Sustainable Technology for Removal of Trace Contaminants in Rural Water Supplies. Provision of safe drinking water treatment using sustainable technology which can be applied in rural locations and emergency situations is the main aim of this project. A hybrid membrane process will be combined with solar energy for the removal of pathogens and trace pollutants such as uranium, fluoride, arsenic, boron and nitrates. The technology will be designed for remote community situations and hence be robu ....Sustainable Technology for Removal of Trace Contaminants in Rural Water Supplies. Provision of safe drinking water treatment using sustainable technology which can be applied in rural locations and emergency situations is the main aim of this project. A hybrid membrane process will be combined with solar energy for the removal of pathogens and trace pollutants such as uranium, fluoride, arsenic, boron and nitrates. The technology will be designed for remote community situations and hence be robust and low in maintenance. Using solar energy is a challenge for trace contaminant removal as the operating conditions vary with the power fluctuations, which presents a substantially different situation to grid power connection.Read moreRead less
Sequestration of CO2 with enhanced methane recovery from deep coal. Coal and gas represent the main energy source for the Australian and many other national economies into the foreseeable future. The continuing use of these critical resources requires that greenhouse gas emission issues be addressed. Any serious attempt to achieve reduced emission of CO2 from power generation requires sequestration as a necessary element. A plausible method for cost effective sequestration of large amounts of ....Sequestration of CO2 with enhanced methane recovery from deep coal. Coal and gas represent the main energy source for the Australian and many other national economies into the foreseeable future. The continuing use of these critical resources requires that greenhouse gas emission issues be addressed. Any serious attempt to achieve reduced emission of CO2 from power generation requires sequestration as a necessary element. A plausible method for cost effective sequestration of large amounts of CO2 is by geological fixing in deep, unminable coal. The key technological and scientific issues regarding capacity, rate, technical viability and site selection form the basis of this proposal.Read moreRead less
CONTROL AND INTERFACING OF GRID-CONNECTED IGBT INVERTERS FOR SMALL-SCALE WIND GENERATORS. The project aims to investigate methods for extracting and converting intermittent energy from variable speed wind generators and supplying to electricity grids. Low cost power conditioning units for integrating small-scale wind generators will be designed, developed and commercialised. It is expected that this project will lead to a systematic design procedure for grid connected inverter technology using ....CONTROL AND INTERFACING OF GRID-CONNECTED IGBT INVERTERS FOR SMALL-SCALE WIND GENERATORS. The project aims to investigate methods for extracting and converting intermittent energy from variable speed wind generators and supplying to electricity grids. Low cost power conditioning units for integrating small-scale wind generators will be designed, developed and commercialised. It is expected that this project will lead to a systematic design procedure for grid connected inverter technology using a novel current control technique, and extraction of more energy from small scale wind turbines especially at low wind speeds. Successful commercialisation will result in significant reduction in cost resulting wider application of wind turbines, substantial economic benefit to the commercial partners as well as Australian communities in rural areas.Read moreRead less
A new abrasive waterjet milling technology and process models for fabricating energy-efficient electrical machines from amorphous magnetic metal laminations. As the most energy-efficient core material for electrical machines, amorphous magnetic metal (AMM) can save more than 36% of the energy wasted by ordinary electrical motors. Since electrical motors consume about 70% of all the electricity generated, if all electrical motors in Australia use AMM as the core material, an annual energy saving ....A new abrasive waterjet milling technology and process models for fabricating energy-efficient electrical machines from amorphous magnetic metal laminations. As the most energy-efficient core material for electrical machines, amorphous magnetic metal (AMM) can save more than 36% of the energy wasted by ordinary electrical motors. Since electrical motors consume about 70% of all the electricity generated, if all electrical motors in Australia use AMM as the core material, an annual energy saving worth approximately $4 billion and an annual reduction of 16 million tonnes of greenhouse gas emission in Australia are expected based on the predicted electricity consumption in 2010. This project will develop a new technology for fabricating larger electrical machines from AMM laminations. It targets the national research priorities in Frontier Technologies and An Environmentally Sustainable Australia.Read moreRead less
Packed bed reactor for continuous biodiesel production process. One of the few oppoutunities for significant substitution of liquid fossil fuels by renewable energy resources is through biodiesel. This project seeks to develop a continuous process for biodiesel production from beef tallow, including feed preparation, reaction and the separation processes of the product exiting the reator. A key reqirement is to develop a heterogeneous catalyst for the chemical conversion, enabling the use of a p ....Packed bed reactor for continuous biodiesel production process. One of the few oppoutunities for significant substitution of liquid fossil fuels by renewable energy resources is through biodiesel. This project seeks to develop a continuous process for biodiesel production from beef tallow, including feed preparation, reaction and the separation processes of the product exiting the reator. A key reqirement is to develop a heterogeneous catalyst for the chemical conversion, enabling the use of a packed bed reactor for the conversion step. The process offers the potential to use poor quality and wet feed materials with much higher efficency and product quality than existing processesRead moreRead less
Variable speed diesel power conversion system using a doubly fed induction generator. The proposed Variable Speed Diesel Generator to be developed as part of this project will use less fuel and run cleaner with reduced wear than conventional generators. The widespread use of this technology in remote area diesel and hybrid power systems with renewable energy sources will result in a reduction of greenhouse gas emissions. The project will result in enhanced national and international market oppor ....Variable speed diesel power conversion system using a doubly fed induction generator. The proposed Variable Speed Diesel Generator to be developed as part of this project will use less fuel and run cleaner with reduced wear than conventional generators. The widespread use of this technology in remote area diesel and hybrid power systems with renewable energy sources will result in a reduction of greenhouse gas emissions. The project will result in enhanced national and international market opportunities for Australian made power generation equipment for rural electrification. This project will enable Australian companies to be on the leading edge of mini to medium size stand-alone mini grid diesel power stations. This will have a significant impact on the economic development and on job creation in AustraliaRead moreRead less
MULTI-FUNCTION POWER ELECTRONIC INTERFACE FOR HYBRID MINI-GRID SYSTEMS. Village electrification represents a high potential market for hybrid power systems. Many stand-alone diesel units are powering mini-grids all around the world and could be retrofitted with renewable power generators and battery storage units. Power electronics, the technology of efficiently processing electric power, plays an essential part in the integration of renewable energy sources such as solar, wind and micro-hydro a ....MULTI-FUNCTION POWER ELECTRONIC INTERFACE FOR HYBRID MINI-GRID SYSTEMS. Village electrification represents a high potential market for hybrid power systems. Many stand-alone diesel units are powering mini-grids all around the world and could be retrofitted with renewable power generators and battery storage units. Power electronics, the technology of efficiently processing electric power, plays an essential part in the integration of renewable energy sources such as solar, wind and micro-hydro at the electricity distribution level. The objective of this project will be to develop a new generation of core power electronics technology(patent pending)for single phase and medium scale three phase grid-interactive and standalone/hybrid renewable energy applications.Read moreRead less
Large-scale rechargeable lithium battery for power storage and electric vehicle applications. This project aims to develop large-scale rechargeable lithium batteries for power storage and electric vehicles. In order to achieve this target, the related cathode materials, anode materials and electrolyte systems will be developed. The design of battery modules and assembly of prototype lithium ion batteries will be performed. The success of the research will encourage the production of electrode ma ....Large-scale rechargeable lithium battery for power storage and electric vehicle applications. This project aims to develop large-scale rechargeable lithium batteries for power storage and electric vehicles. In order to achieve this target, the related cathode materials, anode materials and electrolyte systems will be developed. The design of battery modules and assembly of prototype lithium ion batteries will be performed. The success of the research will encourage the production of electrode materials and manufacture of rechargeable lithium batteries in Australia. The utilisation of advanced rechargeable lithium batteries in electric vehicles will provide sustainable energy for transportation and greatly reduce green-house emissions in Australian urban areas.Read moreRead less
Next generation, very high efficiency thin silicon cells. A new type of thin silicon solar cell, with an efficiency potential of 21% or greater, is to be developed and characterized.
These cells should be cheaper, and have better efficiency, power to weight ratio and radiation tolerance than existing commercial silicon solar cells opening interesting possible applications. Novel solar cell designs and associated interconnection and encapsulation schemes for the cells suitable for space and hi ....Next generation, very high efficiency thin silicon cells. A new type of thin silicon solar cell, with an efficiency potential of 21% or greater, is to be developed and characterized.
These cells should be cheaper, and have better efficiency, power to weight ratio and radiation tolerance than existing commercial silicon solar cells opening interesting possible applications. Novel solar cell designs and associated interconnection and encapsulation schemes for the cells suitable for space and high altitude aircraft applications superior to existing technologies are expected to be developed. This should lead to a new, internationally competitive Australian industry.
Read moreRead less
Modelling of Nitric Oxides and Carbon Monoxide Emissions from Bagasse-Fires Boilers. The project aims to develop computational models to predict emissions of nitric oxides and carbon monoxide from sugar-mill boilers burning bagasse. Bagasse combustion does not contribute to greenhouse gas emissions and clean and efficient combustion of this fuel has become very important for the sugar industry and for Australia. The project combines the opportunity of direct boiler measurements by SRI with the m ....Modelling of Nitric Oxides and Carbon Monoxide Emissions from Bagasse-Fires Boilers. The project aims to develop computational models to predict emissions of nitric oxides and carbon monoxide from sugar-mill boilers burning bagasse. Bagasse combustion does not contribute to greenhouse gas emissions and clean and efficient combustion of this fuel has become very important for the sugar industry and for Australia. The project combines the opportunity of direct boiler measurements by SRI with the modelling expertise at the University to develop combustion-kinetics models for these species. The models will be incorporated into the previously developed computational fluid dynamics - combustion code of the furnace to give the capability of emission prediction as a function of burner operating conditions and fuel parameters.Read moreRead less