A novel low-energy process route for primary copper production utilising synergistic hydro- and pyro-metallurgical processes. With increasing demand for copper metal, there is an urgent need to find new ways to efficiently treat lower grade ores. The new process offers a way of significantly reducing energy consumption and greenhouse gas emissions in primary copper production and making more efficient use of the world's copper resources.
The SAVE Trial: Securing All IntraVenous Devices Effectively In Hospitals. A Randomised Controlled Trial
Funder
National Health and Medical Research Council
Funding Amount
$980,393.00
Summary
Going to hospital usually means having an IV drip in your hand or arm vein. Almost half of all IV drips fall out or fail because they are not well secured to the skin. This means patients miss out on treatment and have additional painful needlesticks to insert new devices. Serious infections can also occur. This study will find the best dressings to use on IV drips. Patients will have their drips glued in with medical superglue, or have one of two new dressings, compared with current usual care.
Effect of Saline Water on Flotation Processes. The Australian mineral and coal industry is valued at $40 billion in export income per year. This significant component of the Australian economy will benefit from this research into the increased use of highly saline water to improve coal and mineral flotation recovery. The project will keep Australia at the leading edge of flotation research, research training and development for the coal and mineral industry. With direct relevance to the National ....Effect of Saline Water on Flotation Processes. The Australian mineral and coal industry is valued at $40 billion in export income per year. This significant component of the Australian economy will benefit from this research into the increased use of highly saline water to improve coal and mineral flotation recovery. The project will keep Australia at the leading edge of flotation research, research training and development for the coal and mineral industry. With direct relevance to the National Research Priorities: Water - a Critical Resource, this project will make contributions to the development of a more environmentally sustainable coal and mineral processing industry.Read moreRead less
Adequate nutrition is necessary for recovery from illness. 30-40% of hospitalised patients may be malnourished. The critically ill are at higher risk because of increased energy requirements yet often receive less than 50% of required nutritional intake. Adequate nutrition therapy is associated with improved patient outcomes, such as reduced mortality and reduced infectious complications. Robust strategies to implement of evidence-based recommendations for nutrition therapy are required.
Intravascular Device Administration Sets: Replacement After Standard Versus Prolonged Use (The RSVP Trial)
Funder
National Health and Medical Research Council
Funding Amount
$1,611,239.00
Summary
Most hospital patients need an IV drip, a small plastic tube in a vein, often the hand/arm. 14 million/yr are used in Australia. IV drips are connected to plastic tubing through which fluid & medicine is given. IV tubing is needed for a week or more, but is only used for 3-4 days as it was thought this might prevent infection. It is now thought that IV tubing can be used for a week. This would save $1 billion/year & reduce nurses workload. The research will test the safety of this approach.
Control of Hydrophobic Interactions between Gas Bubbles in Water and Their Role in Gas Hydrate Formation and Dissociation. Methane is a powerful greenhouse gas, and its release in deep oceans and permafrost regions due to decomposition of methane hydrate, an ice-like crystalline, could potentially pose devastating threat to mankind. On the other hand, methane hydrate represents a vast energy potential to Australia and the remainder of the world. Understanding the mechanism of gas hydrate formati ....Control of Hydrophobic Interactions between Gas Bubbles in Water and Their Role in Gas Hydrate Formation and Dissociation. Methane is a powerful greenhouse gas, and its release in deep oceans and permafrost regions due to decomposition of methane hydrate, an ice-like crystalline, could potentially pose devastating threat to mankind. On the other hand, methane hydrate represents a vast energy potential to Australia and the remainder of the world. Understanding the mechanism of gas hydrate formation and dissociation is of fundamental importance to methane extraction and capture. This project employs state-of-the-art surface analytical tools to explore the mechanism of gas hydrate formation. The outcomes will strengthen Australia's leading role in scientific and technological development in this field. Read moreRead less
Impact of recycled and low quality process water on sustainable mineral processing practices. Water is in short supply and needs to be considered as a 'key reagent'. The quality of this reagent can vary widely. For a sustainable mineral processing practice, the use of recycled or low quality/saline process water will be essential for a plant to operate in the future. The major benefit is recognition that significant recycle of process water for flotation is achievable if simple water quality con ....Impact of recycled and low quality process water on sustainable mineral processing practices. Water is in short supply and needs to be considered as a 'key reagent'. The quality of this reagent can vary widely. For a sustainable mineral processing practice, the use of recycled or low quality/saline process water will be essential for a plant to operate in the future. The major benefit is recognition that significant recycle of process water for flotation is achievable if simple water quality control and management practices are implemented. In addition, a better understanding and control of water quality in recycled/saline process water may lead to improved flotation stability and performance, and reduced reagent consumption.Read moreRead less
Mineral Flotation - Integrating Science and Practice. Froth flotation is one of the most important processes in the recovery of valuable minerals from ores. This project aims to achieve a quantum improvement in the understanding of flotation, delivered as a computer model that will predict flotation response from measurable particle properties such as size, mineral composition and hydrophobicity. Providing the scientific foundation for the current practice of flotation, it will also allow floa ....Mineral Flotation - Integrating Science and Practice. Froth flotation is one of the most important processes in the recovery of valuable minerals from ores. This project aims to achieve a quantum improvement in the understanding of flotation, delivered as a computer model that will predict flotation response from measurable particle properties such as size, mineral composition and hydrophobicity. Providing the scientific foundation for the current practice of flotation, it will also allow floatability to be predicted when regrinding, oxidation or reagent addition occurs, which is beyond the scope of any current modelling approach. The model will be validated on full-scale flotation plants in Australian mineral processing operations.Read moreRead less
Inorganic membrane percrystallisation in hydrometallurgy. This project aims is to develop the scientific and engineering basis for a new Australian inorganic membrane technology for the crystallisation of metal compounds. Inorganic membrane percrystallisation is a recent breakthrough promising improved productivity, energy savings and the ability to tailor particle properties. This project will develop a mechanistic model encompassing solution transport phenomena, crystal nucleation-growth-agglo ....Inorganic membrane percrystallisation in hydrometallurgy. This project aims is to develop the scientific and engineering basis for a new Australian inorganic membrane technology for the crystallisation of metal compounds. Inorganic membrane percrystallisation is a recent breakthrough promising improved productivity, energy savings and the ability to tailor particle properties. This project will develop a mechanistic model encompassing solution transport phenomena, crystal nucleation-growth-agglomeration and engineering process parameters affecting single and binary salt systems. This model will provide a basis for technology development benefiting Australia, such as the improvement of the production of nickel sulphate for the growing battery materials market.Read moreRead less
Evaluation Of SCID-I In The Diagnosis Of Mental Disorders In Indigenous Australians
Funder
National Health and Medical Research Council
Funding Amount
$988,007.00
Summary
Current estimates of mental disease among Indigenous Australians are inadequate. This research will examine the use of a structured interview tool that is promoted globally for diagnosing mental disorders, and then use the tool to quantify the burden of mental illness among Indigenous Australians. The findings will provide accurate estimates of occurrence of mental disorders, thereby help inform policy making and planning of services for Indigenous Australians.