Predictive cost and maintenance models for bidding and short term scheduling strategies in hydro power plants. The aim of this project is to develop knowledge based models that can be used to estimate the costs implicit in operating hydro-electric power generation systems in intermittent and off-design modes. These costs manifest in increased maintenance, loss of water supply and opportunity costs or values. A model of the Tasmanian system would be unique, and the application of knowledge based ....Predictive cost and maintenance models for bidding and short term scheduling strategies in hydro power plants. The aim of this project is to develop knowledge based models that can be used to estimate the costs implicit in operating hydro-electric power generation systems in intermittent and off-design modes. These costs manifest in increased maintenance, loss of water supply and opportunity costs or values. A model of the Tasmanian system would be unique, and the application of knowledge based systems to cost and decision making in this situation is novel. Opportunities exist to collaborate with Norwegian researchers. The success of the project will lead to better utilization of the Tasmanian renewable energy resource.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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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
Using 3D printing technology to develop architecturally-controlled synthetic bone substitutes. With the ageing population, there is increasing demand for synthetic materials that can regenerate bone. However, purely synthetic bone-substitute biomaterials cannot regenerate large bone defects in weight-bearing conditions due to their fragility. This project aims to develop a customisable, biodegradable, biocompatible and mechanically strong and tough scaffold that overcomes this long-standing prob ....Using 3D printing technology to develop architecturally-controlled synthetic bone substitutes. With the ageing population, there is increasing demand for synthetic materials that can regenerate bone. However, purely synthetic bone-substitute biomaterials cannot regenerate large bone defects in weight-bearing conditions due to their fragility. This project aims to develop a customisable, biodegradable, biocompatible and mechanically strong and tough scaffold that overcomes this long-standing problem. The project aims to achieve this by applying an innovative combination of cutting-edge 3D printing technology, advanced computational modelling and design techniques to produce a next-generation bioceramic scaffold with optimised architecture. This approach aims also to enable the possibility of producing custom-made implants for individual requirements.Read moreRead less
Advancing the Thermal Insulation Performance of Australian Roofing Systems. To reduce the environmental impact of houses, state governments have mandated performance requirements on the energy efficiency of buildings. This research will develop advanced design techniques for the application of insulation in buildings, improving their performance. This will increase the effficiency of new buildings reducing Australia's greenhouse gas emissions. Furthermore, the peak power demand from residenti ....Advancing the Thermal Insulation Performance of Australian Roofing Systems. To reduce the environmental impact of houses, state governments have mandated performance requirements on the energy efficiency of buildings. This research will develop advanced design techniques for the application of insulation in buildings, improving their performance. This will increase the effficiency of new buildings reducing Australia's greenhouse gas emissions. Furthermore, the peak power demand from residential buildings will reduce, decreasing the need to upgrade our electrical infrastructure. The research will enable more cost effective insulation solutions to be developed in the building industry and increase employment in the insulation industry.Read moreRead less
Surface Integrity Characterization of Sapphire Wafers for Wireless and Fibre Optic Semiconductor Industry. This project aims to uncover the mechanism of surface integrity in sapphire wafers and thus to establish its relationship with the quality processing of integrated circuits. The project will comprehensively consider surface damage, residual stresses, thermal shock and dislocation evolution as an organic whole to provide an effective solution to the problems in the current production practic ....Surface Integrity Characterization of Sapphire Wafers for Wireless and Fibre Optic Semiconductor Industry. This project aims to uncover the mechanism of surface integrity in sapphire wafers and thus to establish its relationship with the quality processing of integrated circuits. The project will comprehensively consider surface damage, residual stresses, thermal shock and dislocation evolution as an organic whole to provide an effective solution to the problems in the current production practice. Problems caused by unsatisfactory surface integrity represent a major outlay for the wireless and fibre optic semiconductor industry. The proposed research holds the very real possibility of reducing the capital cost and enhancing the quality of the integrated circuits of high capacity.Read moreRead less
Condition Monitoring of Aircraft Propulsion for Automated Diagnostics. The integrity of the steering system is crucial for the safe operation of autonomous vehicles. This project aims at developing a new condition monitoring system able to diagnose steering faults earlier, provide a root-cause-analysis of malfunctions, and estimate associated failure risks in the future. The outcomes of this project will be a better understanding of steering faults and their effect on autonomous driving, timely ....Condition Monitoring of Aircraft Propulsion for Automated Diagnostics. The integrity of the steering system is crucial for the safe operation of autonomous vehicles. This project aims at developing a new condition monitoring system able to diagnose steering faults earlier, provide a root-cause-analysis of malfunctions, and estimate associated failure risks in the future. The outcomes of this project will be a better understanding of steering faults and their effect on autonomous driving, timely diagnostics and prognostics and innovative proactive control measures that mitigate their impact on autonomous driving quality and safety. The expected benefits for the automotive industry and end-users include increased safety and reliability of steering systems, and higher confidence in autonomous driving.Read moreRead less
A new biomechanical model for understanding aging of stored Red Blood Cells. This project plans to develop a novel modelling framework to accurately represent the biomechanical properties of red blood cells (RBCs) over time under stored conditions. Stored RBCs suffer ageing-related deformability changes which impede RBC functions. The framework aims to integrate models for RBC membrane, inside haemoglobin and outside storage solution, and accounts for ageing effects by embedding time-dependent c ....A new biomechanical model for understanding aging of stored Red Blood Cells. This project plans to develop a novel modelling framework to accurately represent the biomechanical properties of red blood cells (RBCs) over time under stored conditions. Stored RBCs suffer ageing-related deformability changes which impede RBC functions. The framework aims to integrate models for RBC membrane, inside haemoglobin and outside storage solution, and accounts for ageing effects by embedding time-dependent correlations. It should provide new insights and understanding of the mechanisms of deformability changes of RBCs during stored lifespan. Therefore, it should significantly improve blood storage industry practices in terms of improving RBC storage protocols with preventative ageing strategies.Read moreRead less
Task-centric Synthesis for Wearable Assistive Robots. Wearable Assistive Robots, designed to be worn on the human body, show tremendous potentials to provide what the wearer lacks in performing physically challenging tasks, such as seen in manufacturing, agricultural and healthcare industries. However, fundamental challenges still prevent the realisation of such benefits in the practical settings outside the laboratory. This project addresses these challenges by establishing (1) a systematic des ....Task-centric Synthesis for Wearable Assistive Robots. Wearable Assistive Robots, designed to be worn on the human body, show tremendous potentials to provide what the wearer lacks in performing physically challenging tasks, such as seen in manufacturing, agricultural and healthcare industries. However, fundamental challenges still prevent the realisation of such benefits in the practical settings outside the laboratory. This project addresses these challenges by establishing (1) a systematic design approach for wearable robots to achieve the intended task while optimising other relevant considerations, such as human factors and the practical bulk of the robot; and (2) a novel control and interaction strategy to accommodate the variations in realistic living and working environments.Read moreRead less
Minimization of emissions from dimethyl ether (DME) combustion in a diesel engine. The project works on the utilization of dimethyl ether, an innovative clean fuel produced from coal or natural gas, as a diesel substitute. The utilization of DME in diesel engines can potentially reduce the emissions by 90%, making it possible to meet the strictest engine standard. In the meantime the engine efficiency can be improved. The outcomes of the project will help accelarate the maturity of the DME mark ....Minimization of emissions from dimethyl ether (DME) combustion in a diesel engine. The project works on the utilization of dimethyl ether, an innovative clean fuel produced from coal or natural gas, as a diesel substitute. The utilization of DME in diesel engines can potentially reduce the emissions by 90%, making it possible to meet the strictest engine standard. In the meantime the engine efficiency can be improved. The outcomes of the project will help accelarate the maturity of the DME market in Australia. Read moreRead less