Supercomputer Simulation of Multiscale Dynamic Behaviour in Multiphase Deformable Porous Media. This project will establish and consolidate links between leading groups in China and Australia to develop a new and unique multiscale computational model and algorithm for simulating multiphase nonlinear behaviours of the porous media under dynamic loading conditions, and improve technology transfer between the two groups by the mobility of the ARC International Fellow. This will aid Australian geosc ....Supercomputer Simulation of Multiscale Dynamic Behaviour in Multiphase Deformable Porous Media. This project will establish and consolidate links between leading groups in China and Australia to develop a new and unique multiscale computational model and algorithm for simulating multiphase nonlinear behaviours of the porous media under dynamic loading conditions, and improve technology transfer between the two groups by the mobility of the ARC International Fellow. This will aid Australian geoscience and mining industry, such as in HFR geothermal/UCG energy facility design, construction, risk assessment and production and could help Australia shift away from greenhouse gases and become a world leader in the emerging worldwide HFR geothermal/UCG industry.Read moreRead less
Supercomputer Simulation of Hot Fractured Rock Geothermal Reservoir Systems. The project aims to develop an advanced computational model to simulate fractured geomaterials for Hot Fractured Rock (HFR) geothermal energy exploitation in collaboration with Geodynamics Ltd which is developing Australia's first HFR field site. The site has enough stored energy to provide all Australia's energy needs for up to 70 years. The model has the potential to provide the predictive capacity for geothermal ener ....Supercomputer Simulation of Hot Fractured Rock Geothermal Reservoir Systems. The project aims to develop an advanced computational model to simulate fractured geomaterials for Hot Fractured Rock (HFR) geothermal energy exploitation in collaboration with Geodynamics Ltd which is developing Australia's first HFR field site. The site has enough stored energy to provide all Australia's energy needs for up to 70 years. The model has the potential to provide the predictive capacity for geothermal energy extraction required to successfully exploit the immense potential of HFR energy. The expected outcome is a new supercomputer simulation tool to aid in HFR energy facility design, construction, risk assessment and production that will help Australia become a world leader in the emerging worldwide HFR geothermal industry.Read moreRead less