NEUTRALISING MINERAL REACTIONS IN ACID MINE DRAINAGE CONTROL. The project addresses the serious environmental problem of acid and toxic element release from iron sulfides in waste rock dumps and tailings storage in the mining industry. Long-term neutralising capacity, currently not tested in laboratory assessments, is available from the reaction of some silicate and aluminosilicate minerals. This potential has not been systematically tested or modelled. The research project aims to understand th ....NEUTRALISING MINERAL REACTIONS IN ACID MINE DRAINAGE CONTROL. The project addresses the serious environmental problem of acid and toxic element release from iron sulfides in waste rock dumps and tailings storage in the mining industry. Long-term neutralising capacity, currently not tested in laboratory assessments, is available from the reaction of some silicate and aluminosilicate minerals. This potential has not been systematically tested or modelled. The research project aims to understand the relative mechanisms and rates for long-term alleviation of acid production with mineral layered and blended combinations. Improved understanding will provide methodology for assessment and control of acid mine drainage.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882787
Funder
Australian Research Council
Funding Amount
$390,000.00
Summary
An Integrated Raman Microscope and in Situ STM-TEM Analysis System. The imaging and analytical capabilities of SEM and chemical and structural characterisation afforded by Raman spectroscopy will be unique, allowing both rapid morphological observation and elemental analysis at the macro and nanoscale. The in-situ TEM holder will further assist through in-situ characterization of advanced materials at the nano-scale level. In combination, these instruments will underpin groundbreaking research i ....An Integrated Raman Microscope and in Situ STM-TEM Analysis System. The imaging and analytical capabilities of SEM and chemical and structural characterisation afforded by Raman spectroscopy will be unique, allowing both rapid morphological observation and elemental analysis at the macro and nanoscale. The in-situ TEM holder will further assist through in-situ characterization of advanced materials at the nano-scale level. In combination, these instruments will underpin groundbreaking research in diverse research fields developing new advanced nanomaterials and bio-nanomaterials with significant impact on many industries with great economical and environmental benefits. Read moreRead less
Reaction transition states of halide-cluster complexes via velocity-map imaging of photoelectrons. This study will investigate the transition point between the reactants and products of a chemical reaction using a novel photoelectron imaging technique, velocity-map imaging. It is this region of chemical reactions that is the least understood. By combining the use of weakly bound negatively charged clusters and laser photodetachment of these clusters, information can be gleaned about these transi ....Reaction transition states of halide-cluster complexes via velocity-map imaging of photoelectrons. This study will investigate the transition point between the reactants and products of a chemical reaction using a novel photoelectron imaging technique, velocity-map imaging. It is this region of chemical reactions that is the least understood. By combining the use of weakly bound negatively charged clusters and laser photodetachment of these clusters, information can be gleaned about these transition states. The technique will be applied to an important class of halide-cluster complexes that form a set of prototypical reactions. These species also play important roles ranging from ozone depletion through to industrial chemistry.Read moreRead less
Imaging chemical reaction dynamics from the transition state to reaction products. Chemical reactions play a key role in many atmospheric, environmental and industrial processes. An understanding of reactions at the molecular level will lead to significant economic benefits, through more efficient reaction control, and through the identification of the key environmental factors which influence why particular reactions proceed. Our study of chemical reaction dynamics has been driven by technolo ....Imaging chemical reaction dynamics from the transition state to reaction products. Chemical reactions play a key role in many atmospheric, environmental and industrial processes. An understanding of reactions at the molecular level will lead to significant economic benefits, through more efficient reaction control, and through the identification of the key environmental factors which influence why particular reactions proceed. Our study of chemical reaction dynamics has been driven by technological advances which enable key stages of a reaction to be imaged and studied at the molecular level. Read moreRead less
Environmentally Benign Flotation Chemicals. The research described in this proposal and the anticipated outcomes are concerned with replacing toxic and environmentally hazardous chemicals used in the mineral processing industry with benign chemicals that are biodegradable and have low toxicity. Replacing these chemicals reduces the risk of workplace injuries and damage to the environment that could be caused by industrial accidents.
Cause and effect: new mechanisms of particles formation in thunderstorms. This project aims to identify meaningful and specific indicators for predicting particle formation and alteration during thunderstorms. How thunderstorms develop is well-understood. However, identifying meaningful and specific indicators for predicting particle alteration during a thunderstorm is still not clear. This project will practically contribute to the evidence of the impact of air particulates, thereby having dire ....Cause and effect: new mechanisms of particles formation in thunderstorms. This project aims to identify meaningful and specific indicators for predicting particle formation and alteration during thunderstorms. How thunderstorms develop is well-understood. However, identifying meaningful and specific indicators for predicting particle alteration during a thunderstorm is still not clear. This project will practically contribute to the evidence of the impact of air particulates, thereby having direct implications for meteorological, and air pollution policy in Australia and worldwide. This project will allow researchers to understand the impact of these factors on the escalation of the causative effects, and to find a way to prevent unnecessary fatal outcomes.Read moreRead less
Development of an efficient oxygen-thiosulfate process for the recovery of gold from ores. Gold is currently recovered from the ore by a cyanide leaching process. This high risk procedure is used because there is currently no safe alternative. The research we propose to undertake will investigate a novel thiosulfate-oxygen process to dissolve gold. Successful completion of the project will identify the mechanism of the process and could lead to the replacement of the highly toxic cyanide with th ....Development of an efficient oxygen-thiosulfate process for the recovery of gold from ores. Gold is currently recovered from the ore by a cyanide leaching process. This high risk procedure is used because there is currently no safe alternative. The research we propose to undertake will investigate a novel thiosulfate-oxygen process to dissolve gold. Successful completion of the project will identify the mechanism of the process and could lead to the replacement of the highly toxic cyanide with the non toxic thiosulfate. Thus the proposed project has the potential to substantially alter the gold recovery process, particularly in an era where environmental and public concerns exist over the use of cyanide.Read moreRead less
Molecular signatures of complex photodissociation reactions. All energy on earth comes from the sun, either directly (e.g photosynthesis) or indirectly (e.g fossil fuels). Photochemistry is the study of how this light is absorbed and what happens to a molecule afterwards. Despite significant experimental and theoretical advances in the past decade (some in our lab), scientists still cannot predict the outcomes of most photochemical reactions. In this project we will determine the reactivity o ....Molecular signatures of complex photodissociation reactions. All energy on earth comes from the sun, either directly (e.g photosynthesis) or indirectly (e.g fossil fuels). Photochemistry is the study of how this light is absorbed and what happens to a molecule afterwards. Despite significant experimental and theoretical advances in the past decade (some in our lab), scientists still cannot predict the outcomes of most photochemical reactions. In this project we will determine the reactivity of several small, fundamental organic molecules. Not only are these molecules pollutants around our cities, but discovery of how they react in the presence of light will allow us to understand and predict the photochemistry of a much wider range of organic species.Read moreRead less
Optimising Froth Zone Performance in Mineral Flotation. Froth flotation is the most widely applied technique for the selective separation of valuable mineral from gangue mineral particles. This project aims to optimize the selective separation of valuable minerals from gangue minerals within the froth zone of flotation. This project has very high national significance as deficiencies in the froth zone performance of industrial flotation plants, leads to a significant loss of valuable mineral f ....Optimising Froth Zone Performance in Mineral Flotation. Froth flotation is the most widely applied technique for the selective separation of valuable mineral from gangue mineral particles. This project aims to optimize the selective separation of valuable minerals from gangue minerals within the froth zone of flotation. This project has very high national significance as deficiencies in the froth zone performance of industrial flotation plants, leads to a significant loss of valuable mineral from mineral concentrates, as well as a reduction in concentrate grade and quality. An expected outcome of this project will be a series of new tools and methodologies to optimize froth zone performance, which will have industry wide application.Read moreRead less
Sulfuric acid formation from atmospheric sulfur trioxide and disulfur oxide: is one water molecule enough? Sulfate aerosols significantly affect the amount of solar radiation reaching the Earth, influencing the nett energy balance, and mitigating the greenhouse effect. A major source of these aerosols is sulfuric acid. Understanding the sources and formation rates of sulfuric acid production is of considerable importance for global climate models. This project will provide significant insight in ....Sulfuric acid formation from atmospheric sulfur trioxide and disulfur oxide: is one water molecule enough? Sulfate aerosols significantly affect the amount of solar radiation reaching the Earth, influencing the nett energy balance, and mitigating the greenhouse effect. A major source of these aerosols is sulfuric acid. Understanding the sources and formation rates of sulfuric acid production is of considerable importance for global climate models. This project will provide significant insight into the sulfur oxides and their water clusters, relevant to sulfuric acid formation, providing data applicable to the modelling of planetary atmospheres, especially timely for the Venus Express mission, and more importantly, the building of comprehensive climate models.Read moreRead less