Manoeuvrable burrowing robots for underground search. It is very difficult to locate items that have been buried underground or to find out their condition without digging them up. There are a number of situations involving leaking underground chemical storage tanks, and pipelines together with improperly disposed of chemical containers where chemical leaks can pose dangers to the environment and human health. This project aims to develop a robotic system that can burrow through the ground and h ....Manoeuvrable burrowing robots for underground search. It is very difficult to locate items that have been buried underground or to find out their condition without digging them up. There are a number of situations involving leaking underground chemical storage tanks, and pipelines together with improperly disposed of chemical containers where chemical leaks can pose dangers to the environment and human health. This project aims to develop a robotic system that can burrow through the ground and home in on sources of leaking chemicals. Such a system could pinpoint the sources of leaks without requiring extensive excavations.Read moreRead less
Impact of industrially based endocrine disrupting chemicals on aquatic biota. Endocrine disrupting chemicals (EDCs) are a serious threat to aquatic organisms, livestock and humans. EDCs are present in water discharged from sewage treatment plants and in leachate from contaminated land. This project will determine the impact of EDCs from contaminated landfill on aquatic animals. It will also identify the chemicals responsible for biological impact by developing new bio-assays suitable for industr ....Impact of industrially based endocrine disrupting chemicals on aquatic biota. Endocrine disrupting chemicals (EDCs) are a serious threat to aquatic organisms, livestock and humans. EDCs are present in water discharged from sewage treatment plants and in leachate from contaminated land. This project will determine the impact of EDCs from contaminated landfill on aquatic animals. It will also identify the chemicals responsible for biological impact by developing new bio-assays suitable for industrial, scientific and regulatory authority applications. This research has wide-ranging relevance and value to Australian State and Federal regulators and industries because of the ubiquity of sewage treatment plants and contaminated leachate from landfills.Read moreRead less
Use of effects-based bioassays to assess the endocrine disruption potential of advanced tertiary treated sewage effluent. Water reuse will become a major option to meet increasing water demand in Australia. However, the presence of endocrine disrupting compounds (EDCs) in wastewater has been identified as a potential impediment for this practice. This project will use a combination of effects-based biological methods based on different levels of biological organisation, and chemical analysis to ....Use of effects-based bioassays to assess the endocrine disruption potential of advanced tertiary treated sewage effluent. Water reuse will become a major option to meet increasing water demand in Australia. However, the presence of endocrine disrupting compounds (EDCs) in wastewater has been identified as a potential impediment for this practice. This project will use a combination of effects-based biological methods based on different levels of biological organisation, and chemical analysis to assess the efficacy of an advanced tertiary sewage treatment plant (ATSTP) to remove EDCs. The results will provide insights on 1. effects of mixtures of EDCs; 2. characterisation of risks of reuse of treated effluent; 3. optimisation of effluent treatment technologies to ensure industry competitiveness; and 4. developing sustainable plans to meet future water demand.Read moreRead less