Safety and robustness of tall timber buildings under extreme dynamic events. This project aims to develop innovative and robust structural connections in tall mass timber buildings by characterising their mechanical behaviour under dynamic loads induced by extreme events like earthquakes or progressive collapse. This project expects to generate new knowledge in the safe, economic, and efficient design of mass timber buildings. Expected outcomes of this project include enhanced robustness design ....Safety and robustness of tall timber buildings under extreme dynamic events. This project aims to develop innovative and robust structural connections in tall mass timber buildings by characterising their mechanical behaviour under dynamic loads induced by extreme events like earthquakes or progressive collapse. This project expects to generate new knowledge in the safe, economic, and efficient design of mass timber buildings. Expected outcomes of this project include enhanced robustness design guidelines for the engineering community. This should lead to significant benefits, such as contributing to uptake of viable low-cost timber housing solutions in response to population growth and contributing to net zero emissions in Australia by 2050, and transition to safer and resilient infrastructure in urban development.Read moreRead less
New Systems for High Rise Steel Structures in Rising Factory Construction. This project will develop new and innovative ways of constructing steel structures using the rising factory concept. The rising factory is a 10 storey enclosure where the final high-rise building is safely constructed within a watertight envelope which rises as the building progresses. The project will perform the necessary research to make possible high-rise steel structural systems consisting of hot-rolled (heavy gauge ....New Systems for High Rise Steel Structures in Rising Factory Construction. This project will develop new and innovative ways of constructing steel structures using the rising factory concept. The rising factory is a 10 storey enclosure where the final high-rise building is safely constructed within a watertight envelope which rises as the building progresses. The project will perform the necessary research to make possible high-rise steel structural systems consisting of hot-rolled (heavy gauge) and cold-formed (light gauge) steel structural members and connections which can be used in the rising factory. The main benefits of the rising factory are the waterproof construction environment and the substantially increased safety as a result of no external cranes.
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A novel method to stabilise expansive soils by alkali-activation . This project aims to address durability and sustainability issues with traditional lime-based methods used to stabilize expansive soils by alternatively advancing an alkali-activation approach. It expects to generate new knowledge in using alkali-activation to suppress the swelling potential of expansive soils which have been deleterious to roads, pavements and overlying structures. Expected outcomes of this project include deve ....A novel method to stabilise expansive soils by alkali-activation . This project aims to address durability and sustainability issues with traditional lime-based methods used to stabilize expansive soils by alternatively advancing an alkali-activation approach. It expects to generate new knowledge in using alkali-activation to suppress the swelling potential of expansive soils which have been deleterious to roads, pavements and overlying structures. Expected outcomes of this project include development of a long-term durable treatment with reduced carbon footprint and use of waste materials. This should provide significant benefits commercially and critical insights to overcome expansive soils which cover approximately one-fifth of Australia’s surface area and six out of eight of its largest cities.Read moreRead less
Advancing the Engineering of Minipile Systems to Frontier Applications. This project aims to develop new knowledge on the performance of battered minipile systems used in a wide range of applications from solar panels to traffic signs. Minipiles provide concrete-free foundation systems, yet their behaviour under more complex loading such as wind, is yet to be fully understood. This project will examine the loading conditions experienced during installation and throughout service life. This will ....Advancing the Engineering of Minipile Systems to Frontier Applications. This project aims to develop new knowledge on the performance of battered minipile systems used in a wide range of applications from solar panels to traffic signs. Minipiles provide concrete-free foundation systems, yet their behaviour under more complex loading such as wind, is yet to be fully understood. This project will examine the loading conditions experienced during installation and throughout service life. This will include complex full-scale laboratory tests and advanced computer modelling to verify the performance against expected cyclic loading. New design approaches will be developed for this emerging foundation system, enabling more widespread adoption of this technology in the building and construction industry.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100722
Funder
Australian Research Council
Funding Amount
$362,245.00
Summary
Enabling Novel Hydrogen Storage via Combustible Ice for a Low-Carbon Future. This project aims to develop a new method for sustainable hydrogen storage. Hydrogen is vital for decarbonising Australia's economy, yet finding an efficient way for hydrogen storage is a global challenge. This project seeks to encapsulate hydrogen effectively in water to produce hydrogen-carrying combustible ice for efficient large-scale hydrogen storage, taking the advantages of water as the safest and cheapest raw ma ....Enabling Novel Hydrogen Storage via Combustible Ice for a Low-Carbon Future. This project aims to develop a new method for sustainable hydrogen storage. Hydrogen is vital for decarbonising Australia's economy, yet finding an efficient way for hydrogen storage is a global challenge. This project seeks to encapsulate hydrogen effectively in water to produce hydrogen-carrying combustible ice for efficient large-scale hydrogen storage, taking the advantages of water as the safest and cheapest raw material. Expected outcomes are cutting-edge knowledge and a new pathway of hydrogen storage. This project would contribute to turning Australia’s abundant renewable energy resources into substantial economic and environmental benefits and promote Australia's competitive edge in the global transition toward a low-carbon future.Read moreRead less
Determining the social value of extreme, mixed-use urban developments. Using an Adelaide case study, UCity, this project will investigate the social benefit of building mixed-use vertical communities in the Australian urban context. Using an innovative Social Value Framework, the project will establish and demonstrate the multi-dimensional impacts of such developments in practice. The project utilises citizen science for real time auditing of the built environment by residents and users; smart t ....Determining the social value of extreme, mixed-use urban developments. Using an Adelaide case study, UCity, this project will investigate the social benefit of building mixed-use vertical communities in the Australian urban context. Using an innovative Social Value Framework, the project will establish and demonstrate the multi-dimensional impacts of such developments in practice. The project utilises citizen science for real time auditing of the built environment by residents and users; smart technologies for environmental and behavioural monitoring; and data analytics and design automation for spatial analysis of building use. The results will inform new models of sustainable high-rise, mixed-use buildings; providing evidence for a Social Value Framework to become a core consideration in Australian industry.Read moreRead less
Swarming: micro-flight data capture and analysis in architectural design. The project seeks to generate new knowledge about the safe capture, management and application of big data in sustainable city design. In particular, it aims to investigate the use of micro air vehicles (drones) equipped with diverse lightweight sensing equipment to gather data including atmospheric measurements and building temperatures and reflectivity. This is designed to meet the need for more site-specific and vertica ....Swarming: micro-flight data capture and analysis in architectural design. The project seeks to generate new knowledge about the safe capture, management and application of big data in sustainable city design. In particular, it aims to investigate the use of micro air vehicles (drones) equipped with diverse lightweight sensing equipment to gather data including atmospheric measurements and building temperatures and reflectivity. This is designed to meet the need for more site-specific and vertical environmental information to inform the design of sustainable architecture. The project also aims to research a cloud-based computing framework that will be able to handle very large volumes of data collected over extended time periods and locations. The data would then be used to develop visualisations and design models to inform architecture, landscape and urban design.Read moreRead less
Assessing Architectural Aesthetic Character: An ‘Intelligent’ Approach. This project aims to develop ground-breaking insights and software to improve the assessment of architectural aesthetic character by Australia’s designers, councils and courts.
Combining empirical, neurophysiological and machine-learning approaches, this project expects to provide a new level of robustness and repeatability in administrative and legal assessments of building aesthetics.
Planned outcomes include: (i) a uni ....Assessing Architectural Aesthetic Character: An ‘Intelligent’ Approach. This project aims to develop ground-breaking insights and software to improve the assessment of architectural aesthetic character by Australia’s designers, councils and courts.
Combining empirical, neurophysiological and machine-learning approaches, this project expects to provide a new level of robustness and repeatability in administrative and legal assessments of building aesthetics.
Planned outcomes include: (i) a unique quantitative understanding of aesthetic assessment and (ii) a world-first method for measuring and comparing the character of buildings.
This research has the potential to reduce the substantial cost of disputes and provide more certainty and efficiency in the architectural design, approval and appeal processes.
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Designing offices well. This project aims to describe, quantify and analyse the impact of workspace design on workers’ satisfaction, productivity and health. The Australian market is the fastest adopter of Activity-Based Working (ABW) in the world and impacts arising from this workspace typology on workers will be significant now and in the next decade. This project will develop benchmarking for ABW offices, techniques for monitoring cognitive performance in situ, and design guidelines for healt ....Designing offices well. This project aims to describe, quantify and analyse the impact of workspace design on workers’ satisfaction, productivity and health. The Australian market is the fastest adopter of Activity-Based Working (ABW) in the world and impacts arising from this workspace typology on workers will be significant now and in the next decade. This project will develop benchmarking for ABW offices, techniques for monitoring cognitive performance in situ, and design guidelines for health promotion. By shifting attention to design features that actually perform well, this project will provide the empirical basis needed to transform the way workspaces are designed now and in the future. It will therefore lead to greater productivity in and among workplaces.Read moreRead less
Next generation transport infrastructure using high performance materials. This project aims to provide structural engineers with the tools required to develop ultra-high performance fibre reinforced concrete materials and to utilise their unique material properties in design. Recent feasibility studies have shown that the replacement of conventional concrete and steel transport infrastructure with ultra-high performance fibre reinforced concrete has the potential to revolutionise the sector. Fo ....Next generation transport infrastructure using high performance materials. This project aims to provide structural engineers with the tools required to develop ultra-high performance fibre reinforced concrete materials and to utilise their unique material properties in design. Recent feasibility studies have shown that the replacement of conventional concrete and steel transport infrastructure with ultra-high performance fibre reinforced concrete has the potential to revolutionise the sector. For these cost savings benefits to be realised, guidelines for the low cost development and testing of new materials, and for the application in structural design are required. This project is expected to deliver these guidelines and potentially maximise the impact of government spending on road and rail infrastructure.Read moreRead less