Thermal management of methane fuelled planar solid oxide fuel cells. Solid oxide fuel cells (SOFCs) are novel devices for generating energy with extremely low emissions. This project will conduct novel experiments and numerical simulations to improve the efficiency of SOFCs. This will then allow wider adoption of this technology, thus reducing CO2 and other environmental emissions from our power generation systems.
Defect engineering in molecular beam epitaxy-grown mercury cadmium telluride. This project aims to develop high quality mercury cadmium telluride (HgCdTe) materials with lower defect density and lower background doping levels. This will enable future, high-performance, lower-cost infrared sensors with the unique features of higher yield, larger array size and higher operating temperature. The project will generate new science and technologies on defect engineering in the epitaxial growth of sem ....Defect engineering in molecular beam epitaxy-grown mercury cadmium telluride. This project aims to develop high quality mercury cadmium telluride (HgCdTe) materials with lower defect density and lower background doping levels. This will enable future, high-performance, lower-cost infrared sensors with the unique features of higher yield, larger array size and higher operating temperature. The project will generate new science and technologies on defect engineering in the epitaxial growth of semiconducting HgCdTe on cadmium zinc telluride (CdZnTe) substrates. This will contribute to the development of core Australian industry sectors such as defence, environmental monitoring, medical imaging, earth remote sensing, mining, and oil and gas.Read moreRead less
Investigation of contaminant distribution, deposition and poisoning of cathodes of solid oxide fuel cells. The purpose of the project is to fundamentally study the poisoning process of contaminants on the performance degradation and activity of solid oxide fuel cells (SOFC) cathode and to develop contaminant-tolerant cathodes, so as to ensure the product life over five years of the BlueGen SOFC systems being developed by Ceramic Fuel Cells Ltd. in Melbourne.
Parallel operating stand-alone renewable energy microgrids for remote area power systems. This project aims to develop a remote area power supply that minimises the use of diesel in meeting the energy needs of remote communities and mining camps. Based on the concept of parallel operating AC-DC hybrid microgrids supplied by renewable energy sources, backed up by advanced battery energy storage and high-efficiency variable speed diesel engine, the project proposes to design and develop power syst ....Parallel operating stand-alone renewable energy microgrids for remote area power systems. This project aims to develop a remote area power supply that minimises the use of diesel in meeting the energy needs of remote communities and mining camps. Based on the concept of parallel operating AC-DC hybrid microgrids supplied by renewable energy sources, backed up by advanced battery energy storage and high-efficiency variable speed diesel engine, the project proposes to design and develop power system components and their control, protection and communication methods.Read moreRead less
Advanced glazing systems for solar energy harvesting and radiation control. Development of advanced energy-saving glass and glazings capable of generating electricity is expected to lead towards new products of significant commercial potential. The outcomes of this project undertaken by Edith Cowan University and Tropiglas will raise the energy efficiency of commercial buildings and vehicles to levels not possible with other technologies.
On-chip spectroscopy and hyperspectral imaging for remote environments. On-chip spectroscopy and hyperspectral imaging for remote environments. This project aims to investigate techniques and materials for building optical spectrometers based on micromachines, usable in portable ground-based and drone-mounted applications in remote environments. Optical spectroscopy is now an accepted technique for materials detection and analysis. The advent of low-cost drone aircraft makes the potential applic ....On-chip spectroscopy and hyperspectral imaging for remote environments. On-chip spectroscopy and hyperspectral imaging for remote environments. This project aims to investigate techniques and materials for building optical spectrometers based on micromachines, usable in portable ground-based and drone-mounted applications in remote environments. Optical spectroscopy is now an accepted technique for materials detection and analysis. The advent of low-cost drone aircraft makes the potential applications of spectroscopy in an imaging form immense. The project expects the resulting low-cost and highly portable technology will transform Australian industry, including securing Australia’s food supply by improving farming practices, aiding mineral exploration, and enhancing capabilities for monitoring Australia’s coastline.Read moreRead less