Thermal Storage for Built Environment. Thermal storage systems with Phase Chage Materials (PCM) can be ulilised to reduce the energy required to cool and heat buildings. The PCM used has a freezing point around 20C. Thus alowing cool summer night air to freeze the PCM overnight. During the day warmer outside air is cooled significantly as it melts the PCM. PCM systems can be retrofitted to existing systems to precool the outside air, and thus significantly reduce the energy required to cool a bu ....Thermal Storage for Built Environment. Thermal storage systems with Phase Chage Materials (PCM) can be ulilised to reduce the energy required to cool and heat buildings. The PCM used has a freezing point around 20C. Thus alowing cool summer night air to freeze the PCM overnight. During the day warmer outside air is cooled significantly as it melts the PCM. PCM systems can be retrofitted to existing systems to precool the outside air, and thus significantly reduce the energy required to cool a building. This project deals with design, simulation and optimisation of this kind of thermal storage system. A laboratory prototype system will also be built and tested.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100088
Funder
Australian Research Council
Funding Amount
$275,000.00
Summary
High-resolution molecular tagging velocimetry and thermometry facility. The facility will simultaneously measure the motion of a fluid and its temperature over an area within a flow. This capability will advance engineering and scientific aims to predict, and potentially control the behaviours of thermally influenced flows that are pervasive in biological, environmental, and energy-related applications.
Turbulent wall-bounded flow in adverse pressure gradient environments. This research will create additional research capacity in turbulence control and drag reduction. It will have direct benefits to the Australian economy via the transport industry by reducing the adverse impact of the carbon tax and rising fuel prices on long-haul air, water and road transport, on which Australia is disproportionately reliant.
Discovery Early Career Researcher Award - Grant ID: DE160100968
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Lifting the Veil on Turbulent Convective Heat Transfer over Rough Surfaces. By understanding the influence of surface roughness on convective heat transfer, this project intends to reduce the unwanted heating and energy losses associated with surface roughness in gas and steam turbines used in power generation and transportation. The surface roughness that results from extended operation of gas and steam turbines can significantly increase the heating of their surfaces, increasing fuel consumpti ....Lifting the Veil on Turbulent Convective Heat Transfer over Rough Surfaces. By understanding the influence of surface roughness on convective heat transfer, this project intends to reduce the unwanted heating and energy losses associated with surface roughness in gas and steam turbines used in power generation and transportation. The surface roughness that results from extended operation of gas and steam turbines can significantly increase the heating of their surfaces, increasing fuel consumption and greenhouse gas emissions, and reducing operational life. Improvements would allow turbines to operate at higher inlet temperatures which will increase their efficiency and reduce fuel use, environmental emissions and maintenance costs.Read moreRead less