Pore scale characterisation of the wettability of petroleum reservoir core material: Towards optimised recovery of hydrocarbon reserves. In most oil reservoirs more than 50% of original oil in place remains unrecovered. A major factor contributing to suboptimal recovery is insufficient knowledge of the rock wettability. Even a small improvement in recovery will have substantial economic benefit. The proposed project aims to characterise wettability in hydrocarbon bearing rocks using advanced 3D ....Pore scale characterisation of the wettability of petroleum reservoir core material: Towards optimised recovery of hydrocarbon reserves. In most oil reservoirs more than 50% of original oil in place remains unrecovered. A major factor contributing to suboptimal recovery is insufficient knowledge of the rock wettability. Even a small improvement in recovery will have substantial economic benefit. The proposed project aims to characterise wettability in hydrocarbon bearing rocks using advanced 3D imaging hardware and understand implications to oil displacement and recovery via state-of-the-art computational tools. Scientifically, this will be a leading edge research achievement enhancing Australian competitiveness in petroleum engineering research and will help Australia become a world leader in the export-oriented petroleum research services industry.Read moreRead less
Fundamental studies of the packing and compaction of fine particles. This project will investigate the fundamentals of the packing and compaction of fine particles at both microscopic and macroscopic levels through a combined theoretical and experimental program. It involves the use of advanced techniques to generate particle scale information, so that a packing and compaction process can be assessed at various time and length scales. It will produce a comprehensive understanding of the underlyi ....Fundamental studies of the packing and compaction of fine particles. This project will investigate the fundamentals of the packing and compaction of fine particles at both microscopic and macroscopic levels through a combined theoretical and experimental program. It involves the use of advanced techniques to generate particle scale information, so that a packing and compaction process can be assessed at various time and length scales. It will produce a comprehensive understanding of the underlying physics, computer models capable of predicting the micromechanic and transport properties of porous media, and an effective means to solve many packing and compaction problems widely encountered in minerals and materials processing industries.Read moreRead less
Computational Rock Physics. Knowledge of the quantitative relationships between rock and fluid properties, and seismic characteristic is necessary to improve the determination of fluid saturation and accurately monitor recovery of oil and gas. The proposed project aims to develop these relationships by teaming up two Australian-based experts in 3D seismic image analysis and theoretical rock physics, with a global company at the forefront of the industry. Developing these relationships will be a ....Computational Rock Physics. Knowledge of the quantitative relationships between rock and fluid properties, and seismic characteristic is necessary to improve the determination of fluid saturation and accurately monitor recovery of oil and gas. The proposed project aims to develop these relationships by teaming up two Australian-based experts in 3D seismic image analysis and theoretical rock physics, with a global company at the forefront of the industry. Developing these relationships will be a cutting edge research achievement, will directly impact on exploration, interpretation and production decisions within the oil and gas industry in Australia and globally, and greatly advance Australia's reputation as a leader in petroleum research services and training.Read moreRead less
Microbiologically Induced Stress Corrosion Cracking in Underground Mines. Premature brittle failure of rock & cable bolts due to stress corrosion cracking can cause fatalities and serious damage, and has been reported in several mining operations across Australia and world-wide. The evidence suggests that microbial activity is a contributing factor. The project aims to implement experimental methodologies to determine the specific conditions responsible for bolt failure and develop novel prevent ....Microbiologically Induced Stress Corrosion Cracking in Underground Mines. Premature brittle failure of rock & cable bolts due to stress corrosion cracking can cause fatalities and serious damage, and has been reported in several mining operations across Australia and world-wide. The evidence suggests that microbial activity is a contributing factor. The project aims to implement experimental methodologies to determine the specific conditions responsible for bolt failure and develop novel prevention techniques applicable in underground mines. The benefits of this research will be improved understanding of the environment causing catastrophic failure of bolts and avoidance of potential hazards & economic loss in mining projects. This will lead to improved safety & increased productivity in mining operations.Read moreRead less
Mechanisms of nucleation with special emphasis on gas hydrates. Successful recovery of natural gas from hydrate reservoirs, flow assurance in natural gas pipelines, prevention of undesirable dissociation of methane hydrates in deep ocean sediments, sequestration of carbon dioxide and high density gas storage, all depend on timely formation and dissociation of gas hydrates. Controlled extraction of methane hydrates from, and simultaneous sequestration of carbon dioxide to, deep ocean sediments ha ....Mechanisms of nucleation with special emphasis on gas hydrates. Successful recovery of natural gas from hydrate reservoirs, flow assurance in natural gas pipelines, prevention of undesirable dissociation of methane hydrates in deep ocean sediments, sequestration of carbon dioxide and high density gas storage, all depend on timely formation and dissociation of gas hydrates. Controlled extraction of methane hydrates from, and simultaneous sequestration of carbon dioxide to, deep ocean sediments have been considered to be the 'next big thing' in energy and environment sectors. Sequestration of carbon dioxide is necessary not only for reducing the greenhouse gases in the atmosphere but also to stabilise the sediments once methane is extracted.Read moreRead less
Core-scale geodynamic rock-typing of reservoir rock. This project aims to develop a robust classification method for reservoir rock incorporating static, dynamic and mechanical attributes via multiscale digital core analysis using the concept of regional measures. Rock-types are used to populate reservoir models in a sophisticated routine of geological classification, spatial modelling and uncertainty analysis. Introducing high-resolution rock-types incorporating hydraulic properties and compact ....Core-scale geodynamic rock-typing of reservoir rock. This project aims to develop a robust classification method for reservoir rock incorporating static, dynamic and mechanical attributes via multiscale digital core analysis using the concept of regional measures. Rock-types are used to populate reservoir models in a sophisticated routine of geological classification, spatial modelling and uncertainty analysis. Introducing high-resolution rock-types incorporating hydraulic properties and compaction allows the development of a new generation of reservoir simulators. The project aims to derive a consistent high-resolution definition of rock-types incorporating compaction for petrophysical, geological and reservoir engineering purposes. This would greatly enhance our capacity to develop thinly layered reservoirs with direct applications in 4-D seismic reservoir characterisation and the development of unconventional reservoirs.Read moreRead less
Rock Physics: A study of micromechanics of rocks and granulated materials. This proposal will provide an understanding of the micro mechanics of granular materials and of changes at the grain scale when a granular pack undergoes mechanical stress or compaction. Sedimentary rocks, as a natural form of compact granular materials, are abundant in nature and often provide the bed for underground hydrocarbon reserves. This project will answer some of the fundamental questions in petroleum engineering ....Rock Physics: A study of micromechanics of rocks and granulated materials. This proposal will provide an understanding of the micro mechanics of granular materials and of changes at the grain scale when a granular pack undergoes mechanical stress or compaction. Sedimentary rocks, as a natural form of compact granular materials, are abundant in nature and often provide the bed for underground hydrocarbon reserves. This project will answer some of the fundamental questions in petroleum engineering, explaining how and why a sedimentary oil reservoir compacts during oil extraction. The knowledge gained from this project has also important applications in the construction industries and ground water management.Read moreRead less
Mid-Career Industry Fellowships - Grant ID: IM230100157
Funder
Australian Research Council
Funding Amount
$788,572.00
Summary
Improving Australian iron ore comminution for green steel production. Decarbonisation of the iron ore and steel industry will involve the design of new mineral processing approaches to make the Australian iron ore amenable to green steel production. Energy-efficient ore crushing for optimal ore grades production is key to the development and economics of green steel.
This fellowship project, with embedded industry experts, aims at better understanding the fragmentation mechanics of Pilbara iron ....Improving Australian iron ore comminution for green steel production. Decarbonisation of the iron ore and steel industry will involve the design of new mineral processing approaches to make the Australian iron ore amenable to green steel production. Energy-efficient ore crushing for optimal ore grades production is key to the development and economics of green steel.
This fellowship project, with embedded industry experts, aims at better understanding the fragmentation mechanics of Pilbara iron ore. It will exploit micro-computed tomography coupled with advanced mechanical testing to offer transformative characterisation methods of ore comminution. The project outcomes will help develop new technologies and optimal production paths to realise a higher-grade iron ore needed for a decarbonised steel industry.
Read moreRead less
Data-driven monitoring of raceway dynamics in ironmaking blast furnaces. Raceway dynamics in ironmaking blast furnaces affect operational stability and cost considerably, yet their dynamic behaviour has not been well monitored online. The project aims to develop a data-driven model for monitoring the internal state of gas-solid-powder reacting flow in the raceway and predicting raceway anomalies online. It will be achieved by combining particle-fluid numerical simulations with data processing an ....Data-driven monitoring of raceway dynamics in ironmaking blast furnaces. Raceway dynamics in ironmaking blast furnaces affect operational stability and cost considerably, yet their dynamic behaviour has not been well monitored online. The project aims to develop a data-driven model for monitoring the internal state of gas-solid-powder reacting flow in the raceway and predicting raceway anomalies online. It will be achieved by combining particle-fluid numerical simulations with data processing and reduced-order state observer, supported by lab/plant experiments, and collaborating with two industry partners from coal and steel industries. The project outcomes including codes, models and raceway control strategies can help promote Australian metallurgical coal's global markets and ultimately the Australian economy.Read moreRead less
Multiscale modelling of multiphase interactions in shale gas reservoirs. As conventional oil and gas become depleted in most of the producing basins, extraction of unconventional gas trapped in shale formations needs to become more viable. Since Australian shales have different characteristics from North American ones, the existing knowledge cannot be directly applied. We aim to develop a novel multiscale framework for deep understanding of the complex multiphase interactions in shale gas reserv ....Multiscale modelling of multiphase interactions in shale gas reservoirs. As conventional oil and gas become depleted in most of the producing basins, extraction of unconventional gas trapped in shale formations needs to become more viable. Since Australian shales have different characteristics from North American ones, the existing knowledge cannot be directly applied. We aim to develop a novel multiscale framework for deep understanding of the complex multiphase interactions in shale gas reservoirs. The outcomes will not only enable us to effectively assess the viability of gas extraction from Australian shale reservoirs with accurate long-term production forecasting, but help to develop strategies to effectively extract this relatively low carbon-emitting fossil fuel in the transition to a renewable economy.Read moreRead less