Assessment of the new technologies to maximise the internal energy efficiency by modelling the energy flows in Victorian power stations. Increased internal energy efficiency will reduce the CO2 emissions and increase the profit margin for the power stations. The aim of the proposed research is to investigate the internal energy efficiency in the brown coal fired power stations by modelling the internal energy flows to reveal the potentials in the 'waste' heat streams in the power stations, and t ....Assessment of the new technologies to maximise the internal energy efficiency by modelling the energy flows in Victorian power stations. Increased internal energy efficiency will reduce the CO2 emissions and increase the profit margin for the power stations. The aim of the proposed research is to investigate the internal energy efficiency in the brown coal fired power stations by modelling the internal energy flows to reveal the potentials in the 'waste' heat streams in the power stations, and to assess new waste heat recovery measures for the power industry. The proposed research, supported by the entire Victorian power generation industry, will help the industry to achieve their green house gas emission reduction target set by the Federal Government.
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Process scalability and performance prediction of Viscous Transfer Micro Turbines for use as miniaturised power supplies. This project aims to predict the performance and scalability of viscous transfer turbines. The work will be carried out with Micromachines Ltd., a firm developing working turbines with 50 mm rotors. The goal of the research is to gain an understanding of the scaling laws for these turbines, in order to predict their performance. Viscous transfer turbines have a very simple di ....Process scalability and performance prediction of Viscous Transfer Micro Turbines for use as miniaturised power supplies. This project aims to predict the performance and scalability of viscous transfer turbines. The work will be carried out with Micromachines Ltd., a firm developing working turbines with 50 mm rotors. The goal of the research is to gain an understanding of the scaling laws for these turbines, in order to predict their performance. Viscous transfer turbines have a very simple disc construction making them ideal for manufacturing as small-scale units (with a 5 mm rotor). Small enough to replace batteries, but with a higher power output, they would provide the need for higher power output devices to replace batteries.Read moreRead less
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
Integrated Cooling Enhancement Technology for Power Electronics. This project aims to develop an unprecedented integrated cooling enhancement technology (IceTech) for silicon carbide on silicon power electronics. IceTech represents a radical departure from current failure-prone packaging solutions. The project aims to elucidate the fundamental interactions between magnetism, heat and mass transfer and apply them to cooling. In partnership with SPTS Technologies, the project then aims to develop ....Integrated Cooling Enhancement Technology for Power Electronics. This project aims to develop an unprecedented integrated cooling enhancement technology (IceTech) for silicon carbide on silicon power electronics. IceTech represents a radical departure from current failure-prone packaging solutions. The project aims to elucidate the fundamental interactions between magnetism, heat and mass transfer and apply them to cooling. In partnership with SPTS Technologies, the project then aims to develop fabrication processes for integrating microchannels and highly sensitive integrated silicon carbide temperature sensors into a chip. This novel fabrication technology allows for the implementation of the revolutionary enhanced cooling concept using two-phase flow with magnetic liquid plugs.Read moreRead less