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
Life-cycle cost and emission analyses of green-building implementation. In Australia, the annual average temperature has increased 0.9 degrees Celsius since 1910. Residential and commercial building sectors produce about 23 per cent of the national greenhouse-gas emissions. This project critically evaluates the cost effectiveness and greenhouse-gas emissions of green-building implementation in Australia. This will examine methods to lower cost and greenhouse-gas emissions from green-building imp ....Life-cycle cost and emission analyses of green-building implementation. In Australia, the annual average temperature has increased 0.9 degrees Celsius since 1910. Residential and commercial building sectors produce about 23 per cent of the national greenhouse-gas emissions. This project critically evaluates the cost effectiveness and greenhouse-gas emissions of green-building implementation in Australia. This will examine methods to lower cost and greenhouse-gas emissions from green-building implementation. A new high-tech scoring model is expected to be developed to identify cost-effective and low-greenhouse-gas-emissions methods to achieve specific green-star status for the Australian building and construction industries.Read moreRead less