Combining recycled water use, biofuel production and phytoremediation of contaminated land and biosolids. The storage of biosolids, by-products of sewage treatment, is an environmentally unsustainable practice exacerbated by the presence of inorganic and organic contaminants. Phytoremediation is a plant-based technology which is potentially a cost-effective option for progressive long-term and sustainable clean-up of contaminated soils and sediments. Combining metal extraction by plants with r ....Combining recycled water use, biofuel production and phytoremediation of contaminated land and biosolids. The storage of biosolids, by-products of sewage treatment, is an environmentally unsustainable practice exacerbated by the presence of inorganic and organic contaminants. Phytoremediation is a plant-based technology which is potentially a cost-effective option for progressive long-term and sustainable clean-up of contaminated soils and sediments. Combining metal extraction by plants with reuse of wastewater and the production of a biofuel will provide multiple benefits of a cleaner environment, water conservation, waste reduction, carbon capture and a reduction in fossil fuel use. Development of such a low-cost combined bioenergy/remediation system will be of considerable local/regional benefit and national significance.Read moreRead less
Investigation of Australian crop species for the rhizoremediation of residual sulfonyl urea herbicide contaminations in agricultural soils. This research aims to identify an environmentally sustainable and economically viable solution to the problem of residual herbicide contaminations in agricultural soils. The strategy is focused on stimulation of microbial degradation of pesticides in the root zone of crop species (Lupins). Such a strategy will improve crop yields and reduce soil contaminatio ....Investigation of Australian crop species for the rhizoremediation of residual sulfonyl urea herbicide contaminations in agricultural soils. This research aims to identify an environmentally sustainable and economically viable solution to the problem of residual herbicide contaminations in agricultural soils. The strategy is focused on stimulation of microbial degradation of pesticides in the root zone of crop species (Lupins). Such a strategy will improve crop yields and reduce soil contaminations and environmental impacts at minimal cost. Read moreRead less
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
Developing and testing a novel biological reduction cell to remediate heavy metal and acid-containing industrial and mine leachates. Echo Remediation Ltd. has a new reduction cell that uses sulfur and bacteria to remove heavy metals and acidity from mine leachates, but development is now required to make it viable. The project aims to optimise the process using molecular approaches to study the effects of operating conditions on the bacterial communities. As part of the investigation, active iro ....Developing and testing a novel biological reduction cell to remediate heavy metal and acid-containing industrial and mine leachates. Echo Remediation Ltd. has a new reduction cell that uses sulfur and bacteria to remove heavy metals and acidity from mine leachates, but development is now required to make it viable. The project aims to optimise the process using molecular approaches to study the effects of operating conditions on the bacterial communities. As part of the investigation, active iron reducers will be selected and introduced to the cell (in conjunction with chemical amendments) and their colonization monitored. The new technology once developed has the potential to be used at mine sites in Australia and overseas and its employment offers a sustainable, biological "green" approach to mine waste remediation.Read moreRead less