The separation of carbon dioxide from industrial sources using nanoporous carbon. Carbon nanotubes and nanoporous carbon membranes offer the possibility of low cost energy efficient separations of gas mixtures. Possible applications include the purification of greenhouse gases for sequestration and the purification of hydrogen from reformer gas for use in a hydrogen energy economy. The proposed project involves the development of mathematical models and computer simulations to understand and ....The separation of carbon dioxide from industrial sources using nanoporous carbon. Carbon nanotubes and nanoporous carbon membranes offer the possibility of low cost energy efficient separations of gas mixtures. Possible applications include the purification of greenhouse gases for sequestration and the purification of hydrogen from reformer gas for use in a hydrogen energy economy. The proposed project involves the development of mathematical models and computer simulations to understand and optimise the nanoporous structure for different gas separations, and experimental research to produce the carbon nanoporous materials and determine their effectiveness of gas separation.Read moreRead less
Use Of Snake Venom Prothrombin Activators In Blood Collection Tubes To Produce High Quality Serum To Improve Patient Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$284,706.00
Summary
The timely availability of high quality serum and plasma samples are of the utmost importance for accurate biochemical analysis in a clinical setting. This requirement is particularly true for patients on anti-clotting therapeutic agents such as warfarin and heparin. In this study we will employ potent prothrombin activators purified from snake venom to enhance the clotting efficiency of blood for serum preparation for biochemical analysis.
The conversion of remote location natural gas to fuels and chemicals. The objectives of the research programme will be to develop novel science, engineering and technology that will allow cost efficient conversion of remote gas reserves to liquid fuels and/or chemicals with minimal greenhouse gas emissions. The significance of the proposal rests in the fact that Australia has large remote location gas fields that cannot be exploited but faces, within ten years, trillion dollars a year balance of ....The conversion of remote location natural gas to fuels and chemicals. The objectives of the research programme will be to develop novel science, engineering and technology that will allow cost efficient conversion of remote gas reserves to liquid fuels and/or chemicals with minimal greenhouse gas emissions. The significance of the proposal rests in the fact that Australia has large remote location gas fields that cannot be exploited but faces, within ten years, trillion dollars a year balance of payments deficits due to a shortgae of liquid fuels. The development of new processes for gas to liquids conversion and new technology for existing processes is the essential aim of the proposed research.Read moreRead less
Engineered functional metal silica membranes for hydrogen processing. This project focuses on hydrogen processing technologies for the petrochemical, agricultural and coal/energy industries. These sectors employ 110,000 people with annual combined revenues of $80 billion. Advanced technologies are vital for the competitiveness of the Australian economy, and to sustain Australia's social stability and economic growth.
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.
Novel H2 production technology using brown coal for clean power generation. This project aims to develop a novel technology of poly-generation for the large-scale production of hydrogen and activated carbon materials using Australian brown coal through a high-pressure entrained-flow pyrolysis process, which is combined with a flameless catalytic H2 combustion process. The scientific goal of the project is to gain a detailed scientific understanding of the mechanisms of radical reaction pathways ....Novel H2 production technology using brown coal for clean power generation. This project aims to develop a novel technology of poly-generation for the large-scale production of hydrogen and activated carbon materials using Australian brown coal through a high-pressure entrained-flow pyrolysis process, which is combined with a flameless catalytic H2 combustion process. The scientific goal of the project is to gain a detailed scientific understanding of the mechanisms of radical reaction pathways for the high-pressure pyrolysis of brown coal, and the mechanism and kinetics of the catalytic flameless combustion of H2. The project outcomes will meet the needs of Australia's recent national hydrogen initiatives and lead to an industry demonstration to convert Victorian brown coal to NO-free and carbon-free clean power.Read moreRead less
Effects Of Modification Of Dietary Sodium Intake On Endothelial Function In Obese Subjects
Funder
National Health and Medical Research Council
Funding Amount
$252,920.00
Summary
The effects of a high salt intake on blood pressure are well known. The damaging direct effects of salt on blood vessels is less well known. This study will clarify whether reducing salt to the amount recommended by Australian health authorities for 6 weeks has a beneficial effect on blood vessels. It builds on an earlier 2 week study which demonstrated that reducing salt intake had a beneficial effect on blood vessels. The purpose of this study is to show whether this benefit is maintained in a ....The effects of a high salt intake on blood pressure are well known. The damaging direct effects of salt on blood vessels is less well known. This study will clarify whether reducing salt to the amount recommended by Australian health authorities for 6 weeks has a beneficial effect on blood vessels. It builds on an earlier 2 week study which demonstrated that reducing salt intake had a beneficial effect on blood vessels. The purpose of this study is to show whether this benefit is maintained in a longer study over 6 weeks.Read moreRead less
De-differentiation Of Committed Cells Into Haematopoietic Stem Cells By The Instructive Role Of The Transcription Factor HOXB4
Funder
National Health and Medical Research Council
Funding Amount
$683,040.00
Summary
Blood stem cells are long-lived and can give rise to every cell type of the blood system and due to these properties they are currently used in the clinics. Despite their importance, our knowledge of the mechanisms the control the multiplication of these rare cells is very scarce. This proposal aims to identify key factors that have the potential to convert mature, easy available blood cells into stem cells. This knowledge has to potential to lead to novel system that allow the expansion of stem ....Blood stem cells are long-lived and can give rise to every cell type of the blood system and due to these properties they are currently used in the clinics. Despite their importance, our knowledge of the mechanisms the control the multiplication of these rare cells is very scarce. This proposal aims to identify key factors that have the potential to convert mature, easy available blood cells into stem cells. This knowledge has to potential to lead to novel system that allow the expansion of stem cells for transplantations in the future.Read moreRead less
Too few blood platelets leads to fatal haemorrhage, and patients with low platelet counts require transfusions to prevent bleeding. We have recently discovered the key to keeping platelets alive, and now propose the critical experiments which will teach us how to manipulate it and allow platelets to live longer. Our team leads the world in this field. If successful we expect to improve blood bank platelet storage, and boost the supply of platelets available to patients in need of transfusion.