An Innovative Powertrain Architecture and Optimal Energy Management for Plug-in Hybrid Electric Vehicles. Plug-in hybrid electric vehicle technologies will significantly reduce the dependence of vehicles on fossil fuels, thereby reducing their emissions of carbon and other pollutants. The project will produce new knowledge in automotive engineering, software tools for vehicle design and a novel powertrain architecture with key components almost ready for commercial application. The research will ....An Innovative Powertrain Architecture and Optimal Energy Management for Plug-in Hybrid Electric Vehicles. Plug-in hybrid electric vehicle technologies will significantly reduce the dependence of vehicles on fossil fuels, thereby reducing their emissions of carbon and other pollutants. The project will produce new knowledge in automotive engineering, software tools for vehicle design and a novel powertrain architecture with key components almost ready for commercial application. The research will directly contribute to the use of green energy and the reduction of vehicles' harmful environmental impacts. The nation will benefit from new economic activity, such as increased exports of automotive parts and components, and from strengthening its position as a world leader in reducing carbon emissions.Read moreRead less
An Integrated Starter Alternator for Automobiles using a New Wide Speed Range Interior Permanent Magnet Motor and a Matrix Z-Source Converter. The projected growth of power demand and efficiency of future automobiles calls for a suitable integrated starter-alternator (ISA) to be developed. While interim solutions have been offered, a true ISA is still considered to be more than five years away. Considering the huge worldwide market, an ISA developed in Australia is expected to benefit the large ....An Integrated Starter Alternator for Automobiles using a New Wide Speed Range Interior Permanent Magnet Motor and a Matrix Z-Source Converter. The projected growth of power demand and efficiency of future automobiles calls for a suitable integrated starter-alternator (ISA) to be developed. While interim solutions have been offered, a true ISA is still considered to be more than five years away. Considering the huge worldwide market, an ISA developed in Australia is expected to benefit the large Australian automobile industry significantly. The CIs has strong links with local developers and suppliers of power semiconductors and motors, who have participated in the recent developments already carried out. A proven ISA developed locally should be a boon for these industries.Read moreRead less
Development of a gas-diesel engine injection system using a hydraulically actuated, electronically controlled unit injector (HEUI) for flexible dual-fuel operation. Achieving targets for greenhouse gas reduction will require practical, easily implemented alternative fuels for vehicles. Converting existing truck/bus diesel engines to dual-fuel systems using natural gas is important. In particular, for long distance application, these systems need to allow flexible switching from sole diesel to du ....Development of a gas-diesel engine injection system using a hydraulically actuated, electronically controlled unit injector (HEUI) for flexible dual-fuel operation. Achieving targets for greenhouse gas reduction will require practical, easily implemented alternative fuels for vehicles. Converting existing truck/bus diesel engines to dual-fuel systems using natural gas is important. In particular, for long distance application, these systems need to allow flexible switching from sole diesel to dual-fuel operation and good gas substitution at low loads within cities. An earlier ARC funded project allowed UNSW to develop the world's most compact, flexible HEUI diesel injector. This project aims to develop, test and explore dual-fuel combustion using a compact single unit, combined NG/HEUI injector which will have considerable combustion and operational advantages.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE170100134
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
Electrifying commercial vehicles in Australia. This project aims to develop alternative hybrid electric and pure electric vehicle technologies for the Australian commercial vehicle sector. Worldwide concern about greenhouse gases and stringent vehicle fuel consumption have changed vehicle driveline systems, and created demand for hybrid and electric automotive technologies. This project will examine different powertrain configurations for commercial vehicles, and use numerical simulations to eva ....Electrifying commercial vehicles in Australia. This project aims to develop alternative hybrid electric and pure electric vehicle technologies for the Australian commercial vehicle sector. Worldwide concern about greenhouse gases and stringent vehicle fuel consumption have changed vehicle driveline systems, and created demand for hybrid and electric automotive technologies. This project will examine different powertrain configurations for commercial vehicles, and use numerical simulations to evaluate vehicle fuel economy, life cycle emissions and life cycle costs and demonstrate the benefits of these alternatives. These vehicle technologies have the potential to reduce fuel in this sector by up to 50%, and reduce vehicle emissions and operational costs across the commercial transportation sector.Read moreRead less
In-cylinder soot sampling and morphology analysis in an optically-accessible diesel engine. Black soot emissions from diesel engines are associated with respiratory illness, cancer, and heart attacks. This project aims to reduce diesel soot emissions by clarifying the nature of the structure and size of soot particles that are sampled from both the engine cylinder and the tailpipe.