Geotechnical engineering solutions for deep-water oil and gas developments. Offshore extraction of oil and gas lies at the heart of Australia's prosperity, but faces escalating challenges in water depths already in excess of 1 km and approaching 3 km. Safe and economic design of seabed systems and pipelines requires novel techniques for assessing the engineering properties of seabed sediments, and for foundation and anchoring systems that must withstand extreme loading conditions. This project c ....Geotechnical engineering solutions for deep-water oil and gas developments. Offshore extraction of oil and gas lies at the heart of Australia's prosperity, but faces escalating challenges in water depths already in excess of 1 km and approaching 3 km. Safe and economic design of seabed systems and pipelines requires novel techniques for assessing the engineering properties of seabed sediments, and for foundation and anchoring systems that must withstand extreme loading conditions. This project contributes to future exploitation of offshore hydrocarbon reserves, by developing new technology and improved reliability in offshore geotechnical design, with consequential benefits to our economy and in minimising impact on the marine environment. Read moreRead less
Geostructural stability analysis with adaptive mesh refinement. AIMS: To conduct fundamental research on new methods for predicting the stability of geostructures such as tunnels, dams, highways and foundations. To translate this research into innovative computer software and better civil design procedures.
SIGNIFICANCE: Billions of dollars are spent annually on the construction of Australian infrastructure. This project will lead to new algorithms and computer software for designing this inf ....Geostructural stability analysis with adaptive mesh refinement. AIMS: To conduct fundamental research on new methods for predicting the stability of geostructures such as tunnels, dams, highways and foundations. To translate this research into innovative computer software and better civil design procedures.
SIGNIFICANCE: Billions of dollars are spent annually on the construction of Australian infrastructure. This project will lead to new algorithms and computer software for designing this infrastructure. Particular emphasis will be placed on the development of adaptive methods for three-dimensional problems involving complex ground profiles, where current procedures are inadequate.
EXPECTED OUTCOMES: Cutting-edge algorithms and computer software that will lead to cheaper and safer design of civil infrastructure. This will be accompanied by top-level refereed publications and a book.Read moreRead less
Advanced analysis, behaviour and design of steel and steel-concrete composite engineering structures subjected to elevated temperatures. This Fellowship aims to develop a consistent advanced nonlinear method for the analysis and behaviour of steel and composite building frames that are subjected to elevated temperatures. There is widespread feeling amongst practitioners that, in the absence of reliable techniques for verifying this behaviour, the regulatory need for fire protection of steel is ....Advanced analysis, behaviour and design of steel and steel-concrete composite engineering structures subjected to elevated temperatures. This Fellowship aims to develop a consistent advanced nonlinear method for the analysis and behaviour of steel and composite building frames that are subjected to elevated temperatures. There is widespread feeling amongst practitioners that, in the absence of reliable techniques for verifying this behaviour, the regulatory need for fire protection of steel is excessive, and the high expense involved in providing this protection is leading structural steel being rejected in engineering design. This growing trend is leading to a potential downturn in structural steel production, which has serious economic and social ramifications on Australian communities whose fabric is centred on this activity.Read moreRead less