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
Homogeneous Combustion Catalysts for Efficiency Improvements and Emission Reduction in Diesel Engines. Australia currently consumes about 25 billion litres of diesel annually through the mining industry, road transportation and electricity generation for remote communities which presentins a significant cost and carbon footprint. A small reduction of say 2.5% in diesel consumption nationwide by improving engine performance and energy efficiency can result in more than $0.5 billion in savings and ....Homogeneous Combustion Catalysts for Efficiency Improvements and Emission Reduction in Diesel Engines. Australia currently consumes about 25 billion litres of diesel annually through the mining industry, road transportation and electricity generation for remote communities which presentins a significant cost and carbon footprint. A small reduction of say 2.5% in diesel consumption nationwide by improving engine performance and energy efficiency can result in more than $0.5 billion in savings and a reduction of 1.75 million tonnes in greenhouse gas emission annually. The homogeneous combustion catalysts, to be developed in this research for direct doping into diesel supply system, will help realise these objectives and contribute to the development of an environmentally sustainable Australia.Read moreRead less
Fundamental Data and Thermodynamic Modelling for Cryogenic LNG Fluids to Improve Process Design, Simulation and Operation. This research will contribute to a more environmentally sustainable Australia because it will promote the use of natural gas as a fuel supply which produces significantly fewer greenhouse gases than oil or coal. This project will improve the ability of engineers to reliably simulate LNG production plants as well as test new processes and technologies with the potential to in ....Fundamental Data and Thermodynamic Modelling for Cryogenic LNG Fluids to Improve Process Design, Simulation and Operation. This research will contribute to a more environmentally sustainable Australia because it will promote the use of natural gas as a fuel supply which produces significantly fewer greenhouse gases than oil or coal. This project will improve the ability of engineers to reliably simulate LNG production plants as well as test new processes and technologies with the potential to increase efficiency or revenue. Consequently, the level of over-engineering and, thus, the capital and operational costs of such plants will decrease. This in turn will promote the development of Australian gas reserves, particularly for those fields currently on the margins of economic viability.Read 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
Mapping new cathode materials for aqueous rechargeable batteries: The mechanism of intercalation of lithium in aqueous solutions. This technology could power electric vehicles of the future. With the aid of using advanced oxide and phosphate materials for an aqueous battery, the project will establish a widespread use of green energy for national benefit. This will help us to reduce the current emission observed in transport and energy conversion. The project will facilitate an understanding the ....Mapping new cathode materials for aqueous rechargeable batteries: The mechanism of intercalation of lithium in aqueous solutions. This technology could power electric vehicles of the future. With the aid of using advanced oxide and phosphate materials for an aqueous battery, the project will establish a widespread use of green energy for national benefit. This will help us to reduce the current emission observed in transport and energy conversion. The project will facilitate an understanding the electrochemical energy storage technology. The challenging and significant results from this project will contribute to the energy industries to build non-pollutant high energy storage equipments and productivity of Australia's research and development.Read moreRead less
Increasing the operational lifetime and optimising the design of crankcase oil-mist filters. Australia is one of the largest (per capita) users worldwide of heavy diesel engines, within sectors such as transport, mining, construction, shipping and power generation (usage of many of the above is concentrated in regional communities e.g. mining). This work will minimise emissions from such industries, as well as reduce lubricant oil usage - thereby maximising waste oil recovery and reuse (approx 5 ....Increasing the operational lifetime and optimising the design of crankcase oil-mist filters. Australia is one of the largest (per capita) users worldwide of heavy diesel engines, within sectors such as transport, mining, construction, shipping and power generation (usage of many of the above is concentrated in regional communities e.g. mining). This work will minimise emissions from such industries, as well as reduce lubricant oil usage - thereby maximising waste oil recovery and reuse (approx 5500 tonnes p.a.). Oil mists can be regarded as volatile organic compounds (VOCs) for the purposes of CO2 equivalent emissions, so therefore, the efficient capture of oil mists will reduce carbon emissions from the above industries in Australia.Read moreRead less
Special Research Initiatives - Grant ID: SR0354872
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
The ARC Cleaner Energy and Hydrogen Research Network. The importance of clean energy is well recognised, and it is important to recognise, leverage and exploit Australian needs in the context of world progress in the area. The first task of the initiative will be to identify and focus research in the knowledge of existing trends. The Network will bring together Australia's finest research groups to provide an Australian focus on cleaner energy and hydrogen research, participate in major internat ....The ARC Cleaner Energy and Hydrogen Research Network. The importance of clean energy is well recognised, and it is important to recognise, leverage and exploit Australian needs in the context of world progress in the area. The first task of the initiative will be to identify and focus research in the knowledge of existing trends. The Network will bring together Australia's finest research groups to provide an Australian focus on cleaner energy and hydrogen research, participate in major international programs, and provide a framework for relevant researchers to interact. It will develop an advisory role for Government and industry on technological options for sustainable energy development.Read moreRead less
Investigations into the Mechanisms of Reactions between Alkanes and Nitric Oxide at Low Temperatures. Energy is essential to human progress and Australia's economy is built on our energy-intense industry. In the foreseeable future, combustion of hydrocarbon fuels remains a major means of energy utilisation. The challenges are to reduce emissions and improve combustion operability. The outcomes of the present research will provide a scientific basis that enable new combustion and associated emiss ....Investigations into the Mechanisms of Reactions between Alkanes and Nitric Oxide at Low Temperatures. Energy is essential to human progress and Australia's economy is built on our energy-intense industry. In the foreseeable future, combustion of hydrocarbon fuels remains a major means of energy utilisation. The challenges are to reduce emissions and improve combustion operability. The outcomes of the present research will provide a scientific basis that enable new combustion and associated emission control technologies to be developed with potential to reduce engine knock, improve efficiency and reduce NOx emissions during the combustion of hydrocarbon fuels. This project will also offer an excellent opportunity to develop future combustion scientists and technologies through postgraduate research training.Read moreRead less
Increased liquified natural gas (LNG) production efficiency through nitrogen and carbon dioxide capture using high-pressure cryogenic adsorption onto tailored nanopore substrates. This research will contribute to a more environmentally sustainable Australia because it will promote the use of natural gas as a fuel supply which produces significantly less greenhouse gases than oil or coal. It will contribute to the harnessing of some of Australia's largest gas reserves, like the Gorgon field, whic ....Increased liquified natural gas (LNG) production efficiency through nitrogen and carbon dioxide capture using high-pressure cryogenic adsorption onto tailored nanopore substrates. This research will contribute to a more environmentally sustainable Australia because it will promote the use of natural gas as a fuel supply which produces significantly less greenhouse gases than oil or coal. It will contribute to the harnessing of some of Australia's largest gas reserves, like the Gorgon field, which are contaminated with large amounts of CO2 and are not yet economically viable. The removal of N2 from natural gas will reduce the cost of producing LNG which is the only method Australia can use to access global gas markets. The new adsorbent materials developed for this work may enhance other research programmes attempting to capture and sequester CO2 from industrial flue gases.Read moreRead less