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Molecular and genetic analysis of epigenetic components in a model plant. Australia is a major exporter of agricultural food crops thus producers must maintain their competitive advantage in order to compete on the world stage. Food crops unfortunately have large, complex genomes that are not sequenced and a generation time of months that makes research outcomes slow to achieve. This project proposes to utilise a model plant that has a small completely sequenced genome and a short generation tim ....Molecular and genetic analysis of epigenetic components in a model plant. Australia is a major exporter of agricultural food crops thus producers must maintain their competitive advantage in order to compete on the world stage. Food crops unfortunately have large, complex genomes that are not sequenced and a generation time of months that makes research outcomes slow to achieve. This project proposes to utilise a model plant that has a small completely sequenced genome and a short generation time making it ideal to study the fundamental biological process of RNA silencing. Discoveries and outcomes from this project may have the potential to benefit Australian crops, ecosystems and human health.Read moreRead less
Two-stage ignition and flame stabilisation in engine-relevant conditions. This project aims to reveal the mechanisms of ignition and flame stabilisation in the temperature and pressure conditions that exist in diesel engines, understanding of which is currently very limited despite their significant bearing on pollutants and fuel efficiency. Using massively parallel supercomputing resources, the most detailed, direct numerical simulations of ignition and flame stabilisation to date will be perfo ....Two-stage ignition and flame stabilisation in engine-relevant conditions. This project aims to reveal the mechanisms of ignition and flame stabilisation in the temperature and pressure conditions that exist in diesel engines, understanding of which is currently very limited despite their significant bearing on pollutants and fuel efficiency. Using massively parallel supercomputing resources, the most detailed, direct numerical simulations of ignition and flame stabilisation to date will be performed - they will be three-dimensional and use a detailed chemistry model able to account for low-temperature kinetics and two-stage ignition. Analysis of these data aims to reveal how ignition and flame stabilisation depends on key turbulence and chemical kinetic parameters, thus contributing to developing low-emissions diesel engines.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100225
Funder
Australian Research Council
Funding Amount
$600,000.00
Summary
Multi-dimensional, high speed laser imaging facility for fluids and combustion. New high-speed laser diagnostics facilities will be established to enable Australian researchers to perform unique, real time measurements in combustion systems. Such novel capabilities will advance the science of combustion and facilitate the development of design tools for the optimisation of clean and efficient energy conversion devices.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100098
Funder
Australian Research Council
Funding Amount
$230,000.00
Summary
A comprehensive gas/vapour sorption facility for the fast advancement of decarbonised energy technologies. Solutions to clean energy production, storage and use are critical to Australia’s prosperity, yet there is a significant lack of targeted research facilities for the development of the highly needed materials and technologies for powering a sustainable Australia. This facility will bring research efforts closer to practical solutions.
Three-dimensional printing of structures using fibre reinforced geopolymer concrete. This project aims to investigate geopolymer binders for cement. Three-dimensional printing using concrete can eliminate expensive formwork but is hampered by a lack of underpinning theoretical material and structural research. Conventional Portland cement’s setting characteristics limit its use for three-dimensional (3D) printing. The project will develop a theoretical framework for the structural properties of ....Three-dimensional printing of structures using fibre reinforced geopolymer concrete. This project aims to investigate geopolymer binders for cement. Three-dimensional printing using concrete can eliminate expensive formwork but is hampered by a lack of underpinning theoretical material and structural research. Conventional Portland cement’s setting characteristics limit its use for three-dimensional (3D) printing. The project will develop a theoretical framework for the structural properties of the 3D printed concrete and flow of geopolymer binder through aggregate bed, and design a fibre reinforcement system. This project is expected to improve construction, reduce injury rates and create high-end technology-based jobs.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE170101070
Funder
Australian Research Council
Funding Amount
$345,124.00
Summary
Enhanced durability of geopolymers through phase engineering. This project aims to research geopolymer phases, their formation thermodynamics and formation kinetics and stability. Alkali-activated (geopolymer) binders and concretes are low-carbon dioxide alternatives to Portland cements and concretes, and ensuring their durability will enable the implementation of this greenhouse-friendly technology in industry. This project will develop a phase engineering approach to help industry manufacture ....Enhanced durability of geopolymers through phase engineering. This project aims to research geopolymer phases, their formation thermodynamics and formation kinetics and stability. Alkali-activated (geopolymer) binders and concretes are low-carbon dioxide alternatives to Portland cements and concretes, and ensuring their durability will enable the implementation of this greenhouse-friendly technology in industry. This project will develop a phase engineering approach to help industry manufacture high-durability green concrete, create a billion-dollar business, and provide safe and reliable construction products.Read moreRead less
Additive manufacturing of functionally graded geopolymers. This project aims to use contour crafting for three-dimensional printing of functionally graded geopolymer concrete. Contour crafting has been touted for producing uniform structural members made of conventional concrete mixtures. This project will develop the existing technique to produce microstructurally graded geopolymer structures and include functionally graded placement of fibre within a geopolymer matrix. It will investigate mech ....Additive manufacturing of functionally graded geopolymers. This project aims to use contour crafting for three-dimensional printing of functionally graded geopolymer concrete. Contour crafting has been touted for producing uniform structural members made of conventional concrete mixtures. This project will develop the existing technique to produce microstructurally graded geopolymer structures and include functionally graded placement of fibre within a geopolymer matrix. It will investigate mechanical, thermal and durability properties of printed composite structures. The outcome of this research could lead to cost-effective automated production of specialised structural components.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180101587
Funder
Australian Research Council
Funding Amount
$364,446.00
Summary
Three-dimensional printable geo-polymer with orientable fibres for construction application. This project aims to develop a fibre-reinforced geo-polymer for three-dimensional concrete printing (3DCP). 3DCP allows freeform construction without the use of expensive formwork, but is limited by the range of printable concretes and reinforcing methods. Geo-polymer is a sustainable material and has adjustable setting characteristics and better fibre-matrix interface properties than conventional cemen ....Three-dimensional printable geo-polymer with orientable fibres for construction application. This project aims to develop a fibre-reinforced geo-polymer for three-dimensional concrete printing (3DCP). 3DCP allows freeform construction without the use of expensive formwork, but is limited by the range of printable concretes and reinforcing methods. Geo-polymer is a sustainable material and has adjustable setting characteristics and better fibre-matrix interface properties than conventional cement. This project is expected to improve construction safety and costs.Read moreRead less
Folding and dynamics of bioengineered cyclic cystine knot proteins. This project will increase knowledge of the structure and function of an important family of proteins, namely the conotoxins. Conotoxins are of particular interest in Australia as nearly 300 species of cone snails occur in Australian waters and they represent a rich source of novel peptides for drug discovery. This project will enhance their stability by altering their structures and will have a direct impact on peptide-drug ba ....Folding and dynamics of bioengineered cyclic cystine knot proteins. This project will increase knowledge of the structure and function of an important family of proteins, namely the conotoxins. Conotoxins are of particular interest in Australia as nearly 300 species of cone snails occur in Australian waters and they represent a rich source of novel peptides for drug discovery. This project will enhance their stability by altering their structures and will have a direct impact on peptide-drug based therapies, resulting in economic and social benefits for Australian society. Additionally, some peptides under study have agricultural significance for crop protection and this too, has the potential to provide significant economic benefits. Read moreRead less
The dynamics of organic matter turnover in soils to improve the productivity of Australia's agricultural industries. Two recent national reports on the soils issues facing Australian agriculture (Reeves et al, 1997; CSIRO, 2000) concluded that soil structural degradation remains, after salinisation, our major threat to the sustainability of agricultural production. This research will provide fundamental understanding of how the dynamics of organic matter turnover benefit aggregate formation and ....The dynamics of organic matter turnover in soils to improve the productivity of Australia's agricultural industries. Two recent national reports on the soils issues facing Australian agriculture (Reeves et al, 1997; CSIRO, 2000) concluded that soil structural degradation remains, after salinisation, our major threat to the sustainability of agricultural production. This research will provide fundamental understanding of how the dynamics of organic matter turnover benefit aggregate formation and stability. This will advance the understanding of organic matter from simply considering the quantity of carbon present, to one of predicting the short- and long-term benefits to soil structure. This approach is innovative in the study of soil health, and has the potential to greatly advance the development of conservation farming systems.Read moreRead less