Optimising dissolved air flotation (DAF) for algae removal by bubble modification in drinking water and advanced wastewater systems. Algal blooms in potable water reservoirs and advanced wastewater treatment lagoons can impact the performance and economic viability of water treatment processes resulting in taste and odour episodes and the risk of algal toxins as well as causing further limitation to already stressed water resources in Australia. This project aims to develop an adaptation of the ....Optimising dissolved air flotation (DAF) for algae removal by bubble modification in drinking water and advanced wastewater systems. Algal blooms in potable water reservoirs and advanced wastewater treatment lagoons can impact the performance and economic viability of water treatment processes resulting in taste and odour episodes and the risk of algal toxins as well as causing further limitation to already stressed water resources in Australia. This project aims to develop an adaptation of the dissolved air flotation process that is already used for algae treatment that will provide a more robust, economic and sustainable barrier to algal cells in accordance with the Australian Drinking and Recycled Water Guidelines.Read moreRead less
University of Queensland/Arizona State University partnership to design industrially suitable zeolite membranes for desalination. For desalination, the highest costs are organic-based membrane replacement (lasting ~1 year) and energy requirement. Functionalised zeolitic membranes are low-cost, high performing, chemically tolerant and thermally stable. New zeolite membranes in principle could perform the separation outlasting their organic counterparts, while at the same time offering major energ ....University of Queensland/Arizona State University partnership to design industrially suitable zeolite membranes for desalination. For desalination, the highest costs are organic-based membrane replacement (lasting ~1 year) and energy requirement. Functionalised zeolitic membranes are low-cost, high performing, chemically tolerant and thermally stable. New zeolite membranes in principle could perform the separation outlasting their organic counterparts, while at the same time offering major energy reductions from higher fluxes. Current zeolite membrane research for desalination however is lacking. The proposed team offers experience in bringing highly significant lab scale technologies to industrial scales. The outcomes will address mutual priorities between Australia and USA for reliable low cost supply of fresh water.Read moreRead less
Molecular phenomena and engineering of saline water-air interfaces. Saline water use in Australia's mining, agricultural, and drinking water industries is increasing. Many of the production processes of these industries are underpinned by many complex molecular phenomena and interactions at the saline water - air interfaces which we want to understand, optimise and design. The findings will have direct benefits in the field of flotation used to recover valuable minerals using hyper-saline bore w ....Molecular phenomena and engineering of saline water-air interfaces. Saline water use in Australia's mining, agricultural, and drinking water industries is increasing. Many of the production processes of these industries are underpinned by many complex molecular phenomena and interactions at the saline water - air interfaces which we want to understand, optimise and design. The findings will have direct benefits in the field of flotation used to recover valuable minerals using hyper-saline bore water and to produce drinking water from seawater by desalination. This project is important because it will lead to sustainable ways of producing water and using water in industry. Its success will ensure that our industries remain at the forefront of innovation and are globally competitive.Read moreRead less
Developing high-flux ceramic membranes via in situ synthesis of metal oxide nanofibres for separations of biological substances. This project can deliver advanced technology for fabricating ceramic membranes and biological separation, which has considerable commercial prospects in the chemical, pharmaceutical, dairy, food and water industries. The new ceramic membrane and nanofibres are highly-valued end products of metal oxides, which are manufactured commercially on large scale in Australia. T ....Developing high-flux ceramic membranes via in situ synthesis of metal oxide nanofibres for separations of biological substances. This project can deliver advanced technology for fabricating ceramic membranes and biological separation, which has considerable commercial prospects in the chemical, pharmaceutical, dairy, food and water industries. The new ceramic membrane and nanofibres are highly-valued end products of metal oxides, which are manufactured commercially on large scale in Australia. The project could bring direct benefits to the existing industries, by fostering their growth into more value-added processes, and exporting highly-valued products abroad. Additionally, efficient ceramic membranes could offer solutions to the large-scale purification of biological substances and to the problems for providing clean drinking water.Read moreRead less
An intelligent maintenance decision system for the water utility industry. The reliability and maintenance of pump stations is of paramount importance to the water utility industries. In Australia, the maintenance of assets for the water and wastewater industry amounts to $927m per annum. This research will develop an intelligent maintenance decision support system to reduce maintenance costs in pumping stations with increased reliability. The outcomes of the research will significantly improve ....An intelligent maintenance decision system for the water utility industry. The reliability and maintenance of pump stations is of paramount importance to the water utility industries. In Australia, the maintenance of assets for the water and wastewater industry amounts to $927m per annum. This research will develop an intelligent maintenance decision support system to reduce maintenance costs in pumping stations with increased reliability. The outcomes of the research will significantly improve the reliability and supply security of water systems to Queensland's rural and regional communities and industries. It will also advance the body of knowledge of the field of integrated asset management and enhance Australia's international standing in this field.Read moreRead less
Meshes of Oxide Nanofibres for Next-Generation Ceramic Membranes. Our next-generation ceramic membranes will increase the speed and efficiency of present industrial separations as well as expanding into a variety of new separations, thereby transforming many Australian industries. Exports of this new technology also will generate significant national benefits. Application of these new membranes to removing pollutants and pathogens from water and/or air will bring significant community benefits g ....Meshes of Oxide Nanofibres for Next-Generation Ceramic Membranes. Our next-generation ceramic membranes will increase the speed and efficiency of present industrial separations as well as expanding into a variety of new separations, thereby transforming many Australian industries. Exports of this new technology also will generate significant national benefits. Application of these new membranes to removing pollutants and pathogens from water and/or air will bring significant community benefits globally, addressing such crucial issues as low-cost provision of clean drinking water. Additionally, understanding the cutting-edge science associated with the mechanisms of nanofibre growth and the assembly of nanofibre meshes is highly valuable, making an important contribution to Australia's knowledge-economy.Read moreRead less