Subsurface fluid flow through fractures in sedimentary basins. This project aims to improve understanding of subsurface fluid transport through fractures. Fractures in rock provide interconnected, hydraulically conductive networks enabling large-volume fluid transport through sedimentary basins. The ability of a fracture to transmit fluid is primarily controlled by the in situ stress field, but also by rock strength, fracture plane orientation and roughness and pore-fluid pressure. We have a goo ....Subsurface fluid flow through fractures in sedimentary basins. This project aims to improve understanding of subsurface fluid transport through fractures. Fractures in rock provide interconnected, hydraulically conductive networks enabling large-volume fluid transport through sedimentary basins. The ability of a fracture to transmit fluid is primarily controlled by the in situ stress field, but also by rock strength, fracture plane orientation and roughness and pore-fluid pressure. We have a good understanding of in situ stress within many sedimentary basins, but know very little about the nature and origin of natural fractures. This project aims to provide a detailed, quantitative understanding of the nature and origin of natural fractures in the subsurface, which is critical for predicting fluid migration within aquifers, carbon dioxide storage sites, and geothermal and hydrocarbon reservoirs.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100204
Funder
Australian Research Council
Funding Amount
$452,147.00
Summary
Geothermal heat recovery and energy storage from underground mines. This project aims to investigate the technological aspects of re-using underground mines as a source for low-carbon heat extraction and storage – while simultaneously providing sustainable solutions for mine rehabilitation. Expected outcomes of this project include a framework to evaluate the viability of a mine-water system as a geothermal heat source; experimental and field exploration of the proposed technology; and strategie ....Geothermal heat recovery and energy storage from underground mines. This project aims to investigate the technological aspects of re-using underground mines as a source for low-carbon heat extraction and storage – while simultaneously providing sustainable solutions for mine rehabilitation. Expected outcomes of this project include a framework to evaluate the viability of a mine-water system as a geothermal heat source; experimental and field exploration of the proposed technology; and strategies to optimise the heat extraction process. Overall, the research provides significant benefits for renewable-based energy transformation while minimising the adverse impacts of post-mining landscapes.Read moreRead less