Bushfire-enhanced wind and its effects on buildings. This project seeks to advance our understanding of bushfire–wind interaction to improve current design standards for buildings against bushfire-enhanced winds. Bushfire-enhanced winds have caused considerable property damage and loss of lives. The project aims to identify the mechanisms governing bushfire–wind interaction and determine the wind load effects on buildings due to bushfire-enhanced wind. It aims to do so by using advanced computat ....Bushfire-enhanced wind and its effects on buildings. This project seeks to advance our understanding of bushfire–wind interaction to improve current design standards for buildings against bushfire-enhanced winds. Bushfire-enhanced winds have caused considerable property damage and loss of lives. The project aims to identify the mechanisms governing bushfire–wind interaction and determine the wind load effects on buildings due to bushfire-enhanced wind. It aims to do so by using advanced computation techniques and unique fire-wind tunnel test facility. This knowledge is designed to guide the development of improved building construction standards for bushfire-prone regions to facilitate the design and construction of a new generation of bushfire-resistant buildings that safeguard lives and properties against the increasing threat of bushfire due to climate change.Read moreRead less
Improving the Environmental Performance of Australian Construction Projects. This project aims to investigate the environmental impacts of construction in Australia through the development of a sophisticated hybrid environmental assessment model. The project aims to assist in identifying the most significant environmental impacts, critical areas for mitigation efforts and informing environmental policy and programs within the Australian construction industry. The development of one of the most s ....Improving the Environmental Performance of Australian Construction Projects. This project aims to investigate the environmental impacts of construction in Australia through the development of a sophisticated hybrid environmental assessment model. The project aims to assist in identifying the most significant environmental impacts, critical areas for mitigation efforts and informing environmental policy and programs within the Australian construction industry. The development of one of the most sophisticated and comprehensive models for assessing environmental impacts ever produced is expected to enable cost- and time-efficient evaluation of multiple environmental impacts at a high level of detail and completeness. This should lead to considerable improvements to the environmental performance of Australian construction projects.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200101747
Funder
Australian Research Council
Funding Amount
$354,216.00
Summary
Mechanism and control of water droplets from condensation to defrosting. The deposition of frost/ice is inevitable and negatively impacts many fields and industries, such as the frosting of air source heat pumps and liquid natural gas vaporizers, and icing of aircraft and power cables. On the other hand, ice slurry is widely deployed for cold storage and transportation of food and organs. To accurately predict and control the frosting/icing process, this project aims to study and understand the ....Mechanism and control of water droplets from condensation to defrosting. The deposition of frost/ice is inevitable and negatively impacts many fields and industries, such as the frosting of air source heat pumps and liquid natural gas vaporizers, and icing of aircraft and power cables. On the other hand, ice slurry is widely deployed for cold storage and transportation of food and organs. To accurately predict and control the frosting/icing process, this project aims to study and understand the interrelated heat, mass and momentum transport phenomena of water droplets from condensation to defrosting. Outcomes of this project should contribute to the development of new material, such as applicable anti-icing/anti-frosting surfaces, and relative technology and equipment, and thus benefit a number of fields.Read moreRead less
Solving the problem of speech distraction in open-plan offices. The project aims to better understand how irrelevant speech in open-plan offices affects the occupants’ cognitive performance and creates annoyance leading to a loss of productivity. Over 97% of Australian office workers are located in open-plan offices. Without internal walls, open-plan offices are designed to make people interact more frequently, therefore be more collaborative and productive. Yet there is a high level of dissatis ....Solving the problem of speech distraction in open-plan offices. The project aims to better understand how irrelevant speech in open-plan offices affects the occupants’ cognitive performance and creates annoyance leading to a loss of productivity. Over 97% of Australian office workers are located in open-plan offices. Without internal walls, open-plan offices are designed to make people interact more frequently, therefore be more collaborative and productive. Yet there is a high level of dissatisfaction with open-plan layout because of frequent distraction by background speech from co-workers, which has been shown to significantly decrease work performance and productivity. The intended outcomes of the project are the development of powerful new tools to measure, model and predict the degree of speech distraction at work, enabling the establishment of new international standards that will increase work performance and productivity.Read moreRead less