Nano-scale modification of gold surfaces for sensing mercury from gaseous effluents of alumina refineries. The Australian alumina industry contributes more than $5.4 billion export income annually. It is also a major driver of the rural economy with all but one of Australia's seven alumina refineries located in rural areas. In response to the industry's attempts to reduce the environmental impact of its processes, this project will conduct basic strategic research into the interaction between m ....Nano-scale modification of gold surfaces for sensing mercury from gaseous effluents of alumina refineries. The Australian alumina industry contributes more than $5.4 billion export income annually. It is also a major driver of the rural economy with all but one of Australia's seven alumina refineries located in rural areas. In response to the industry's attempts to reduce the environmental impact of its processes, this project will conduct basic strategic research into the interaction between mercury vapour and gold surfaces at the nano-level. Our principal aim is to develop mercury sensor technology suited to alumina refineries. This innovative technology will be a significant breakthrough in the control of mercury emissions and have many other applications.
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Computer simulation of DNA biochips. The DNA biochip technology has been a major breakthrough in cell biology and clinical analysis. Companies in Australia and in the rest of the world are now developing biochips for genome sequencing and point-of-care diagnosis. DNA biochips have the potential to provide simple, fast and accurate clinical analysis, thus enhancing the efficiency of medical treatments and reducing the costs of health care.
The structural properties of the immobilized DNA are cri ....Computer simulation of DNA biochips. The DNA biochip technology has been a major breakthrough in cell biology and clinical analysis. Companies in Australia and in the rest of the world are now developing biochips for genome sequencing and point-of-care diagnosis. DNA biochips have the potential to provide simple, fast and accurate clinical analysis, thus enhancing the efficiency of medical treatments and reducing the costs of health care.
The structural properties of the immobilized DNA are critical for determining the DNA chip sensitivity and efficiency. A fundamental understanding of the molecular interactions at the surface of a biochip is therefore not only relevant for the scientific community, but can have direct implications for the design of improved DNA chips.Read moreRead less
Calibration Free Coulometric Sensors Based on Polymeric Thin Layer Films. The world faces enormous environmental and clinical challenges that require accurate data from remote deployable and disposable sensors. Many key parameters important to global warming (carbon dioxide cycle) and clinical diagnostics (blood electrolytes) may be assessed with a polymeric membrane sensing technology, but the measurement principle is not sufficiently robust for remote sensing applications. This research will m ....Calibration Free Coulometric Sensors Based on Polymeric Thin Layer Films. The world faces enormous environmental and clinical challenges that require accurate data from remote deployable and disposable sensors. Many key parameters important to global warming (carbon dioxide cycle) and clinical diagnostics (blood electrolytes) may be assessed with a polymeric membrane sensing technology, but the measurement principle is not sufficiently robust for remote sensing applications. This research will make this possible by adapting calibration free measurement principles (coulometry, or charge counting) to this class of sensors, where a thin layer of sample solution will be depleted by instrumental control. This forms the scientific basis for successfully tackling the measurement challenges of the future.Read moreRead less
Sulphate sensor for reverse osmosis integrity and performance monitoring. Sulphate sensor for reverse osmosis integrity and performance monitoring. This project aims to investigate new chemical sensors for sulphate for online reverse osmosis integrity and performance monitoring at an advanced water recycling plant. Wastewater re-use is increasingly important in Australia and worldwide for providing potable water. Demonstrating the integrity and performance of treatment technologies is needed to ....Sulphate sensor for reverse osmosis integrity and performance monitoring. Sulphate sensor for reverse osmosis integrity and performance monitoring. This project aims to investigate new chemical sensors for sulphate for online reverse osmosis integrity and performance monitoring at an advanced water recycling plant. Wastewater re-use is increasingly important in Australia and worldwide for providing potable water. Demonstrating the integrity and performance of treatment technologies is needed to meet health regulations. Sulphate and other surrogates of biological entities enable a rapid, on-line approach to integrity and performance monitoring, but detection with available analytical chemical technology is not feasible. This research is expected to enable better management of water treatment processes and demonstrate compliance to health standards.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC130100021
Funder
Australian Research Council
Funding Amount
$2,100,000.00
Summary
ARC Training Centre for Advanced Technologies in Food Manufacture. Training Centre for Advanced Technologies in Food Manufacture. This Training Centre for Advanced Technologies in Food Manufacture will enable Australian food processing and manufacturing companies to meet the increasing threats of international competition. It will do this through collaboration between industry and the Training Centre’s food science, nutrition and engineering researchers and the development of innovative technolo ....ARC Training Centre for Advanced Technologies in Food Manufacture. Training Centre for Advanced Technologies in Food Manufacture. This Training Centre for Advanced Technologies in Food Manufacture will enable Australian food processing and manufacturing companies to meet the increasing threats of international competition. It will do this through collaboration between industry and the Training Centre’s food science, nutrition and engineering researchers and the development of innovative technologies.
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Use of Gas Expanded Liquids to Facilitate Process Intensification. The aim of this research is the utilisation of gas expanded liquids (GXLs) in technology platforms based on the principles of process intensification (PI). In order to facilitate the attainment of project objectives a comprehensive investigation of the fundamental properties of GXLs, and their interactions is proposed. A significant component of the programme is expected to be to use the knowledge obtained to facilitate the devel ....Use of Gas Expanded Liquids to Facilitate Process Intensification. The aim of this research is the utilisation of gas expanded liquids (GXLs) in technology platforms based on the principles of process intensification (PI). In order to facilitate the attainment of project objectives a comprehensive investigation of the fundamental properties of GXLs, and their interactions is proposed. A significant component of the programme is expected to be to use the knowledge obtained to facilitate the development of scale-up protocol for PI based methodologies, with particular emphasis on the production of biomaterials. GXLs technology is frontier technology with regard to the biomaterials sector.Read moreRead less
Optimising biodegradation and removal of organic and inorganic pollutants in wastewater using constructed wetlands. The urgency of water recycling is dictated by drying climate and rapid expansion of population in Australia. Constructed wetlands are environmentally-benign way to purify wastewater by removing inorganics and facilitating biodegradation of organic pollutants, thus producing recycled water that can be used in a variety of fit-for-purpose applications. This project will produce a dec ....Optimising biodegradation and removal of organic and inorganic pollutants in wastewater using constructed wetlands. The urgency of water recycling is dictated by drying climate and rapid expansion of population in Australia. Constructed wetlands are environmentally-benign way to purify wastewater by removing inorganics and facilitating biodegradation of organic pollutants, thus producing recycled water that can be used in a variety of fit-for-purpose applications. This project will produce a decision-support system for optimising wetland performance in removing inorganics and biodegrading organic pollutants from wastewater, thus enhancing water recycling and reuse in this drying continent of ours.Read moreRead less
Controlling hydrate slurry flow to enable deepwater oil and gas production. This project aims to investigate the plugging of hydrate slurries in pipelines to determine under what conditions they will flow satisfactorily without forming a blockage. Hydrate blockages are expensive and hazardous occurrences in oil and gas operations, so current prevention systems aim to avoid hydrate formation altogether through over-design. These over-designed hydrate prevention systems are extremely expensive to ....Controlling hydrate slurry flow to enable deepwater oil and gas production. This project aims to investigate the plugging of hydrate slurries in pipelines to determine under what conditions they will flow satisfactorily without forming a blockage. Hydrate blockages are expensive and hazardous occurrences in oil and gas operations, so current prevention systems aim to avoid hydrate formation altogether through over-design. These over-designed hydrate prevention systems are extremely expensive to build and costly to run during the operations phase. The project intends to examine the behaviour of hydrate slurry flow as a function of the oil's properties, amount of water and degree of turbulence. Outcomes are intended to be a sophisticated approach to avoiding hydrate blockages that is safe but more efficient and less costly.Read moreRead less
Improvements and Optimisation of Water Electrolysis for Hydroxy Gas Production for Metal Cutting Applications. The current technique for metal cutting mainly uses oxygen-acetylene flames, which means for the large number of Australian remote communities oxygen and acetylene bottles have to be transported from major cities. This incurs significant transport costs and associated environmental emissions and presents major safety concerns. Hydroxy flames using electrolysis of water can alleviate the ....Improvements and Optimisation of Water Electrolysis for Hydroxy Gas Production for Metal Cutting Applications. The current technique for metal cutting mainly uses oxygen-acetylene flames, which means for the large number of Australian remote communities oxygen and acetylene bottles have to be transported from major cities. This incurs significant transport costs and associated environmental emissions and presents major safety concerns. Hydroxy flames using electrolysis of water can alleviate these problems and, by utilising renewable electricity, the new technology to be developed in this research will transform tens of thousands of Australian metal workshops to be more environmentally friendly, safer and more cost-effective, thus contributing to the development of an environmentally sustainable Australia. Read moreRead less
Multiscale Integrated Modelling and Control of an Ethanol-Fuelled Tubular Solid Oxide Fuel Cell. The results from this project will allow use of alternative sources for energy through a better understanding of the functioning, design, operability and control of SOFCs. Fuel Cells (FCs) with biomass ethanol feed will not only act as reliable power source but also reduce greenhouse gas emissions. A successful R&D effort to develop FCs will improve the national energy security by reducing the growin ....Multiscale Integrated Modelling and Control of an Ethanol-Fuelled Tubular Solid Oxide Fuel Cell. The results from this project will allow use of alternative sources for energy through a better understanding of the functioning, design, operability and control of SOFCs. Fuel Cells (FCs) with biomass ethanol feed will not only act as reliable power source but also reduce greenhouse gas emissions. A successful R&D effort to develop FCs will improve the national energy security by reducing the growing dependency on foreign energy sources, improve the environment by reducing carbon and other harmful emissions, and improve the economic growth by expanding the portfolio of highly efficient energy and useful spill over technologies. Read moreRead less