Development of an integrated methodology to assess dewatering system performance in solid-liquid separation. 3D visualisations of microstructures are possible with techniques such as confocal laser microscopy and high resolution X-ray microtomography. Data obtained in-situ enable direct computation of solids assembly properties and their permeability to fluids. A specific application involving aggregate formation and sediment networks could be evaluated through micro-scale analysis combined with ....Development of an integrated methodology to assess dewatering system performance in solid-liquid separation. 3D visualisations of microstructures are possible with techniques such as confocal laser microscopy and high resolution X-ray microtomography. Data obtained in-situ enable direct computation of solids assembly properties and their permeability to fluids. A specific application involving aggregate formation and sediment networks could be evaluated through micro-scale analysis combined with robust fluid flow simulations. The method can potentially be utilized to predict trends such as filtration behaviour of materials under different states of compression. This offers significant benefits in formulating the design of flocculated systems pertinent to a number of industrial sectors wishing to design optimum solid-liquid separation processes.Read moreRead less
Unsteady-State Operation of Slurry and Fixed-Bed Fischer-Tropsch Reactors for Improved Process Performance. The development of efficient gas-to-liquid processes via the Fischer-Tropsch reaction is the most economically viable route for the production of non-petroleum based chemicals and environmentally-friendly fuels from abundant natural gas. This investigation proposes the exploitation of both reactor and catalyst dynamics behaviour to obtain higher hydrocarbon synthesis rate and selectivity n ....Unsteady-State Operation of Slurry and Fixed-Bed Fischer-Tropsch Reactors for Improved Process Performance. The development of efficient gas-to-liquid processes via the Fischer-Tropsch reaction is the most economically viable route for the production of non-petroleum based chemicals and environmentally-friendly fuels from abundant natural gas. This investigation proposes the exploitation of both reactor and catalyst dynamics behaviour to obtain higher hydrocarbon synthesis rate and selectivity not attainable under conventional steady-state operation. With current market conditions of about US$30/bbl for crude oil, even modest process improvements of 30-60% will make the process competitive. Whilst individual national energy policy goals are promoted, the research will further strengthen closer economic and technology ties between France and Australia.Read moreRead less
Establishing the relationship between water characteristics and fouling of membranes used in water reuse. The project will result in the following significant benefits to the Australian and international partners: a state-of-the-art laboratory and semi-pilot system from which a full-scale system could be developed and tested, funded by the water industry; an outstanding research project for postgraduate students at the University of Technology, Sydney (UTS), Gwangji Institute of Science and Tech ....Establishing the relationship between water characteristics and fouling of membranes used in water reuse. The project will result in the following significant benefits to the Australian and international partners: a state-of-the-art laboratory and semi-pilot system from which a full-scale system could be developed and tested, funded by the water industry; an outstanding research project for postgraduate students at the University of Technology, Sydney (UTS), Gwangji Institute of Science and Technology, Korea (GIST) and Yale University; and fostering a culture of innovation in the wastewater industry in Australia, Korea and USA and contributing to the commercialization of research by UTS, GIST and YU.Read moreRead less
An innovative wastewater treatment system for the removal of persisting organic pollutants (POPs). Photocatalysis is an emerging technology in wastewater treatment that is capable of completely converting POPs into harmless compounds. In this research, we will combine the expertise of Gwangju Institute of Science and Technology (GIST) in water reuse technologies, and Chonnam National University (CNU) in advanced oxidation processes with that of UTS' in physico-chemical treatment processes to dev ....An innovative wastewater treatment system for the removal of persisting organic pollutants (POPs). Photocatalysis is an emerging technology in wastewater treatment that is capable of completely converting POPs into harmless compounds. In this research, we will combine the expertise of Gwangju Institute of Science and Technology (GIST) in water reuse technologies, and Chonnam National University (CNU) in advanced oxidation processes with that of UTS' in physico-chemical treatment processes to develop a novel photocatalysis hybrid system. Through long term collaboration we aim to: (i) establish an innovative hybrid system for POPs removal, (ii) prepare industry grants, (iii) research training of postgraduate research students, and (iv) help to commercialize our research outcomes for domestic benefit and export.Read moreRead less
A better way to remove arsenic from drinking water. Arsenic is a serious pollutant of drinking water in parts of Australia and in Asia, We propose to developed an inovative technology to remove arsenic from water. Our international partnership combines the expertise of the University of Regina (UR), Canada in physico-chemical treatment processes with that of the UTS in membrane processes. Through a long term collaboration we aim to: (i) establish a full-scale innovative system for arsenic remova ....A better way to remove arsenic from drinking water. Arsenic is a serious pollutant of drinking water in parts of Australia and in Asia, We propose to developed an inovative technology to remove arsenic from water. Our international partnership combines the expertise of the University of Regina (UR), Canada in physico-chemical treatment processes with that of the UTS in membrane processes. Through a long term collaboration we aim to: (i) establish a full-scale innovative system for arsenic removal, (ii) prepare joint publications and apply for more industry grants, (iii) research training of postgraduate research student, and (iv) help to commercialize our research outcomes for domestic benefit and export.Read moreRead less
Development of a novel filtration hybrid system in wastewater treatment and reuse. Water industries in Australia and Japan are aiming at developing compact wastewater treatment and reuse systems. This project will form the basis for a long-term study on coupling a new static floccuator/filter system being developed at UTS and a hanging sponge cubes bioreactor being developed at NUT. A properly designed physico-chemical biological hybrid system will be cost-effective in removing a wide range of ....Development of a novel filtration hybrid system in wastewater treatment and reuse. Water industries in Australia and Japan are aiming at developing compact wastewater treatment and reuse systems. This project will form the basis for a long-term study on coupling a new static floccuator/filter system being developed at UTS and a hanging sponge cubes bioreactor being developed at NUT. A properly designed physico-chemical biological hybrid system will be cost-effective in removing a wide range of pollutants with little maintenance. This study will establish a rational hybrid system through detailed bench and pilot-scale experimentation. It will make the optimum use of the complementary expertise and facilities at NUT and UTS.Read moreRead less
Nanofiltration in Wastewater treatment for Reuse: Effect of Pretreatment for Long-term Application. Low pressure nanofiltration (NF) is a relatively new technology. The main problem of membrane fouling on NF could successfully be avoided by pretreatment. In this study, novel high rate pretreatment methods employing flocculation and biosorption concepts will be investigated to prolong membrane life time. A compact wastewater treatment technology established through this research will be useful in ....Nanofiltration in Wastewater treatment for Reuse: Effect of Pretreatment for Long-term Application. Low pressure nanofiltration (NF) is a relatively new technology. The main problem of membrane fouling on NF could successfully be avoided by pretreatment. In this study, novel high rate pretreatment methods employing flocculation and biosorption concepts will be investigated to prolong membrane life time. A compact wastewater treatment technology established through this research will be useful in small and isolated communities. This study will be conducted in collaboration with Prof. Yamamoto of University of Tokyo (UTokyo), Japan and Prof. Kim of Kwangju Institute of Science and Technology (KJIST), Korea, who are international experts on nanofiltration and water reuse technologies respectively.Read moreRead less
Degradation of Trace Contaminants Using Sonochemistry and Peroxide Scavenging Advanced Oxidation Processes. Sonochemical degradation of hazardous organic compounds in aqueous solution has been examined extensively in recent years and found to be an effective means of waste treatment however the scavenging of hydroxyl radicals by the relatively high concentrations of hydrogen peroxide produced limits the amount of reactive radicals accessible to target molecules. In this project we will investiga ....Degradation of Trace Contaminants Using Sonochemistry and Peroxide Scavenging Advanced Oxidation Processes. Sonochemical degradation of hazardous organic compounds in aqueous solution has been examined extensively in recent years and found to be an effective means of waste treatment however the scavenging of hydroxyl radicals by the relatively high concentrations of hydrogen peroxide produced limits the amount of reactive radicals accessible to target molecules. In this project we will investigate, by both experimental and computational means, options for the regeneration of hydroxyl radicals through use of hydrogen peroxide. Methods of particular interest include use of Fenton's reagent and ozone.Read moreRead less
Nanostructures of Surfactants at Solid-Liquid and Gas-Liquid Interfaces and Interfacial Properties. The proposed research aims to investigate nanostructures of surface-active agents at interfaces and related interfacial properties. Specifically, the proposal focuses on quantitative models for the self-assembly of surfactants at solid-liquid and gas-liquid interfaces, experimental validation of the models and interfacial properties produced by the surfactants for industrial applications. The stud ....Nanostructures of Surfactants at Solid-Liquid and Gas-Liquid Interfaces and Interfacial Properties. The proposed research aims to investigate nanostructures of surface-active agents at interfaces and related interfacial properties. Specifically, the proposal focuses on quantitative models for the self-assembly of surfactants at solid-liquid and gas-liquid interfaces, experimental validation of the models and interfacial properties produced by the surfactants for industrial applications. The study will increase our understanding of surfactant-interface interaction to allow us to have greater control over the interfacial properties and improve the interface-based industrial processes. The research is relevant to the minerals and coal processing industry worth hundreds of billions dollars annually to Australia and USA.Read moreRead less
Progressive liquefaction within marine sediments: comparison between geo-centrifuge modelling, full-scale wave tank tests and numerical modelling. The evaluation of wave-induced liquefaction within the marine sediment is particularly important for coastal and geotechnical engineers involved in the design of foundation around coastal structures. The proposed study will integrate the existing knowledge from the aspects of coastal and geotechnical engineering with that of overseas experts to provid ....Progressive liquefaction within marine sediments: comparison between geo-centrifuge modelling, full-scale wave tank tests and numerical modelling. The evaluation of wave-induced liquefaction within the marine sediment is particularly important for coastal and geotechnical engineers involved in the design of foundation around coastal structures. The proposed study will integrate the existing knowledge from the aspects of coastal and geotechnical engineering with that of overseas experts to provide coastal engineers with an effective tool for the design of foundations around marine structures. It will also assist in reducing the risk of potential environmental damage caused by failure of marine structures.Read moreRead less