Development of the applications of signal processing to mechanical problems and machine diagnostics. It is intended to extend research collaboration in the following areas of interest to both UTC and UNSW:
(1) Dynamics of gears for diagnostics and noise control
(2) Application of blind source separation techniques to mechanical problems
(3) Application of cyclostationary signal analysis techniques to machine diagnostics
(4) Determination of structural dynamic properties from response measure ....Development of the applications of signal processing to mechanical problems and machine diagnostics. It is intended to extend research collaboration in the following areas of interest to both UTC and UNSW:
(1) Dynamics of gears for diagnostics and noise control
(2) Application of blind source separation techniques to mechanical problems
(3) Application of cyclostationary signal analysis techniques to machine diagnostics
(4) Determination of structural dynamic properties from response measurements
(5) Diagnostics of diesel engines and other reciprocating machines.
This project will result in the publication of joint papers in each of these topics, and give material to form the basis of an application for at least one FAIR project in the area of gear noise control and diagnostics.Read moreRead less
Experimental and Numerical Investigation of Granular Flow in Hoppers. Handling and processing of bulk solids such as coal and metal ores perform a key function in many industries, and hoppers are the most common devices for storage and discharge of granular materials in this field. The proper design of this equipment is very important. This project provides a systematic investigation of granular flow in hoppers, which is essential in order to avoid structure failures and associated costs. It wil ....Experimental and Numerical Investigation of Granular Flow in Hoppers. Handling and processing of bulk solids such as coal and metal ores perform a key function in many industries, and hoppers are the most common devices for storage and discharge of granular materials in this field. The proper design of this equipment is very important. This project provides a systematic investigation of granular flow in hoppers, which is essential in order to avoid structure failures and associated costs. It will lead to a fundamental understanding of relevant industrial processes, improvement of their efficiency, and hence improved competitiveness of Australian mining/mineral/metallurgical industries.Read moreRead less
Novel H2 production technology using brown coal for clean power generation. This project aims to develop a novel technology of poly-generation for the large-scale production of hydrogen and activated carbon materials using Australian brown coal through a high-pressure entrained-flow pyrolysis process, which is combined with a flameless catalytic H2 combustion process. The scientific goal of the project is to gain a detailed scientific understanding of the mechanisms of radical reaction pathways ....Novel H2 production technology using brown coal for clean power generation. This project aims to develop a novel technology of poly-generation for the large-scale production of hydrogen and activated carbon materials using Australian brown coal through a high-pressure entrained-flow pyrolysis process, which is combined with a flameless catalytic H2 combustion process. The scientific goal of the project is to gain a detailed scientific understanding of the mechanisms of radical reaction pathways for the high-pressure pyrolysis of brown coal, and the mechanism and kinetics of the catalytic flameless combustion of H2. The project outcomes will meet the needs of Australia's recent national hydrogen initiatives and lead to an industry demonstration to convert Victorian brown coal to NO-free and carbon-free clean power.Read moreRead less