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
The micro-mechanics of faulting and fluid flow in porous reservoir rocks. The project will improve the understanding of the mechanics and physics of reservoir rocks under various loading conditions. This will have impact on the recovery of hydrocarbon energy resources, storage of carbon dioxide in depleted oil reservoirs, and extraction of energy from geothermal reservoirs in Australia.
Modelling fluid-solid interaction in micro- and nano-porous media. This project aims to develop a state-of-the-art computational tool for modelling the coupled fluid transport-solid deformation behaviour in micro- and nano-porous media. A significant portion of the world’s water and energy resources are stored in fractured rocks, many of which contain characteristic pores with size ranging from nanometres to micrometres. The pore-scale particle-based modelling method will provide for better unde ....Modelling fluid-solid interaction in micro- and nano-porous media. This project aims to develop a state-of-the-art computational tool for modelling the coupled fluid transport-solid deformation behaviour in micro- and nano-porous media. A significant portion of the world’s water and energy resources are stored in fractured rocks, many of which contain characteristic pores with size ranging from nanometres to micrometres. The pore-scale particle-based modelling method will provide for better understanding and opportunities for manipulating fluid flow through fractured micro- and nano-porous media. Successful application of the model will improve the performance of diverse energy and environmental systems including carbon geo-sequestration, unconventional oil and gas recovery, enhanced geothermal energy generation and groundwater contamination.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100117
Funder
Australian Research Council
Funding Amount
$940,000.00
Summary
An advanced, macro-scale, hydro-thermo-mechanical testing chamber for sustainable deep geological applications. The Advanced Macro-scale Testing Chamber (AMTC) is a novel laboratory testing device capable of recreating deep geological conditions which can occur at depths of up to 13km underground. The AMTC will help scientists and engineers understand the Earth's behaviour during deep geological activities such as geothermal energy collection, pollutant disposal, underground mining and earthquak ....An advanced, macro-scale, hydro-thermo-mechanical testing chamber for sustainable deep geological applications. The Advanced Macro-scale Testing Chamber (AMTC) is a novel laboratory testing device capable of recreating deep geological conditions which can occur at depths of up to 13km underground. The AMTC will help scientists and engineers understand the Earth's behaviour during deep geological activities such as geothermal energy collection, pollutant disposal, underground mining and earthquake modelling.Read moreRead less