project intends to develop tools to accurate predict fountain flows. Volcanic eruptions, building ventilation and brine discharge from desalination plants are all examples of turbulent fountains and negatively buoyant jets. The project aims to conduct an investigation into the turbulent structure of fountains and negatively buoyant jets using numerical simulation and laboratory experiments, and to assess the accuracy ....Entrainment and Mixing in Turbulent Negatively Buoyant Jets and Fountains. The project intends to develop tools to accurate predict fountain flows. Volcanic eruptions, building ventilation and brine discharge from desalination plants are all examples of turbulent fountains and negatively buoyant jets. The project aims to conduct an investigation into the turbulent structure of fountains and negatively buoyant jets using numerical simulation and laboratory experiments, and to assess the accuracy of the commonly used integral models and test the effect of the use of more accurate entrainment relations. This may have a range of applications – enabling better prediction of environmental impacts, reduction of the adverse effects of the discharge of pollutants, and reduction in energy consumption in building ventilation and other industrial applications.Read moreRead less
A new role for vibration analysis in gear wear modelling and prediction. This project aims to improve prediction of the remaining useful life of gears. Gears are widely used in industry and transport. This project aims to integrate the two main methods of gear condition monitoring, vibration and oil analysis, and perform model-based wear prediction with the tribology and dynamic models continually updated on the basis of measured wear debris and vibration. New signal processing tools should allo ....A new role for vibration analysis in gear wear modelling and prediction. This project aims to improve prediction of the remaining useful life of gears. Gears are widely used in industry and transport. This project aims to integrate the two main methods of gear condition monitoring, vibration and oil analysis, and perform model-based wear prediction with the tribology and dynamic models continually updated on the basis of measured wear debris and vibration. New signal processing tools should allow estimation of relatively weak friction forces, previously neglected, as an important prognostic tool. This would allow detailed root cause analysis and prediction of remaining useful life. Improvements in gear prognosis would have safety and economic benefits by eliminating unforeseen catastrophic failures and optimising maintenance schedules.Read moreRead less