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Highly efficient electric power and value-added synthesis gas co-generation from methane with zero greenhouse gas emission. This project addresses a novel sealing-free solid oxide fuel cell system producing simultaneously synthesis gas and electricity from methane with zero greenhouse gas emission. The project aims to deliver economic benefits and contribute to environmental protection and increased employment opportunities.
HgCdSe: A novel II-VI semiconductor material for next generation infrared technologies. High performance infrared sensors and systems represent core technologies in various civilian and defence applications such as remote sensing, environment monitoring, night vision and national security. The goal of this project is to develop new mercury cadmium selenide-based materials on gallium antimonide substrates for future high performance infrared sensors with the unique features of low cost, large arr ....HgCdSe: A novel II-VI semiconductor material for next generation infrared technologies. High performance infrared sensors and systems represent core technologies in various civilian and defence applications such as remote sensing, environment monitoring, night vision and national security. The goal of this project is to develop new mercury cadmium selenide-based materials on gallium antimonide substrates for future high performance infrared sensors with the unique features of low cost, large array size, room temperature operation as well as multiband detection. The outcomes of this project will lead to new science and next generation infrared sensors of benefit to Australian industry and defence technology. Read moreRead less
Addressing Challenges for the Future Grids – Harmonics Standardization. The main aim of this project is to deliver appropriate frequency standardisation to protect electricity grids and support the use of renewable energy sources. Globally, there is no harmonic standardisation within the frequency range of 2–150 kHz, which can significantly affect the reliability of electricity networks and smart grids. Electricity networks are increasingly using renewable energy sources and an efficient loads a ....Addressing Challenges for the Future Grids – Harmonics Standardization. The main aim of this project is to deliver appropriate frequency standardisation to protect electricity grids and support the use of renewable energy sources. Globally, there is no harmonic standardisation within the frequency range of 2–150 kHz, which can significantly affect the reliability of electricity networks and smart grids. Electricity networks are increasingly using renewable energy sources and an efficient loads approach based on power electronics technology. However, this can affect grid reliability and robustness. The project aims to develop advanced tools to better understand the power quality issues of Australian residential, commercial and industrial distribution networks. It also aims to develop novel techniques to improve power quality and reliability of the grids, and to develop harmonics emission and immunity levels to modify the Australian standards accordingly.Read moreRead less