Progressive liquefaction within marine sediments: comparison between geo-centrifuge modelling, full-scale wave tank tests and numerical modelling. The evaluation of wave-induced liquefaction within the marine sediment is particularly important for coastal and geotechnical engineers involved in the design of foundation around coastal structures. The proposed study will integrate the existing knowledge from the aspects of coastal and geotechnical engineering with that of overseas experts to provid ....Progressive liquefaction within marine sediments: comparison between geo-centrifuge modelling, full-scale wave tank tests and numerical modelling. The evaluation of wave-induced liquefaction within the marine sediment is particularly important for coastal and geotechnical engineers involved in the design of foundation around coastal structures. The proposed study will integrate the existing knowledge from the aspects of coastal and geotechnical engineering with that of overseas experts to provide coastal engineers with an effective tool for the design of foundations around marine structures. It will also assist in reducing the risk of potential environmental damage caused by failure of marine structures.Read moreRead less
Numerical Modelling of Three-dimensional Scour below Offshore Pipelines. Australia's increasing offshore oil and gas exploration has demanded more accurate and reliable methods for evaluating the safety and serviceability of pipelines. Local scour around pipelines is one of the major causes of pipeline failures, and is a major concern in Australian waters. This project not only addresses these concerns in its direct application to the design and management of offshore pipelines, but also will co ....Numerical Modelling of Three-dimensional Scour below Offshore Pipelines. Australia's increasing offshore oil and gas exploration has demanded more accurate and reliable methods for evaluating the safety and serviceability of pipelines. Local scour around pipelines is one of the major causes of pipeline failures, and is a major concern in Australian waters. This project not only addresses these concerns in its direct application to the design and management of offshore pipelines, but also will contribute to the nation's development and competitiveness in offshore exploration, and produce high quality research students. The improved design and management of pipelines in Australian waters will reduce the risk of potential environmental damages caused by leaking gas and oil.Read moreRead less
Engineering solutions for the next generation of offshore oil and gas infrastructure. Offshore extraction of oil and gas reserves is a key industry for Australia, annually contributing A$21 billion to the economy, and underpinning much of our prosperity. With reserves close to shore being exhausted and A$1 trillion of gas reserves (four times that already developed) known to be 'stranded' in deep and remote locations, the outcomes of the proposed research programme will help scientifically under ....Engineering solutions for the next generation of offshore oil and gas infrastructure. Offshore extraction of oil and gas reserves is a key industry for Australia, annually contributing A$21 billion to the economy, and underpinning much of our prosperity. With reserves close to shore being exhausted and A$1 trillion of gas reserves (four times that already developed) known to be 'stranded' in deep and remote locations, the outcomes of the proposed research programme will help scientifically underpin the reliable design of the next generation of Australia's exploration and development infrastructure. It continues Australia's leadership in the field of offshore geotechnics and engineering, fostering tomorrow's engineering leaders and ensuring the future competitiveness of Australia's offshore oil and gas industry.Read moreRead less