Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100213
Funder
Australian Research Council
Funding Amount
$180,000.00
Summary
x-ray transparent core flood apparatus . X-ray transparent core flood apparatus: This facility is a novel X-ray transparent flow vessel and ancillaries for achieving direct, near-real-time, 3D measurement and visualisation of material flow inside rock samples. It will enable direct evaluation of how liquid, liquid-solid, gas-liquid and gas-liquid-solid flows behave in cores replicating conditions in underground reservoirs. The coal seam gas, shale gas and oil, and geothermal energy recovery rely ....x-ray transparent core flood apparatus . X-ray transparent core flood apparatus: This facility is a novel X-ray transparent flow vessel and ancillaries for achieving direct, near-real-time, 3D measurement and visualisation of material flow inside rock samples. It will enable direct evaluation of how liquid, liquid-solid, gas-liquid and gas-liquid-solid flows behave in cores replicating conditions in underground reservoirs. The coal seam gas, shale gas and oil, and geothermal energy recovery rely on precise understanding and simulation of subsurface flow. This apparatus will provide a new method to measure and visualise otherwise inaccessible flow behaviour, at a high level of detail, providing characterisation and model validation data underpinning reservoir simulations.Read moreRead less
Fundamental Knowledge Generation of Organic Solid Waste-Microorganism Interactions. The management of organic solid waste is a major global environmental issue, exacerbated by increasing populations and urbanisation. However, there are biological processes (e.g. anaerobic composting) that show excellent potential as the solution to this global problem. We know that the rate-limiting step to biological organic solid waste degradation is the initial hydrolysis process carried out by microorganisms ....Fundamental Knowledge Generation of Organic Solid Waste-Microorganism Interactions. The management of organic solid waste is a major global environmental issue, exacerbated by increasing populations and urbanisation. However, there are biological processes (e.g. anaerobic composting) that show excellent potential as the solution to this global problem. We know that the rate-limiting step to biological organic solid waste degradation is the initial hydrolysis process carried out by microorganisms. We will study at a microscale the "organic solid waste surface-microorganism" interactions and compare data from digesters with the rumen which is a highly efficient model solid substrate digestion system. Our generated knowledge will be used in future practical applications.Read moreRead less