Therapeutic pluralism in pregnancy, labour and birthing: Decision-making, communication and inter-professional dynamics. Women are frequent users of practices outside 'mainstream' medicine. Pregnancy, labour and birthing (PLB) is a key area of integration, but no research has examined how women perceive obstetrics, midwifery and complementary medicine, or the impact on their health and wellbeing. This study systematically document Australian women's experiences of PLB with a nationally-represe ....Therapeutic pluralism in pregnancy, labour and birthing: Decision-making, communication and inter-professional dynamics. Women are frequent users of practices outside 'mainstream' medicine. Pregnancy, labour and birthing (PLB) is a key area of integration, but no research has examined how women perceive obstetrics, midwifery and complementary medicine, or the impact on their health and wellbeing. This study systematically document Australian women's experiences of PLB with a nationally-representative sample of women of child-bearing age to document decision making, lay-professional communication, and inter-professional dynamics.Read moreRead less
Nanoliposomal delivery of docosahexaenoic acid (DHA) to neuronal cells. Omega-3 fatty acids such as docosahexaenoic acid (DHA) are essential for brain function. They are effective as adjunct treatments for depression, but at high doses. The project will develop nanoliposomes to target delivery of DHA to brain cells. Efficient delivery of DHA to brain cells will increase its effectiveness as a dietary supplement and lessen the burden of disease.
Navigating back pain care: a sociological study of women's illness pathways within and between intersecting social worlds. Back pain affects most people at some point in their life. It is difficult to treat, choosing a provider can be confusing, and it is costly for the Government. This project will provide comprehensive data on women's journeys through back pain care, their experiences of different providers, and how they negotiate competing ideological perspectives.
Making best use of biofuels – understanding the interactions between alcohol and hydrocarbon fuels in engine combustion. Biofuels are increasingly used as blending components for transport fuels. Biofuels possess much different chemical structures from conventional fuels, and can therefore interact with hydrocarbon fuels during engine combustion processes and consequently affect engine efficiency and emissions. This project aims to investigate the chemical interactions between representative com ....Making best use of biofuels – understanding the interactions between alcohol and hydrocarbon fuels in engine combustion. Biofuels are increasingly used as blending components for transport fuels. Biofuels possess much different chemical structures from conventional fuels, and can therefore interact with hydrocarbon fuels during engine combustion processes and consequently affect engine efficiency and emissions. This project aims to investigate the chemical interactions between representative compounds of biofuels (ethanol) and fossil fuels (n-heptane, iso-octane and toluene) during engine autoignition processes. The outcomes will fill a significant gap in our understanding for biofuel combustion chemistry, essential for building predictive combustion models, and will guide the best use of the precious Australian biofuel resources to reduce carbon dioxide emissions. Read moreRead less
New understanding of turbulent flames with soot and particulate fuels. This project will develop the new understanding and models required to optimise practical furnaces, boilers and combustion chambers, most of which involve soot and/or particulate fuels. This work will be performed with state-of-the-art measurement and modelling tools through a well-established partnership of international researchers.
Fundamental research for advanced gasification technologies for low-rank coal and biomass in the carbon-constrained world. This project aims to acquire fundamental knowledge in order to develop advanced gasification technologies with high efficiencies and the capability to couple with carbon storage facilities in the carbon-constrained future. These technologies will contribute to the reduction of Australia's CO2 emissions using its cheap low-rank coal and biomass.
Phase stability of biomass fast pyrolysis bio-oil: behaviour and control. This project aims to carry out a systematic investigation into the phase behaviour and control of biomass fast pyrolysis into bio-oil and its derived fuels. The project addresses the major problem of fuel phase separation during processing and handling that cause significant operational challenges, for example pumping difficulties and line clogging, during storage, transport and applications of these fuels. The outcomes in ....Phase stability of biomass fast pyrolysis bio-oil: behaviour and control. This project aims to carry out a systematic investigation into the phase behaviour and control of biomass fast pyrolysis into bio-oil and its derived fuels. The project addresses the major problem of fuel phase separation during processing and handling that cause significant operational challenges, for example pumping difficulties and line clogging, during storage, transport and applications of these fuels. The outcomes include the discovery of fundamental knowledge on the phase structure, stability and behaviour of the products of biomass fast pyrolysis bio-oil and its derived fuels and the development of essential engineering tools for predicting and controlling phase behaviour and stability of these fuels.Read moreRead less
Advanced biomass gasification process for distributed power generation with significant negative carbon emission in rural and regional Australia. The outcome of this project is fundamental knowledge essential to the development of advanced biomass gasification processes for distributed power generation with drastic reduction in carbon emissions and the recycling of inorganic nutrients to the land. It will contribute significantly to the future sustainability of rural and regional Australia.
Integrated photo and thermal catalysis for economic carbon dioxide conversion to fuels. The project aims to develop an integrated process for simultaneously photo- and thermal-catalytic conversion of carbon dioxide and water vapour to hydrocarbon fuels and chemicals using solar light and waste heat from flue gas. This project will design and make multi-functional catalysts based on zirconium metal organic frameworks, incorporating quantum dots and metal nanoclusters. This project is expected to ....Integrated photo and thermal catalysis for economic carbon dioxide conversion to fuels. The project aims to develop an integrated process for simultaneously photo- and thermal-catalytic conversion of carbon dioxide and water vapour to hydrocarbon fuels and chemicals using solar light and waste heat from flue gas. This project will design and make multi-functional catalysts based on zirconium metal organic frameworks, incorporating quantum dots and metal nanoclusters. This project is expected to develop an advanced materials system, reduce carbon dioxide and use it to produce fuel, and harness solar energy. The project should advance Australia’s leading role in reducing carbon emission, and producing clean energy and nanotechnology.Read moreRead less
In-cylinder soot sampling and morphology analysis in an optically-accessible diesel engine. Black soot emissions from diesel engines are associated with respiratory illness, cancer, and heart attacks. This project aims to reduce diesel soot emissions by clarifying the nature of the structure and size of soot particles that are sampled from both the engine cylinder and the tailpipe.