Enhancing Direct Cu Recovery through Increased Gas Processing Understanding. This project aims to investigate mechanisms of copper loss during smelting and find new ways to reduce the loss. Smelting, which produces copper matte product and slag tailings, is an important step of the copper-making process from copper sulphides. The loss of copper to slag can be as high as 12 per cent. The project aims to create new knowledge about copper loss by matte droplets floated with gas bubbles generated by ....Enhancing Direct Cu Recovery through Increased Gas Processing Understanding. This project aims to investigate mechanisms of copper loss during smelting and find new ways to reduce the loss. Smelting, which produces copper matte product and slag tailings, is an important step of the copper-making process from copper sulphides. The loss of copper to slag can be as high as 12 per cent. The project aims to create new knowledge about copper loss by matte droplets floated with gas bubbles generated by chemical reactions to the slag phase. The outcomes are intended to enable copper smelters to maximise direct copper recovery, reduce copper production costs and increase the productivity of the smelting process.Read moreRead less
Sustainable copper metallurgy and recycling – saving energy and resources. This project aims to develop new, powerful and sophisticated, computer-based models that can reliably predict the results of chemical reactions in complex, high temperature metal production processes. This project expects to use these models, initially applied to copper smelting systems, to enable the improved recycling of other valuable metals. These models should be able to be applied to a wide range of technologies use ....Sustainable copper metallurgy and recycling – saving energy and resources. This project aims to develop new, powerful and sophisticated, computer-based models that can reliably predict the results of chemical reactions in complex, high temperature metal production processes. This project expects to use these models, initially applied to copper smelting systems, to enable the improved recycling of other valuable metals. These models should be able to be applied to a wide range of technologies used in the metallurgical industry as most of the world’s metals are produced by these pyrometallurgical processes. This should provide significant benefits such as substantial improvements in productivity and process efficiencies, whilst at the same time delivering energy savings and improved use of valuable metal resources.Read moreRead less
Creating wealth from new resources - High temperature extraction of metals from complex copper ores and recycled materials. Most of the world’s copper is produced using high temperature chemical processing (smelting). Both primary ores and recycled raw materials contain valuable elements and also potentially harmful impurity elements. To unlock and utilise current and new resources, and also minimise the environmental impacts the industry has identified the need for new fundamental scientific da ....Creating wealth from new resources - High temperature extraction of metals from complex copper ores and recycled materials. Most of the world’s copper is produced using high temperature chemical processing (smelting). Both primary ores and recycled raw materials contain valuable elements and also potentially harmful impurity elements. To unlock and utilise current and new resources, and also minimise the environmental impacts the industry has identified the need for new fundamental scientific data that describe the chemical behaviour of impurity elements in these systems. The project aims to then use the data to develop powerful computer-based thermodynamic models that can predict the products of complex industrial processes. These sophisticated tools are intended to then be used to improve the performance of existing industrial operations and assist in the development of new process designs.Read moreRead less
Finding Porphyry Copper with zircon trace elements & hyperspectral display. Copper mine discovery rates lag behind world needs. One way to find copper in the World’s Ring of Fire is to measure compositions of zircons which are durable minerals concentrated in stream sands and spreadout long distances below a deposit. 100s of zircon from a cup of sand constitute a sample. Zircon chemical features that indicate possible mines are mostly understood, but nature is complicated. Beyond the 26 channel ....Finding Porphyry Copper with zircon trace elements & hyperspectral display. Copper mine discovery rates lag behind world needs. One way to find copper in the World’s Ring of Fire is to measure compositions of zircons which are durable minerals concentrated in stream sands and spreadout long distances below a deposit. 100s of zircon from a cup of sand constitute a sample. Zircon chemical features that indicate possible mines are mostly understood, but nature is complicated. Beyond the 26 channels of chemical data for each grain in the 10,000s of analyses, there are 7 layers of lab imaging data that are not carried along in a convenient way. Geologists need smart computer systems to find useful relationships among the 33 channels and to discover relations within and between samples to find more mineable copper. Read moreRead less
Experimental constraints on the genesis of gold-rich ore deposits. The project will provide a new set of tools to explore for gold-rich ore deposits in Australia and globally. By integrating geochemical studies with cutting-edge experiments carried out at three Australian universities in strategic partnership with industry, the outcomes of this project will provide much needed knowledge to predict the locations of large gold-rich deposits that are concealed beneath vast expanses of the Australia ....Experimental constraints on the genesis of gold-rich ore deposits. The project will provide a new set of tools to explore for gold-rich ore deposits in Australia and globally. By integrating geochemical studies with cutting-edge experiments carried out at three Australian universities in strategic partnership with industry, the outcomes of this project will provide much needed knowledge to predict the locations of large gold-rich deposits that are concealed beneath vast expanses of the Australian continent. The new results will translate into smarter exploration practice, significantly enhancing success in targeting ore deposits that are rich in high-value metal and display the smallest have a small environmental footprint, to underpin the sustainability of our nation into the future.
Read moreRead less
From exploration to mining: new geological strategies for sustaining high levels of copper production from the Mount Isa district. Mineral production at the Mount Isa copper and Ernest Henry copper-gold mines is worth more than $ 1 billion per year and this has underpinned the northern Queensland economy for a number of years. These resources are being depleted at a high rate, and no significant new discoveries have been made in over a decade. This project will provide some of the tools to defin ....From exploration to mining: new geological strategies for sustaining high levels of copper production from the Mount Isa district. Mineral production at the Mount Isa copper and Ernest Henry copper-gold mines is worth more than $ 1 billion per year and this has underpinned the northern Queensland economy for a number of years. These resources are being depleted at a high rate, and no significant new discoveries have been made in over a decade. This project will provide some of the tools to define new resources for the next generation, ensuring the prosperity of the region and bolstering the Australian economy. The timing is critical given the long lead time between discovery and production (in the order of 5 to 10 years). If successful the research may have major financial impacts at local, regional and national scales. It may also improve mine safety.Read moreRead less
Fundamental experimental and modelling studies of slag/matte/metal/gas systems in support of sustainable copper smelting and converting technologies. Australia is in the midst of a sustained increase in demand for its mineral resources that is leading to expansion in production and major capital investments across the industry sector. Most of the primary production of copper metal in Australia takes place through the use of high temperature smelting technologies. New technologies and significant ....Fundamental experimental and modelling studies of slag/matte/metal/gas systems in support of sustainable copper smelting and converting technologies. Australia is in the midst of a sustained increase in demand for its mineral resources that is leading to expansion in production and major capital investments across the industry sector. Most of the primary production of copper metal in Australia takes place through the use of high temperature smelting technologies. New technologies and significant changes to existing smelting technologies are currently underway; driven by the need to improve both productivity and environmental performance. This research partnership will provide important fundamental information about the complex chemistries of these high temperature processes. This project will assist these process improvements and will provide competitive advantage to Australian industry.Read moreRead less
Improvements in the pyrometallurgical processing of nickel oxide and laterite ores at QNI Yabulu, North Queensland. The QNI Yabulu operation in Queensland is an important supplier of nickel and cobalt metals to the export market. The company is planning to expand the scale of the operations but is faced with two important sustainability issues. One is the recent changes to the European regulations that require very low levels of residual nickel oxide in the nickel metal product. The second issue ....Improvements in the pyrometallurgical processing of nickel oxide and laterite ores at QNI Yabulu, North Queensland. The QNI Yabulu operation in Queensland is an important supplier of nickel and cobalt metals to the export market. The company is planning to expand the scale of the operations but is faced with two important sustainability issues. One is the recent changes to the European regulations that require very low levels of residual nickel oxide in the nickel metal product. The second issue relates to ensuring the supply and improved recovery of nickel and cobalt from oxide-based ores. Further fundamental scientific information is required to provide improved understanding of the complex chemical reactions occurring during the high temperature treatment of these materials, and to guide improvements in product quality, recovery and process efficiencyRead moreRead less
ADVANCED THERMODYNAMIC AND PROCESS MODELS FOR HIGH TEMPERATURE METAL SMELTING TECHNOLOGIES - A COLLABORATIVE RESEARCH PROGRAM IN PYROMETALLURGY. This 5-year ARC Linkage project developed by the Pyrometallurgy Research Centre, UQ brings together several consortia of major mineral companies in a genuinely collaborative way to address a range of complex technical problems associated with the high temperature chemical processing of minerals and metals.
The UQ research team brings new state-of-the- ....ADVANCED THERMODYNAMIC AND PROCESS MODELS FOR HIGH TEMPERATURE METAL SMELTING TECHNOLOGIES - A COLLABORATIVE RESEARCH PROGRAM IN PYROMETALLURGY. This 5-year ARC Linkage project developed by the Pyrometallurgy Research Centre, UQ brings together several consortia of major mineral companies in a genuinely collaborative way to address a range of complex technical problems associated with the high temperature chemical processing of minerals and metals.
The UQ research team brings new state-of-the-art research methodologies, and experimental and computer modelling techniques to provide scientifically important research outcomes which can be used by the industry. The research program will provide fundamental thermodynamic and physical property information on the complex chemical systems encountered in industrial processes, powerful computer models, and applied research outputs for industry. The project will also importantly provide research training in the field pyrometallurgy, deliver competitive advantage to the Australian mineral industry and bring economic benefits particularly to regional Australia.
Read moreRead less
New Lead-Free Brass Solutions for Drinking Water Applications. The aim of this Linkage Project is to provide viable material solutions to address the health problem of Lead-contamination in drinking water arising from Leaded-brass plumbing products and the impact Lead-removal from brass will have on the brass industry. In order to achieve this, this project engages leading multidisciplinary researchers along with Australian and international industry partners from across the brass industry suppl ....New Lead-Free Brass Solutions for Drinking Water Applications. The aim of this Linkage Project is to provide viable material solutions to address the health problem of Lead-contamination in drinking water arising from Leaded-brass plumbing products and the impact Lead-removal from brass will have on the brass industry. In order to achieve this, this project engages leading multidisciplinary researchers along with Australian and international industry partners from across the brass industry supply and sales network. This project seeks to identify and harness the key material-product attributes required to develop and implement new, lead-free alloy alternatives that meet health-compliance, production and commercial viability, that offer benefits across the industry network and health benefits to society.Read moreRead less