Braced batter micropile group: New design theory and performance framework. Braced batter micropile group: New design theory and performance framework. This project aims to research the design and performance of innovative biomimetic braced battered micropile group footings. This project will test Surefoot, the new concrete free footing, in the laboratory, in the field, and through numerical and analytical modelling. Surefoot’s mechanisms of action are poorly understood but clearly more complex ....Braced batter micropile group: New design theory and performance framework. Braced batter micropile group: New design theory and performance framework. This project aims to research the design and performance of innovative biomimetic braced battered micropile group footings. This project will test Surefoot, the new concrete free footing, in the laboratory, in the field, and through numerical and analytical modelling. Surefoot’s mechanisms of action are poorly understood but clearly more complex than current micropile theory; this project will research the mechanism of load transfer from micropiles to the soil and soil response.Read moreRead less
Transforming building environmental design: streamlining environmental decision-making for building designers. The project will significantly reduce national energy demand and greenhouse gas emissions associated with the construction and operation of new and existing buildings. This will help to reduce the potential impacts of climate change on Australians and provides a highly cost-effective solution for mitigating and adapting to climate change.
Development of deep soil mixing technology utilising industrial by-products. This project will investigate the sustainable use of industrial wastes in ground improvement works using deep soil mixing. Currently, ground improvement projects use large amounts of highly carbon intensive materials. This project aims to develop low carbon alternatives by using geopolymers, which are a mixture of industrial waste by-products such as fly ash and slag with alkali activators. This project will explore the ....Development of deep soil mixing technology utilising industrial by-products. This project will investigate the sustainable use of industrial wastes in ground improvement works using deep soil mixing. Currently, ground improvement projects use large amounts of highly carbon intensive materials. This project aims to develop low carbon alternatives by using geopolymers, which are a mixture of industrial waste by-products such as fly ash and slag with alkali activators. This project will explore the consolidation effects and stress–strain responses of soft soil improved with geopolymers under static and dynamic loading. The main expected outcome of the project is an innovative ground improvement technique using geopolymers as an alternative green binder.Read moreRead less
The sound of space: architecture for improved auditory performance in the age of digital manufacturing. This project will combine complex custom architectural surface design with acoustic modelling and simulation to look for novel solutions to the challenges of noisy interiors. It will apply digital modelling in new ways including the construction of high fidelity full scale prototypes for testing in an open office environment and a church.
Prefabricated reusable building modules: reducing building life cycle environmental impacts. The outcomes of this project will enhance Australia's ability to provide globally competitive next generation building construction solutions. It will also help to not only ensure that Australian industry is at the forefront of best-practice environmental innovation but also support industry to develop and expand export markets, providing significant economic benefits. The outcomes of this project will b ....Prefabricated reusable building modules: reducing building life cycle environmental impacts. The outcomes of this project will enhance Australia's ability to provide globally competitive next generation building construction solutions. It will also help to not only ensure that Australian industry is at the forefront of best-practice environmental innovation but also support industry to develop and expand export markets, providing significant economic benefits. The outcomes of this project will be valuable to the construction industry to make implementation of ecologically sustainable design more rigorous. Strategies for improving the environmental performance of construction, particularly through prefabrication of durable building components will be able to be better facilitated by the research undertaken in this project.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL120100019
Funder
Australian Research Council
Funding Amount
$2,879,582.00
Summary
Protonic materials for green chemical futures. By emulating the structures that nature has evolved this project will create novel materials that will be used to develop new sustainable chemical technologies. Working with local and international collaborators, outcomes will include new approaches to the conversion of carbon dioxide into valuable chemicals and for renewable energy generation and storage.
Understanding how local and regional accessibility are associated with active travel, and related health and economic impacts. Exercise and walking are vital for a healthy lifestyle and wellbeing. The accessibility and ’walkability’ of where one lives and works is key to supporting physical activity. Consequently, public health practitioners, urban planners and the transport sector face a common strategic challenge; shifting people from private vehicles to active forms of transport. This project ....Understanding how local and regional accessibility are associated with active travel, and related health and economic impacts. Exercise and walking are vital for a healthy lifestyle and wellbeing. The accessibility and ’walkability’ of where one lives and works is key to supporting physical activity. Consequently, public health practitioners, urban planners and the transport sector face a common strategic challenge; shifting people from private vehicles to active forms of transport. This project aims to model the health and economic impacts of the ease of: walking and cycling within neighbourhoods; and travelling across wider geographical areas on time spent walking and cycling for transport among both adults and children. This project aims to enable the research team to maximise the opportunities the environment provides for both positive health and well-being in Australia.Read moreRead less
From diesel to electric: a new era in personnel transport for underground coal mines. There are many factors which give rise to poor air quality in underground coal mines with the diesel engines used to transport miners being one of the major contributors. This project will develop an alternative electric power system for these vehicles which will not only be zero emission but meet the challenging environment found in these mines.
Unsaturated Soil Dynamics. The main aim of this ambitious project is to address a highly significant and timely class of problems in civil engineering, and in particular in soil mechanics. The outcomes are expected to result in improvements in the design and construction of civil infrastructure. The problems considered are routinely confronted in daily engineering practice whenever a construction site contains weak soil and the ground requires improvement before construction. This project is exp ....Unsaturated Soil Dynamics. The main aim of this ambitious project is to address a highly significant and timely class of problems in civil engineering, and in particular in soil mechanics. The outcomes are expected to result in improvements in the design and construction of civil infrastructure. The problems considered are routinely confronted in daily engineering practice whenever a construction site contains weak soil and the ground requires improvement before construction. This project is expected to provide a comprehensive understanding of soil behaviour in this class of problems, leading to robust techniques and advanced computational tools for more cost-effective and safer engineering designs.Read moreRead less
Durability and debonding resistance of composite based strengthening techniques for deteriorated structures. Australia has many concrete structures exposed to aggressive environments that are deteriorating prior to their intended design life due to durability issues. Externally bonded fibre reinforced polymer composite applications are emerging as a method of structural rehabilitation. This project will provide safe and reliable strengthened structures.