Novel nitrogen removal process via nitrite in a biofilm system and analysis of microbial community dynamics. Nitrogen removal from wastewater is essential to protect our unique aquatic environment. This removal is typically achieved via two steps: Nitrification converts ammonium via nitrite to nitrate; denitrification converts nitrate via nitrite again to harmless nitrogen gas. This project will develop a biofilm reactor system, which enables this process to run via nitrite only, instead of nitr ....Novel nitrogen removal process via nitrite in a biofilm system and analysis of microbial community dynamics. Nitrogen removal from wastewater is essential to protect our unique aquatic environment. This removal is typically achieved via two steps: Nitrification converts ammonium via nitrite to nitrate; denitrification converts nitrate via nitrite again to harmless nitrogen gas. This project will develop a biofilm reactor system, which enables this process to run via nitrite only, instead of nitrate. Savings of 40% carbon and 25% oxygen requirements are possible this way. This process has not yet been demonstrated under controlled conditions, but recent progress in the research groups in Australia and Korea now offer novel ways to accomplish this promising process.Read moreRead less
Frequency stabilisation in the Extremely High Frequency band. All precision communication and measurement systems (i.e. radar and navigation) rely on high quality oscillator technology. Any improvement in oscillator performance has a direct impact on the performance of the system and hence is of potential economic benefit. This project will realise the most stable frequencies ever produced in the underused Extremely High Frequency band, which is also important for space communications and naviga ....Frequency stabilisation in the Extremely High Frequency band. All precision communication and measurement systems (i.e. radar and navigation) rely on high quality oscillator technology. Any improvement in oscillator performance has a direct impact on the performance of the system and hence is of potential economic benefit. This project will realise the most stable frequencies ever produced in the underused Extremely High Frequency band, which is also important for space communications and navigation technology. System enhancement will include, better angular resolution, higher bandwidths, faster transmission rates and narrower beam widths without the susceptibility of absorption apparent from the optical domain.Read moreRead less
Interactive video on-demand for e-learning. Life long learning has become an integral part of many people's career development. Interactive video on-demand (VoD) can be used to deliver video learning materials to students when they choose to study. The aim of this project is to investigate the research issues on designing scalable interactive VoD for e-learning. Comparing with previous work in the area, this project takes a holistic approach, which includes multicast, distributed smart caches an ....Interactive video on-demand for e-learning. Life long learning has become an integral part of many people's career development. Interactive video on-demand (VoD) can be used to deliver video learning materials to students when they choose to study. The aim of this project is to investigate the research issues on designing scalable interactive VoD for e-learning. Comparing with previous work in the area, this project takes a holistic approach, which includes multicast, distributed smart caches and video coding as its building blocks. Huazhong University, who is active in e-learning research, provides an ideal location to trial interactive VoD techniques, due to their large student population. Read moreRead less
Amelioration strategies to reduce environmental deterioration and agricultural production losses in water repellent regions. Millions of hectares of potentially productive agricultural land in Australia are affected by water-repellency. Water repellency causes non-uniform infiltration of water in soils and promotes surface erosion. Consequently, water repellent soils cannot be satisfactorily used for agricultural production, resulting in production losses of millions of dollars annually. This in ....Amelioration strategies to reduce environmental deterioration and agricultural production losses in water repellent regions. Millions of hectares of potentially productive agricultural land in Australia are affected by water-repellency. Water repellency causes non-uniform infiltration of water in soils and promotes surface erosion. Consequently, water repellent soils cannot be satisfactorily used for agricultural production, resulting in production losses of millions of dollars annually. This investigation is part of a genuine international effort that will develop new procedures to ameliorate water-repellent soils. New and improved mathematical models and decision support tools will also be developed to improve water-repellent land management, reduce environmental risk and minimise agriculture production loss.Read moreRead less
The development of low cost sorbents for removal of contaminants in ground water at cold regions contaminated sites. Contamination of soils and waters as a result of industrial and other human activities, is a significant global environmental issue. Both Australia and Japan have a large legacy of hydrocarbon and heavy metals contamination from mining activities and industry. This project aims to address hydrocarbon and heavy metals contamination through investigation of novel, low-cost sorbents ....The development of low cost sorbents for removal of contaminants in ground water at cold regions contaminated sites. Contamination of soils and waters as a result of industrial and other human activities, is a significant global environmental issue. Both Australia and Japan have a large legacy of hydrocarbon and heavy metals contamination from mining activities and industry. This project aims to address hydrocarbon and heavy metals contamination through investigation of novel, low-cost sorbents suitable for implementation in passive in-situ remediation technologies. This will be achieved through the combined efforts of Australian and Japanese scientists who are expert in the fields of water treatment and chemical synthesis of sorbent materials.Read moreRead less
Novel High-Q Resonant Structures for Space and Telecommunications. High-Q microwave resonators with low spurious mode density have important applications in telecommunications, radar, navigation, precision metrology and time standards. We will develop high-Q resonators by constructing a dielectric Bragg resonators using monocrystalline sapphire loaded in a copper cavity with new cylindrical and spherical geometries. Based on these devices, compact and economical state-of-the-art ultra-low noise ....Novel High-Q Resonant Structures for Space and Telecommunications. High-Q microwave resonators with low spurious mode density have important applications in telecommunications, radar, navigation, precision metrology and time standards. We will develop high-Q resonators by constructing a dielectric Bragg resonators using monocrystalline sapphire loaded in a copper cavity with new cylindrical and spherical geometries. Based on these devices, compact and economical state-of-the-art ultra-low noise microwave oscillators and hydrogen masers will be built for the telecommunications market and space applications.Read moreRead less
Degradation of Trace Contaminants Using Sonochemistry and Peroxide Scavenging Advanced Oxidation Processes. Sonochemical degradation of hazardous organic compounds in aqueous solution has been examined extensively in recent years and found to be an effective means of waste treatment however the scavenging of hydroxyl radicals by the relatively high concentrations of hydrogen peroxide produced limits the amount of reactive radicals accessible to target molecules. In this project we will investiga ....Degradation of Trace Contaminants Using Sonochemistry and Peroxide Scavenging Advanced Oxidation Processes. Sonochemical degradation of hazardous organic compounds in aqueous solution has been examined extensively in recent years and found to be an effective means of waste treatment however the scavenging of hydroxyl radicals by the relatively high concentrations of hydrogen peroxide produced limits the amount of reactive radicals accessible to target molecules. In this project we will investigate, by both experimental and computational means, options for the regeneration of hydroxyl radicals through use of hydrogen peroxide. Methods of particular interest include use of Fenton's reagent and ozone.Read moreRead less
Barium Strontium Titanate Thin Films for Tunable Microwave Applications. Australian businesses rely on information and communications technologies (ICT) in order to remain competitive in the global economy. Over the last decade or so, ICT has also found applications in consumer devices, many of which are wireless. This has lead to strong growth in the market for such technologies. Barium strontium titanate (BST) devices can be used to enhance the efficiency and lower the cost of radio frequency ....Barium Strontium Titanate Thin Films for Tunable Microwave Applications. Australian businesses rely on information and communications technologies (ICT) in order to remain competitive in the global economy. Over the last decade or so, ICT has also found applications in consumer devices, many of which are wireless. This has lead to strong growth in the market for such technologies. Barium strontium titanate (BST) devices can be used to enhance the efficiency and lower the cost of radio frequency devices to make wireless technology more accessible for the Australian community. Additionally, BST devices can be applied for frequency agile applications, which are invaluable for the Australian defence sector.Read moreRead less
Biomolecular surface interactions with smart biomaterials. Current materials used for medical implants are often recognised by the body as foreign materials causing implant rejection or encapsulation. Research into the interactions between biological molecules and chemically and topographically modified materials will aid in the development of new materials and devices that optimise the body's response to the implanted material. The new materials and surfaces developed from this research will pr ....Biomolecular surface interactions with smart biomaterials. Current materials used for medical implants are often recognised by the body as foreign materials causing implant rejection or encapsulation. Research into the interactions between biological molecules and chemically and topographically modified materials will aid in the development of new materials and devices that optimise the body's response to the implanted material. The new materials and surfaces developed from this research will provide longer lasting implants and reduce the need for repeated operations. This will improve the quality of life for implant recipients and reduce health care costs.Read moreRead less
Nanostructures of Surfactants at Solid-Liquid and Gas-Liquid Interfaces and Interfacial Properties. The proposed research aims to investigate nanostructures of surface-active agents at interfaces and related interfacial properties. Specifically, the proposal focuses on quantitative models for the self-assembly of surfactants at solid-liquid and gas-liquid interfaces, experimental validation of the models and interfacial properties produced by the surfactants for industrial applications. The stud ....Nanostructures of Surfactants at Solid-Liquid and Gas-Liquid Interfaces and Interfacial Properties. The proposed research aims to investigate nanostructures of surface-active agents at interfaces and related interfacial properties. Specifically, the proposal focuses on quantitative models for the self-assembly of surfactants at solid-liquid and gas-liquid interfaces, experimental validation of the models and interfacial properties produced by the surfactants for industrial applications. The study will increase our understanding of surfactant-interface interaction to allow us to have greater control over the interfacial properties and improve the interface-based industrial processes. The research is relevant to the minerals and coal processing industry worth hundreds of billions dollars annually to Australia and USA.Read moreRead less