Physical factors affecting deposition of combustion submicrometer particles in the human lung. Particles generated from combustion sources have a profound effect on human health, yet there is lack of scientific understanding of the role of different physical mechanisms on particle deposition in the lung. This program will advance scientific knowledge in this field through multidisciplinary efforts of a team from QUT and the University of Salzburg, Austria. It aims at quantification of particle d ....Physical factors affecting deposition of combustion submicrometer particles in the human lung. Particles generated from combustion sources have a profound effect on human health, yet there is lack of scientific understanding of the role of different physical mechanisms on particle deposition in the lung. This program will advance scientific knowledge in this field through multidisciplinary efforts of a team from QUT and the University of Salzburg, Austria. It aims at quantification of particle deposition in human lung through experimental studies and advanced modelling. The program will enhance and strengthen the existing collaboration between the universities and its outcome will be of significance in the vital area of human health and risk assessment.Read moreRead less
The Effect of Fuel Type on Health and Environmental Risks Caused by Motor Vehicle Emissions. Motor vehicles constitute one of the most significant sources of air pollutants but the state of knowledge on the quantity of some of these does not permit for projection of the risk they create. This project aims at quantification of emissions of pollutants contributing to deterioration of health, ozone formation, global warming and acid rain as a function of fuel type, using a novel on-road sampling m ....The Effect of Fuel Type on Health and Environmental Risks Caused by Motor Vehicle Emissions. Motor vehicles constitute one of the most significant sources of air pollutants but the state of knowledge on the quantity of some of these does not permit for projection of the risk they create. This project aims at quantification of emissions of pollutants contributing to deterioration of health, ozone formation, global warming and acid rain as a function of fuel type, using a novel on-road sampling method. Resultantly, a holistic picture of integrated health and environmental risk will be developed that will build a scientific foundation for future fuel,transport and land use to protect the community and the environment.Read moreRead less
Risk assessment for environmental health in Adelaide based on weather, air pollution and population health outcomes. This is the first systematic assessment of the effect of climate variation and air pollution on population health in an Australian temperate region. It is one of the ARC's research priorities (PG 7: Responding to climate change and variability). The results will provide a more complete picture of association among air pollution, climate variability and population health in Austral ....Risk assessment for environmental health in Adelaide based on weather, air pollution and population health outcomes. This is the first systematic assessment of the effect of climate variation and air pollution on population health in an Australian temperate region. It is one of the ARC's research priorities (PG 7: Responding to climate change and variability). The results will provide a more complete picture of association among air pollution, climate variability and population health in Australia. They will also provide important information to policy-makers and communities for their relevant actions, including changes in resource management systems and the operation of these systems, a range of socioeconomic actions, infrastructure establishment, disaster prevention and emergency events response regulation, and health education and promotion campaigns.Read moreRead less
Developing and validating an air quality assessment model for application in human exposure assessment, housing/urban planning and policy setting. At present there does not exist a model for assessing human exposure to airborne pollutants in places where people live, work and rest. In addition, experimental exposure assessments display large discrepancies dependent on the measurement method used. This research aims at developing and validating an air quality assessment model that would enable ....Developing and validating an air quality assessment model for application in human exposure assessment, housing/urban planning and policy setting. At present there does not exist a model for assessing human exposure to airborne pollutants in places where people live, work and rest. In addition, experimental exposure assessments display large discrepancies dependent on the measurement method used. This research aims at developing and validating an air quality assessment model that would enable predictions of air quality in various mircoenvironments for the purpose of exposure and risk assessment, housing and urban planning, and policy setting. This research will provide scientific foundation and a tool for developing future directions for management and control to protect the community and the environment.Read moreRead less
In vivo Assessment of Radiation Dose from Inhalation of Radioactive Dust in the Mining and Milling of Radioactive Ores. The project will use a combination of in vivo gamma-ray spectrometry measurements and modelling to determine quantities of retained radioactive materials in mine workers exposed to long-lived radioactive dust and the radiation doses from those materials. These studies will provide better indications of dose in a range of mining environments. Current indirect dose estimation tec ....In vivo Assessment of Radiation Dose from Inhalation of Radioactive Dust in the Mining and Milling of Radioactive Ores. The project will use a combination of in vivo gamma-ray spectrometry measurements and modelling to determine quantities of retained radioactive materials in mine workers exposed to long-lived radioactive dust and the radiation doses from those materials. These studies will provide better indications of dose in a range of mining environments. Current indirect dose estimation techniques will be tested and improved. This benefits both industry and workers as it allows greater optimisation of work practices and greater confidence for workers and their communities about the real risks from radiation exposure. Our project will enhance the viability of the Australian mining industry.Read moreRead less