Floating Forest – a breakwater for protecting the Australian coastline. This project aims to develop structural, materials and foundation solutions for a large floating forest that will act as a mega breakwater and windbreaker to protect the Australian coastline from strong waves and winds caused by climate change. This requires the evaluation of structural and environmental loads, concepts and optimal structural solutions, design, materials and foundation. The newly developed floating structure ....Floating Forest – a breakwater for protecting the Australian coastline. This project aims to develop structural, materials and foundation solutions for a large floating forest that will act as a mega breakwater and windbreaker to protect the Australian coastline from strong waves and winds caused by climate change. This requires the evaluation of structural and environmental loads, concepts and optimal structural solutions, design, materials and foundation. The newly developed floating structure will lead to future construction applications on the Australian harsh sea conditions that call for stringent requirements on infrastructures.Read moreRead less
Multifunctional and environmentally friendly corrosion inhibitor systems. This project aims to design new, environmentally friendly coating systems for steel in marine environments by incorporating novel, non-toxic pigments that can be combined to protect against both corrosion and microbial attack. Structural requirements for these compounds will be determined through the use of advanced characterisation techniques to identify the largely unknown mechanisms of attachment and protection on steel ....Multifunctional and environmentally friendly corrosion inhibitor systems. This project aims to design new, environmentally friendly coating systems for steel in marine environments by incorporating novel, non-toxic pigments that can be combined to protect against both corrosion and microbial attack. Structural requirements for these compounds will be determined through the use of advanced characterisation techniques to identify the largely unknown mechanisms of attachment and protection on steel surfaces. The components may themselves be dual active, or be combined to capitalise on individual protection mechanisms that provide a synergy whereby the combination leads to better protection outcomes. Such coatings have the potential to significantly improve the lifetime of marine infrastructure.Read moreRead less
Rare Event Simulation: Protecting vital infrastructure from flood extremes. This research aims to develop Rare Event Simulation to quantify the future risk of very rare to extreme floods. Expected outcomes include a framework for the design and maintenance of critical Civil Engineering infrastructure such as dams, extrapolation of extreme storm events beyond the observed record, and an assessment of change in rare flood risk across Australia. The significance of this world-first research lies in ....Rare Event Simulation: Protecting vital infrastructure from flood extremes. This research aims to develop Rare Event Simulation to quantify the future risk of very rare to extreme floods. Expected outcomes include a framework for the design and maintenance of critical Civil Engineering infrastructure such as dams, extrapolation of extreme storm events beyond the observed record, and an assessment of change in rare flood risk across Australia. The significance of this world-first research lies in adapting rare event simulation techniques that have only been applied to computer system failure before, to water engineering design. With Australian riverine flooding projected to cause $170 billion in losses by 2050, the benefit of this proposal in reducing future infrastructure damage costs and liability is overwhelming.Read moreRead less