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
Vegetable Oils as Dielectric Liquid for Oil Filled Distribution and Power Transformers. A new transformer cooling and insulating liquid is proposed from vegetable oil seeds available in Australia. The proposed liquid will be fully biodegradable and non-toxic and will cause no harm in the event of explosions or accidental leakage from a transformer. Approximately, 30 to 40 billion liters of oils are in use in transformers worldwide. The development of this liquid requires selection of suitable ve ....Vegetable Oils as Dielectric Liquid for Oil Filled Distribution and Power Transformers. A new transformer cooling and insulating liquid is proposed from vegetable oil seeds available in Australia. The proposed liquid will be fully biodegradable and non-toxic and will cause no harm in the event of explosions or accidental leakage from a transformer. Approximately, 30 to 40 billion liters of oils are in use in transformers worldwide. The development of this liquid requires selection of suitable vegetable oil base;thermal and oxidation stabilization; electrical performance,biodegradability,and endurance testings, viscosity and pour point improvements, compatibility tests with existing oils, and characterization of its gassing phenomena. The development of this new liquid from local oil seeds will provide the Australian industry huge export potentials. The prject will also provide Australian farmers a new avenue for their oilseed market.Read moreRead less
A Novel Inline High-Efficiency Motor/Pump System. Around 19% of the world’s and 30% of the Australia’s electric energy is consumed by pump technologies. Significant energy savings are possible if the major components of pump systems, including inverter, motor and pump, operate at their maximum possible efficiency under varying loads. A novel pump design in this project accommodates integrated electronics in a submersible housing. A seal-less design helps mitigate several aspects of pump failure ....A Novel Inline High-Efficiency Motor/Pump System. Around 19% of the world’s and 30% of the Australia’s electric energy is consumed by pump technologies. Significant energy savings are possible if the major components of pump systems, including inverter, motor and pump, operate at their maximum possible efficiency under varying loads. A novel pump design in this project accommodates integrated electronics in a submersible housing. A seal-less design helps mitigate several aspects of pump failure and its in-line structure reduces assembly cost. Accurately measured efficiency maps will be utilised to demonstrate the non-linear relationship between motor and pump quantities as well as developing models for indirectly estimating feedback quantities and achieving the highest system efficiency.Read moreRead less
Collision Avoidance in Shipping Lanes via Intelligent Sensor Data Fusion . This project aims to develop an online maritime traffic monitoring system for reliable collision/contact avoidance that exploits complementary data from high-resolution airborne sensors and surface vessel sensors. Our approach is based on optimal scheduling and fusion of the sensor data and possibly other sources of data to construct a comprehensive dynamic picture of maritime traffic, in real-time. Moreover, the proposed ....Collision Avoidance in Shipping Lanes via Intelligent Sensor Data Fusion . This project aims to develop an online maritime traffic monitoring system for reliable collision/contact avoidance that exploits complementary data from high-resolution airborne sensors and surface vessel sensors. Our approach is based on optimal scheduling and fusion of the sensor data and possibly other sources of data to construct a comprehensive dynamic picture of maritime traffic, in real-time. Moreover, the proposed methodology enables quantification of confidence in the predictions. This will provide ship owners, directly to their vessels and/or at the fleet management centres, information such as weather reports, reliable collision/no-collision warnings and avoidance strategies, on-the-fly. Read 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
Bushfire safety improvements for rural electricity networks using hybrid fault detection incorporating distributed observations of travelling waves. Electrical faults in distribution networks can result in catastrophic bush fires. The existing fault detection methods are known to be incapable of detecting many faults. This project will develop improved protection methods that detect travelling waves produced by dangerous faults such as fallen lines and vegetation contacts.
A HYBRID INTEGRATED SYSTEM FOR MUNICIPAL SOLID WASTE TREATMENT AND POWER GENERATION. The management of solid wastes is a major global environmental issue and the current practice of landfilling is not a sustainable solution. Biogasification of the organic fraction provides not only a means of waste treatment but also generates a source of energy in the form methane but current technologies are expensive due to the long degradation times. In this project we investigate an innovative waste tr ....A HYBRID INTEGRATED SYSTEM FOR MUNICIPAL SOLID WASTE TREATMENT AND POWER GENERATION. The management of solid wastes is a major global environmental issue and the current practice of landfilling is not a sustainable solution. Biogasification of the organic fraction provides not only a means of waste treatment but also generates a source of energy in the form methane but current technologies are expensive due to the long degradation times. In this project we investigate an innovative waste treatment system that will cut down the time required for processing wastes by a factor of 10 with considerable economic benefit. We will optimise the integration of this treatment system with a hybrid power generation system that utilises other renewable energy sources like solar and wind energy to deliver quality power at minimal cost.Read moreRead less
Development of a pre-production prototype for a laser-based plant sensing weed control system. Australian farmers spend over $800 million per annum on herbicides. The proposed technology can reduce herbicide usage by 80 per cent (i.e. over $640 million per annum saving) and improve crop yields by 30 per cent. Precision application of herbicides, fertilisers and nutrients to weeds and crops has both economic and environmental benefits which will increase farm profits and boost Australia's export ....Development of a pre-production prototype for a laser-based plant sensing weed control system. Australian farmers spend over $800 million per annum on herbicides. The proposed technology can reduce herbicide usage by 80 per cent (i.e. over $640 million per annum saving) and improve crop yields by 30 per cent. Precision application of herbicides, fertilisers and nutrients to weeds and crops has both economic and environmental benefits which will increase farm profits and boost Australia's export sales. Reduced chemical loads on ecosystems will benefit the environment and reduced chemicals in the food chain will benefit the health of Australians. This development will put Australia at the cutting edge of precision spray technology and has numerous spin-off applications in many sectors.Read moreRead less
Real-time plant discrimination and weed detection platform. The aim of this project is to develop an advanced, robust, commercially ready, laser-based green-from-green plant discrimination and weed detection sensor, capable of identifying different plants and weeds in the field, and allowing precise herbicide spraying of targeted weeds all in the same pass. Through the incorporation of novel multi-band sensors and the development of adaptable, configurable lasers, this first-of-its-kind system i ....Real-time plant discrimination and weed detection platform. The aim of this project is to develop an advanced, robust, commercially ready, laser-based green-from-green plant discrimination and weed detection sensor, capable of identifying different plants and weeds in the field, and allowing precise herbicide spraying of targeted weeds all in the same pass. Through the incorporation of novel multi-band sensors and the development of adaptable, configurable lasers, this first-of-its-kind system intends to see a dramatic improvement over current approaches to weed targeting. The outcome of the project aims to achieve optimised weed control, resulting in increased crop yields, reduced environmental impacts, decreased risk of herbicide resistance and substantial cost-savings.Read moreRead less