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
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100128
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
High performance analytical tools to strengthen clean energy research. High performance analytical tools are vital to the success of emerging research fields of national priority. By filling a gap in materials routine characterisation capabilities, the equipment requested will lead to major advances in fundamental and applied research aimed at carbon abatement and clean energy technologies. This includes technologies for clean energy generation by solar means and from decarbonised fossil fuels, ....High performance analytical tools to strengthen clean energy research. High performance analytical tools are vital to the success of emerging research fields of national priority. By filling a gap in materials routine characterisation capabilities, the equipment requested will lead to major advances in fundamental and applied research aimed at carbon abatement and clean energy technologies. This includes technologies for clean energy generation by solar means and from decarbonised fossil fuels, efficient energy storage systems, advanced fuel cells for electricity generation, and hydrogen as the universal energy vector. Advancement of these technologies will bring solutions to the grand challenges facing Australia and in turn benefit industry and society.
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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882833
Funder
Australian Research Council
Funding Amount
$120,000.00
Summary
Advanced infrared imaging facility for micro to macro systems. This state-of-the-art infrared imaging equipment will provide significant benefits towards research and development in a wide variety of important areas such as: green house gas reduction through efficient and clean energy production and usage, using solar thermal and solar photovoltaic energy; understanding fire propagation in buildings, and efficiently growing stem cells. This equipment will help maintain Australia's position as a ....Advanced infrared imaging facility for micro to macro systems. This state-of-the-art infrared imaging equipment will provide significant benefits towards research and development in a wide variety of important areas such as: green house gas reduction through efficient and clean energy production and usage, using solar thermal and solar photovoltaic energy; understanding fire propagation in buildings, and efficiently growing stem cells. This equipment will help maintain Australia's position as a leader in these fields, and thus attract international customers to research and development services in rapidly growing markets such as alternative/renewable energy and biotechnology.Read moreRead less
Development of High Frequency and High Power Density Magnetics and its Integrated Magnetic Circuit for Solar Renewable Energy Conversion Systems. The proposed project will result in theoretical and practical contributions to the field of high frequency (HF) magnetics and computational electromagnetics based computer modelling technologies for the power converter used in solar PV systems and high power density converters. The project will provide industry with several novel HF magnetic structures ....Development of High Frequency and High Power Density Magnetics and its Integrated Magnetic Circuit for Solar Renewable Energy Conversion Systems. The proposed project will result in theoretical and practical contributions to the field of high frequency (HF) magnetics and computational electromagnetics based computer modelling technologies for the power converter used in solar PV systems and high power density converters. The project will provide industry with several novel HF magnetic structures and the associated design methodology, and an innovative technology to industry and society with following major benefits: a) increased productivity and minimization of product risk, b) faster project management cycles through the use of cost-effective new design methodology, and c) an improved problem solving environment for scientific research and commercial applications.Read moreRead less