Optimisation of Dual Fuel Compression Ignition (Diesel) Engines With Respect to Engine Performance and Pollutant Emissions. A successful dual-fuel compression ignition (diesel) engine technology utilizing renewable alcohol fuels will provide a commercially attractive, immediate solution to the global fuel challenges of security and cost of oil supply, greenhouse gas emissions, and air quality . This project provides both the rigorous laboratory and field testing required to develop, test, optim ....Optimisation of Dual Fuel Compression Ignition (Diesel) Engines With Respect to Engine Performance and Pollutant Emissions. A successful dual-fuel compression ignition (diesel) engine technology utilizing renewable alcohol fuels will provide a commercially attractive, immediate solution to the global fuel challenges of security and cost of oil supply, greenhouse gas emissions, and air quality . This project provides both the rigorous laboratory and field testing required to develop, test, optimize and validate both engine performance and pollution emissions. This ethanol dual fuel approach has the potential to reduce Australia's dependence on imported fuels, support the development of regional agriculture and employment through the expansion of the biofuels industry and enhance the environmental performance of transport and stationary engines.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347553
Funder
Australian Research Council
Funding Amount
$175,000.00
Summary
Smart Equipment for Remote Monitoring of Isolated and Mobile Infrastructure. The partners' research involves the collection and assessment of data to determine the condition, maintenance strategies and risk of failure of plant in diverse areas such as transport, cargo and packaging, mining and power. Recent advances in data processing, computing and telemetry mean that it is now possible to actually install small and rugged data acquisition equipment on remote infrastructure or mobile plant. T ....Smart Equipment for Remote Monitoring of Isolated and Mobile Infrastructure. The partners' research involves the collection and assessment of data to determine the condition, maintenance strategies and risk of failure of plant in diverse areas such as transport, cargo and packaging, mining and power. Recent advances in data processing, computing and telemetry mean that it is now possible to actually install small and rugged data acquisition equipment on remote infrastructure or mobile plant. This equipment can acquire, condition and process the signals and use wireless telemetry to transmit the data for remote assessment. The proposed infrastructure will enable the partners' research to be extended to these challenging applications.Read moreRead less
Dynamic Modelling and Gear Shift Simulation of Powertrains with Dual Clutch Transmissions. The project will make a significant contribution to the development and commercialisation of dual clutch transmissions, which represent a breakthrough vehicle transmission technology. The acquired knowledge and advanced simulation tools will enable engineers to design superior vehicles with improved fuel efficiency and performance. The project will hence benefit the nation and community, resulting in:
1) ....Dynamic Modelling and Gear Shift Simulation of Powertrains with Dual Clutch Transmissions. The project will make a significant contribution to the development and commercialisation of dual clutch transmissions, which represent a breakthrough vehicle transmission technology. The acquired knowledge and advanced simulation tools will enable engineers to design superior vehicles with improved fuel efficiency and performance. The project will hence benefit the nation and community, resulting in:
1) powertrains with improved fuel efficiency, drivability and gear shift quality at the lowest production cost;
2) increased employment in the automotive sector benefiting from leading the world in applying the frontier technology to vehicles;
3) increased knowledge base on complex dynamic systems, well trained researchers and engineers.
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Fluid physics of cold gas-dynamic spray process. Cold gas-dynamic spray has the potential to revitalize and revolutionize the Australian manufacturing sector and economy. It is a technologically advanced flexible free-forming process with potential applications in the aviation, automotive, naval and bio-medical sectors. It allows for the design of functional surfaces from the nano-scale to the macro-scale that can be manufactured by spraying material coatings of arbitrary thickness and density o ....Fluid physics of cold gas-dynamic spray process. Cold gas-dynamic spray has the potential to revitalize and revolutionize the Australian manufacturing sector and economy. It is a technologically advanced flexible free-forming process with potential applications in the aviation, automotive, naval and bio-medical sectors. It allows for the design of functional surfaces from the nano-scale to the macro-scale that can be manufactured by spraying material coatings of arbitrary thickness and density on a substrate. The process of the spray particle delivery is crucial and not understood. This research will investigate the fluid physics and spray particle physics to gain the essential understanding necessary to make this process energy efficient and extend its range of application.Read moreRead less
Quantitative analysis of dynamic performance of vehicles with uncertain system parameters and road inputs. Ride comfort, road holding and stability of on-road vehicles are not only important quality indicators but major public health and safety issues. To accurately predict and prevent unsafe motions of a vehicle under all circumstances is still a major technological challenge. The research, which aims to develop a novel design theory, presents a significant step forward in tackling the challeng ....Quantitative analysis of dynamic performance of vehicles with uncertain system parameters and road inputs. Ride comfort, road holding and stability of on-road vehicles are not only important quality indicators but major public health and safety issues. To accurately predict and prevent unsafe motions of a vehicle under all circumstances is still a major technological challenge. The research, which aims to develop a novel design theory, presents a significant step forward in tackling the challenge in the quantitative performance analysis of vehicles with various uncertainties. The acquired knowledge will assist engineers in developing safer vehicles and also benefit the aeronautical, military and other transportation industries. The wider community would benefit by potentially reduced death rates and fatal injuries caused by car crashes.Read moreRead less
Demand Dependent Active Suspensions for Preventing Vehicle Rollover. Rollover crashes are a major public safety issue in Australia. Reliable and low cost anti-roll technology and the availability of required design methodology and simulation tools will greatly assist the automotive industry in improving vehicle safety and consequently enhance its competitiveness in the global marketplace. The knowledge acquired from this project would provide an essential theoretical basis for commercialising th ....Demand Dependent Active Suspensions for Preventing Vehicle Rollover. Rollover crashes are a major public safety issue in Australia. Reliable and low cost anti-roll technology and the availability of required design methodology and simulation tools will greatly assist the automotive industry in improving vehicle safety and consequently enhance its competitiveness in the global marketplace. The knowledge acquired from this project would provide an essential theoretical basis for commercialising the proposed suspensions and enhance the exports of Australian car component manufacturers. It would also benefit aeronautical, military and other industries. The wide community would benefit by potentially reduced death rates and fatal injuries caused by rollover crashes, and through increased employment in industry.Read moreRead less
A Microstructure Based Approach to Steel Design for Improved Crash Performance. There is a continual need for the automotive industry to develop vehicles with increased fuel efficiency and safety. This research will establish how different types of new advanced steels can contribute to improved crash worthiness, while also helping to increase fuel efficiency through lighter weight. This will lead to the development of new steels that offer even better crash performance while also providing more ....A Microstructure Based Approach to Steel Design for Improved Crash Performance. There is a continual need for the automotive industry to develop vehicles with increased fuel efficiency and safety. This research will establish how different types of new advanced steels can contribute to improved crash worthiness, while also helping to increase fuel efficiency through lighter weight. This will lead to the development of new steels that offer even better crash performance while also providing more realistic computer models for car designers.Read moreRead less
Developing Light Weight Automotive Structures. In Australia, most automotive companies are now considering advanced high strength, formable steels for weight reduction. These steels are extremely complex with little published research in key areas of their application. The objective is to develop a detailed understanding of the forming and post forming properties of a range of these steels and from this to design and produce new lighter weight automotive structures. This work will include improv ....Developing Light Weight Automotive Structures. In Australia, most automotive companies are now considering advanced high strength, formable steels for weight reduction. These steels are extremely complex with little published research in key areas of their application. The objective is to develop a detailed understanding of the forming and post forming properties of a range of these steels and from this to design and produce new lighter weight automotive structures. This work will include improved finite element models to predict the shape as well as a detailed understanding of how to manufacture components from these steels at high production rates and the mechanical properties after manufacturing.
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Cyclic Fatigue Mechanisms in New Lead-Free Piezoelectric Ceramics. Piezoceramics are an important component in many items in modern day Australian life. However, they present a growing environmental concern, particularly for disposal, because they contain lead oxide and must often be disposed of prematurely due to component failure. Furthermore, many key Australian industries manufacture and use piezoceramics in fields ranging from mineral exploration, to imaging to biomedical devices. This proj ....Cyclic Fatigue Mechanisms in New Lead-Free Piezoelectric Ceramics. Piezoceramics are an important component in many items in modern day Australian life. However, they present a growing environmental concern, particularly for disposal, because they contain lead oxide and must often be disposed of prematurely due to component failure. Furthermore, many key Australian industries manufacture and use piezoceramics in fields ranging from mineral exploration, to imaging to biomedical devices. This project will enable the development of lead-free alternatives to current materials and more reliable materials which will reduce the need for waste disposal.Read moreRead less
Dynamic Characteristics of Kinetic Suspension Systems for Vehicle Applications. Suspension systems play a key role in vehicle dynamics and, in addition to providing ride comfort, can prevent or minimise fatal collisions by enhancing vehicle stability. This project aims to advance the theory and design of the kinetic suspension systems (KSS), which break the compromise between ride comfort and vehicle handling inherent in most existing systems. Industry Partner, Kinetic, has invented many novel K ....Dynamic Characteristics of Kinetic Suspension Systems for Vehicle Applications. Suspension systems play a key role in vehicle dynamics and, in addition to providing ride comfort, can prevent or minimise fatal collisions by enhancing vehicle stability. This project aims to advance the theory and design of the kinetic suspension systems (KSS), which break the compromise between ride comfort and vehicle handling inherent in most existing systems. Industry Partner, Kinetic, has invented many novel KSS and currently leads the world in the R&D of KSS technology. The gained ability in reliable analysis and virtual experimentation on the systems prior to prototyping and on-road tests enables the industry to rapidly commercialise the cutting-edge, safety-critical technology, thus bringing great benefits to society.Read moreRead less