Technologies for advanced optical fibre sensors. This project is to create a significantly better technology for exploration of oil and gas reserves under the ocean. Based on lasers and fibre optics, it leverages Australia's prodigious photonics expertise and couples it with Australia's established and well-regarded resource industry. Successful completion will enable better utilization of this country's natural resources, in particular oil and gas reserves, whilst also creating a high technolog ....Technologies for advanced optical fibre sensors. This project is to create a significantly better technology for exploration of oil and gas reserves under the ocean. Based on lasers and fibre optics, it leverages Australia's prodigious photonics expertise and couples it with Australia's established and well-regarded resource industry. Successful completion will enable better utilization of this country's natural resources, in particular oil and gas reserves, whilst also creating a high technology export, given the size of the world marine survey market (US$4 billion). Better energy exploration technologies are vital to Australia and, indeed the world, as energy supply dwindles and the increased energy costs begin to impact negatively on economic growth.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
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668019
Funder
Australian Research Council
Funding Amount
$240,000.00
Summary
An Advanced Computed Tomography Facility - high capacity and high resolution for dynamic studies in porous and granular materials. Characterising complex materials in 3D is an emerging discipline which is driving design concepts for new materials and assists in understanding properties of real world materials. The ANU/UNSW collaboration has developed an internationally recognized program in this emerging discipline and successfully applied the technology to applications in the oil and gas indust ....An Advanced Computed Tomography Facility - high capacity and high resolution for dynamic studies in porous and granular materials. Characterising complex materials in 3D is an emerging discipline which is driving design concepts for new materials and assists in understanding properties of real world materials. The ANU/UNSW collaboration has developed an internationally recognized program in this emerging discipline and successfully applied the technology to applications in the oil and gas industry, groundwater remediation, tissue engineering, medical diagnosis of osteoporosis, granular packing and the design of new materials. The present application will give the collaboration the ability to study a larger number of systems and to image the dynamics of materials in 3D. This will significantly broaden the impact and scope of the applications of this new technology.Read moreRead less