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
Floc Characteristics in Sheared Systems: Implications to Low Pressure Membrane Filtration in Water Treatment. In this project, we examine the effect of coagulant choice and coagulation conditions on the nature of the flocs formed in drinking water treatment using submerged membrane systems and on the extent of fouling, contaminant removal and difficulties in backwash. We will develop both underpinning knowledge and operational protocols that will assist in improving the efficiency and thus reduc ....Floc Characteristics in Sheared Systems: Implications to Low Pressure Membrane Filtration in Water Treatment. In this project, we examine the effect of coagulant choice and coagulation conditions on the nature of the flocs formed in drinking water treatment using submerged membrane systems and on the extent of fouling, contaminant removal and difficulties in backwash. We will develop both underpinning knowledge and operational protocols that will assist in improving the efficiency and thus reducing the operating costs of submerged membrane water systems. The outcomes of this project will assist our industry partner in developing more cost effective water treatment processes in Australia which will, in turn, assist in increasing market share in the Asian region.Read moreRead less
Reactive oxygen species generation by zerovalent silver nanoparticles; implications to toxicity and contaminant degradation. Nanoparticulate silver is now being used for the purification of drinking water yet many questions remain concerning its mode of purifying action. Here we investigate the generation of reactive oxygen species (ROS) by nanoparticulate silver and examine the relationship between ROS generation and the purifying action of "nano-silver".
Development and calibration of aquatic passive sampler technologies for emerging water pollutants. Contaminated water is a key exposure source for many emerging pollutants either direct via consumption of water or indirect via consumption of aquatic biota. Monitoring of emerging aquatic pollutants remains a challenge. In this project we will develop cost effective monitoring technologies for emerging aquatic pollutants. The outcome will allow a more comprehensive and cost-effective monitoring ....Development and calibration of aquatic passive sampler technologies for emerging water pollutants. Contaminated water is a key exposure source for many emerging pollutants either direct via consumption of water or indirect via consumption of aquatic biota. Monitoring of emerging aquatic pollutants remains a challenge. In this project we will develop cost effective monitoring technologies for emerging aquatic pollutants. The outcome will allow a more comprehensive and cost-effective monitoring of these pollutants and related to that a decrease in risk related to water pollution. Furthermore it will enhance consumer confidence, improve water management and allow more comprehensive identification of emerging risks related to aquatic pollutants.Read moreRead less
Development and evaluation of a Phytotox-Test for field and laboratory testing of phytotoxic chemicals in water. Monitoring of trace pollutants in water is expensive, laborious and requires sophisticated analytical techniques. Building on the research team's new technique, which uses a phyto-tox test based on photosynthesis inhibition in algae, this study will further develop and evaluate methodologies and applications for measuring phyto-toxic chemicals in environmental water samples. The proj ....Development and evaluation of a Phytotox-Test for field and laboratory testing of phytotoxic chemicals in water. Monitoring of trace pollutants in water is expensive, laborious and requires sophisticated analytical techniques. Building on the research team's new technique, which uses a phyto-tox test based on photosynthesis inhibition in algae, this study will further develop and evaluate methodologies and applications for measuring phyto-toxic chemicals in environmental water samples. The project aims specifically to:
- identify suitable algae, sensitive to phyto-toxic chemicals
- determine dose-response for priority pollutants in selected algae
- evaluate critical parameters affecting measurements
- develop pre-concentration techniques.
The outcomes will provide the first on-site trace pollutant testing method allowing more effective management of water pollution
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