Discovery Early Career Researcher Award - Grant ID: DE180100082
Funder
Australian Research Council
Funding Amount
$367,446.00
Summary
Impact of geochemical alteration on carbon dioxide stability in the subsurface. This project aims to investigate the reactive behaviour of carbon dioxide in sandstone rocks to improve the safety of carbon sequestration operations. The project will develop new techniques to link fluid flow behaviour and geochemistry analysis, using high resolution 3D microscopy within geologic samples. The results will demonstrate the level of stability and security of carbon dioxide in underground sandstone rock ....Impact of geochemical alteration on carbon dioxide stability in the subsurface. This project aims to investigate the reactive behaviour of carbon dioxide in sandstone rocks to improve the safety of carbon sequestration operations. The project will develop new techniques to link fluid flow behaviour and geochemistry analysis, using high resolution 3D microscopy within geologic samples. The results will demonstrate the level of stability and security of carbon dioxide in underground sandstone rocks, and lead to safer design of sequestration operations.Read moreRead less
Dynamic tomography: high-resolution, four-dimensional imaging of processes. This project will develop imaging technology that allows us to collect detailed, three dimensional movies of complex, microscopic processes in a laboratory. This technology will have applications in soil science, biology, oil extraction, and carbon sequestration.
Testing theories of two-phase fluid flow in porous media through experiment, imaging and modelling. The process underlying oil extraction, groundwater flow and the sequestration of carbon dioxide is that of one fluid pushing another out of the microscopic spaces in porous rocks and soils. Using the latest three-dimensional X-ray microscopes and computing technology, the project will image and model these fluid flows, allowing theories to be tested for the first time.