Degradation of Oestrogenic and Carcinogenic Substances in Water using alternative water treatment technologies- Membrane Technology and Photocatalysis. There is currently much concern about the release into the aquatic environment of oestrogenic and carcinogenic pollutants. Current conventional water treatment technologies are ineffective in removing them from our water supplies. This research proposes to investigate alternative water treatment technologies for the removal of these compounds of ....Degradation of Oestrogenic and Carcinogenic Substances in Water using alternative water treatment technologies- Membrane Technology and Photocatalysis. There is currently much concern about the release into the aquatic environment of oestrogenic and carcinogenic pollutants. Current conventional water treatment technologies are ineffective in removing them from our water supplies. This research proposes to investigate alternative water treatment technologies for the removal of these compounds of concern. The technologies to be investigated involve integrating membrane technology and titanium dioxide photocatalysis to produce a highly effective and efficient water treatment process. The effects of various parameters on degradation of the pollutants will be investigated and monitored using different analytical techniques.Read moreRead less
Improving the sustainability of Australia's water resources: an effective approach for diagnosing and treating foulants on water recycling membrane filters. By determining ways to diagnose and treat fouling problems we will have effectively solved a critical problem in the water recycling industry. By creating more efficient and sustainable ways of using water, we will transform the effectiveness of a wealth of Australian industries that increasingly rely on the efficient use of water (e.g. mini ....Improving the sustainability of Australia's water resources: an effective approach for diagnosing and treating foulants on water recycling membrane filters. By determining ways to diagnose and treat fouling problems we will have effectively solved a critical problem in the water recycling industry. By creating more efficient and sustainable ways of using water, we will transform the effectiveness of a wealth of Australian industries that increasingly rely on the efficient use of water (e.g. mining, agriculture, textiles, energy). By reducing the demand for water (by effectively recycling it), and the energy requirements (by efficiently recycling it), we will increase national wealth and provide significant social and environmental benefits to all Australians.Read moreRead less
Wetland regeneration for effluent reuse, acid sulfate soil management and carbon credits. This project will research and develop a full-scale effluent reuse wetland to manage acid sulfate soils, regenerate wetlands and sequester atmospheric carbon. Many rural communities worldwide are affected by acid sulfate soils, unsustainable effluent disposal and wetland degradation, and the Greenhouse Effect threatens all coastal areas worldwide. This project is located at Byron Bay, a coastal and predomin ....Wetland regeneration for effluent reuse, acid sulfate soil management and carbon credits. This project will research and develop a full-scale effluent reuse wetland to manage acid sulfate soils, regenerate wetlands and sequester atmospheric carbon. Many rural communities worldwide are affected by acid sulfate soils, unsustainable effluent disposal and wetland degradation, and the Greenhouse Effect threatens all coastal areas worldwide. This project is located at Byron Bay, a coastal and predominantly rural electorate in northern NSW that is strongly affected by this combination of environmental stresses, causing serious degradation of water quality culminating in regular fish kills. The technology developed from this project will be readily transferable to other rural coastal communities worldwide.Read moreRead less