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
Catastrophic transition to turbulence in rotation-dominated flows. Rotation-dominated flows are very common in engineering applications and fluid dynamics of the Earth's atmosphere, oceans, and core. Such flows are known to make a sudden transition from an orderly to an energetic turbulent state and this project aims to discover the reason why.
A novel approach to controlling boundary-layer separation. This project will involve fundamental research into the control of the fluid dynamical phenomena of boundary-layer separation and transition to turbulence. The project will be built upon a firm foundation of mathematical modelling of the complex behaviour of fluid flows that are near the onset of flow separation or turbulence. The project will produce results that will permit the development of control strategies that can be implemented ....A novel approach to controlling boundary-layer separation. This project will involve fundamental research into the control of the fluid dynamical phenomena of boundary-layer separation and transition to turbulence. The project will be built upon a firm foundation of mathematical modelling of the complex behaviour of fluid flows that are near the onset of flow separation or turbulence. The project will produce results that will permit the development of control strategies that can be implemented in a wide variety of important technological applications, such as drag reduction in the aerospace and ship industries as well as the control of stall (or loss of lift) in modern aircraft.Read moreRead less
Research into techniques for enhancing the heat transfer performance of finned-tube heat exchangers. This project explores several methods for enhancing the heat transfer performance of mechanically bonded finned tube heat exchangers. The methods would be analysed experimentally, and using finite elements, numerically. Any increase in heat transfer efficiency would contribute to the conservation of energy, and therefore, of natural resources. An improved design of heat exchangers would give a de ....Research into techniques for enhancing the heat transfer performance of finned-tube heat exchangers. This project explores several methods for enhancing the heat transfer performance of mechanically bonded finned tube heat exchangers. The methods would be analysed experimentally, and using finite elements, numerically. Any increase in heat transfer efficiency would contribute to the conservation of energy, and therefore, of natural resources. An improved design of heat exchangers would give a definite competitive edge to the Australian manufacturer. An equally significant outcome would be the training of a research person in industry-related research and skilled both in experimental and numerical procedures.Read moreRead less
Application of exact coherent structures to transition and turbulence. This project aims to understand coherent structures and devise methods to prevent bypass transition to turbulence and reduce turbulent wall drag. Coherent structures in turbulence may be identified with nonlinear solutions of the exact equations of motion. Such "exact" coherent structures have their Reynolds number dependence described explicitly and apply for moderate to very large Reynolds numbers, well above the range of f ....Application of exact coherent structures to transition and turbulence. This project aims to understand coherent structures and devise methods to prevent bypass transition to turbulence and reduce turbulent wall drag. Coherent structures in turbulence may be identified with nonlinear solutions of the exact equations of motion. Such "exact" coherent structures have their Reynolds number dependence described explicitly and apply for moderate to very large Reynolds numbers, well above the range of full Navier–Stokes calculations. Understanding the fundamentals of turbulence is expected to lead to more efficient and cheaper air transportation, and better tools for climate prediction and short-term weather forecasting.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561035
Funder
Australian Research Council
Funding Amount
$176,890.00
Summary
A high-speed PIV facility for kinematic investigation of rapid transient and pulsatile fluid flows. The unprecedented frame rate of high-speed PIV allows the detail investigation of turbulent and unsteady flows, hitherto inaccessible to researchers other than by measurement at a single point. The proposed equipment will allow researchers to resolve a wide range of problems in fluid mechanics covering bio-medical flows, drug delivery, vehicle and urban aerodynamics, urban hydrodynamics, combusti ....A high-speed PIV facility for kinematic investigation of rapid transient and pulsatile fluid flows. The unprecedented frame rate of high-speed PIV allows the detail investigation of turbulent and unsteady flows, hitherto inaccessible to researchers other than by measurement at a single point. The proposed equipment will allow researchers to resolve a wide range of problems in fluid mechanics covering bio-medical flows, drug delivery, vehicle and urban aerodynamics, urban hydrodynamics, combustion, bubble-particle interactions and other industrial flow problems. The results of this work will place Australia in the forefront of research in transient fluid mechanics allowing researchers to develop a predictive capacity for such flows.Read moreRead less
A Novel Approach To Flow Control By Topography. The project will resolve important questions concerning the influence of boundary topography on transition to turbulence and on the exact coherent structures forming the backbone of turbulence.
The canonical topography known from previous work by one of the investigators is a wavy wall and, as well as resolving important issues in flow physics, the research is relevant to many flows of importance such roughness induced transition on aircraft wings, ....A Novel Approach To Flow Control By Topography. The project will resolve important questions concerning the influence of boundary topography on transition to turbulence and on the exact coherent structures forming the backbone of turbulence.
The canonical topography known from previous work by one of the investigators is a wavy wall and, as well as resolving important issues in flow physics, the research is relevant to many flows of importance such roughness induced transition on aircraft wings, flows in heat transfer/mixing devices, blood flow and the influence of topography on the atmospheric boundary layer.
Expected outcomes are an understanding of the interplay between transitional and turbulent flows with wall topography together with strategies to enhance mixing and drag reduction.Read moreRead less
Characterisation and Stability of Thin Electrowetting Films. Electrowetting is of importance to numerous industrial, biomedical and daily life settings such as microfluidic biopharmaceutical applications, coating technology, electronic displays, optical focusing devices, miniaturised chemical analysis systems for homeland security, etc. The work, aimed at generating an understanding of the complex hydrodynamic and physicochemical processes involved, is fundamental research having generic benefit ....Characterisation and Stability of Thin Electrowetting Films. Electrowetting is of importance to numerous industrial, biomedical and daily life settings such as microfluidic biopharmaceutical applications, coating technology, electronic displays, optical focusing devices, miniaturised chemical analysis systems for homeland security, etc. The work, aimed at generating an understanding of the complex hydrodynamic and physicochemical processes involved, is fundamental research having generic benefits to researchers in interfacial science, electrokinetics and microfluidics. The results will also be beneficial to industrial workers in providing engineering protocols for the development of these devices by identifying optimal conditions for fluid manipulation without prone-to-wear mechanical components. Read moreRead less
Lower greenhouse at lower cost: maximising the potential of liquefied petroleum gas (LPG) in passenger vehicles. This project will develop tools for designing internal combustion engines that simultaneously achieve low greenhouse emissions without added consumer cost. The project aim is to be achieved through the effective use of liquefied petroleum gas (LPG), which is an affordable fuel that has potentially low emissions if used properly.
Supersonic flow past micro-scale particles: Industrial applications. Droplet based materials processing has developed significantly over the last decade, with applications in a wide range of industries where high-strength, light-weight materials are critical. Our research will allow for continued progress of this method, by developing accurate models to predict the cooling rate throughout the process and hence the physical properties of the finished product. Development of this knowledge will al ....Supersonic flow past micro-scale particles: Industrial applications. Droplet based materials processing has developed significantly over the last decade, with applications in a wide range of industries where high-strength, light-weight materials are critical. Our research will allow for continued progress of this method, by developing accurate models to predict the cooling rate throughout the process and hence the physical properties of the finished product. Development of this knowledge will allow for higher precision products to be produced and allow for new techniques to be developed. This information will allow for material processing in Australia to be maintained at world class levels, and for Australian industry to continue to lead the way in the production of technologically advanced materials.Read moreRead less