Microdynamic study of the flow of granular materials in bladed mixers. This project aims to develop a comprehensive understanding of granular mixing mechanics in bladed mixers. The study will be carried out by means of newly developed advanced numerical and experimental techniques to generate particle scale information. The flow and mixing behaviour of particles under different conditions will be analysed at both micro- and macro-scopic levels. The research outcomes such as predictive equations ....Microdynamic study of the flow of granular materials in bladed mixers. This project aims to develop a comprehensive understanding of granular mixing mechanics in bladed mixers. The study will be carried out by means of newly developed advanced numerical and experimental techniques to generate particle scale information. The flow and mixing behaviour of particles under different conditions will be analysed at both micro- and macro-scopic levels. The research outcomes such as predictive equations will be tested by simulating and analysing complicated industrial mixing processes; modelling to improve granulation and breakage will be targets. It will significantly improve the design, optimisation and control of mixing processes that are widely used in many industries.Read moreRead less
Particle scale studies of powder mixing in bladed mixers. Powder handling and processing are widely used in both conventional and modern industries but rarely reach more than 60% of design capacity because of poor fundamental understanding. Such operations are important to Australia in view of the heavy dependence on raw materials processing (about 40% of the GNP). This project will tackle the core problems in powder mixing which is a key operation in many industries. Application of the research ....Particle scale studies of powder mixing in bladed mixers. Powder handling and processing are widely used in both conventional and modern industries but rarely reach more than 60% of design capacity because of poor fundamental understanding. Such operations are important to Australia in view of the heavy dependence on raw materials processing (about 40% of the GNP). This project will tackle the core problems in powder mixing which is a key operation in many industries. Application of the research outcomes can lead to better process or product control, a decrease in energy consumption and an improvement in productivity, which is very helpful to maintaining Australia's leading position in resource, energy, process and allied industries.Read moreRead less
Model studies of the flow and thermal behaviour of non-spherical particles in fluid bed reactors. The Australian steel industry has a turnover of around $11 billion (5% of total manufacturing), being a largest manufacturing sector in Australia. Iron ore sintering and blast furnace ironmaking are two important processes in an integrated steel works. This project aims to understand and model the particle-fluid flow and thermal behaviour of non-spherical particles in the two processes, formulating ....Model studies of the flow and thermal behaviour of non-spherical particles in fluid bed reactors. The Australian steel industry has a turnover of around $11 billion (5% of total manufacturing), being a largest manufacturing sector in Australia. Iron ore sintering and blast furnace ironmaking are two important processes in an integrated steel works. This project aims to understand and model the particle-fluid flow and thermal behaviour of non-spherical particles in the two processes, formulating strategies for improving the process control and productivity and energy saving. The research outcomes (theory/model/understanding) are useful to fluid bed reactors which are widely used in mineral/metallurgical/chemical industries. Their application can improve the competitiveness of the steel and other industries in Australia.Read moreRead less
Experimental and numerical studies of the packing and piling of coal. This project is oriented to the coal and steel industries, which are important to Australia. In fact, the coal industry creates a significant employment and produces 80% of electricity in Australia. Australia is also the world's biggest coal exporter. This project will develop methods to control the packing and piling processes of coal, which are of fundamental importance to many granular processes. The benefits from the proje ....Experimental and numerical studies of the packing and piling of coal. This project is oriented to the coal and steel industries, which are important to Australia. In fact, the coal industry creates a significant employment and produces 80% of electricity in Australia. Australia is also the world's biggest coal exporter. This project will develop methods to control the packing and piling processes of coal, which are of fundamental importance to many granular processes. The benefits from the project include improvements in productivity, coke quality and fuel efficiency, which will lead reduced energy consumption and pollution emission and thereby improve the competitiveness of Australia's coal and steel industries. Read moreRead less
Fundamental studies of the packing and compaction of fine particles. This project will investigate the fundamentals of the packing and compaction of fine particles at both microscopic and macroscopic levels through a combined theoretical and experimental program. It involves the use of advanced techniques to generate particle scale information, so that a packing and compaction process can be assessed at various time and length scales. It will produce a comprehensive understanding of the underlyi ....Fundamental studies of the packing and compaction of fine particles. This project will investigate the fundamentals of the packing and compaction of fine particles at both microscopic and macroscopic levels through a combined theoretical and experimental program. It involves the use of advanced techniques to generate particle scale information, so that a packing and compaction process can be assessed at various time and length scales. It will produce a comprehensive understanding of the underlying physics, computer models capable of predicting the micromechanic and transport properties of porous media, and an effective means to solve many packing and compaction problems widely encountered in minerals and materials processing industries.Read moreRead less
Granular dynamics: from discrete simulation towards continuum modelling. The project aims to develop a general averaging theory to link discrete to continuum description of granular dynamics and a comprehensive understanding of the underlying physics. This will be achieved through detailed analysis of the particle-particle and particle-wall interactions at both microscopic and macroscopic levels, supported by the newly developed averaging theory and novel discrete particle simulation. The result ....Granular dynamics: from discrete simulation towards continuum modelling. The project aims to develop a general averaging theory to link discrete to continuum description of granular dynamics and a comprehensive understanding of the underlying physics. This will be achieved through detailed analysis of the particle-particle and particle-wall interactions at both microscopic and macroscopic levels, supported by the newly developed averaging theory and novel discrete particle simulation. The results, in terms of constitutive relations and boundary conditions, will be implemented in continuum-based process modelling and tested by comparing numerical and experimental results via typical case studies. It will significantly enhance the present capability of modelling granular flow that is widely encountered in many industries and in nature.Read moreRead less
Fundamental studies of screening processes in coal preparation. Screening is a most important unit operation widely used in industries but not well understood. This project will investigate the fundamentals governing the dynamic behaviour of coal slurry on desliming screens by a combined theoretical and experimental program. Its aim is to develop and validate a computer model that can simulate the operation under various conditions at a particle level, providing a cost effective way to quantify ....Fundamental studies of screening processes in coal preparation. Screening is a most important unit operation widely used in industries but not well understood. This project will investigate the fundamentals governing the dynamic behaviour of coal slurry on desliming screens by a combined theoretical and experimental program. Its aim is to develop and validate a computer model that can simulate the operation under various conditions at a particle level, providing a cost effective way to quantify the screening performance in relation to materials, machine and operation conditions. It will generate a basis for developing better design and control strategies of screen operation, resulting in an improved competitiveness of Australia's mineral industry.Read moreRead less
Advanced modelling and optimisation of Underground Coal Gasification. The last decade is characterised by increasing interest of many countries in obtaining and developing Underground Coal Gasification (UCG) technologies. Recent long-term successful trial in Chinchilla has proven that the technology is ready for commercial use but the fundamental research into UCG is needed for further improvement of the technology performance in commercial applications. The major goal of this project is in comb ....Advanced modelling and optimisation of Underground Coal Gasification. The last decade is characterised by increasing interest of many countries in obtaining and developing Underground Coal Gasification (UCG) technologies. Recent long-term successful trial in Chinchilla has proven that the technology is ready for commercial use but the fundamental research into UCG is needed for further improvement of the technology performance in commercial applications. The major goal of this project is in combining most recent advances in combustion modelling with practical UCG operations and developing new advanced models specifically for UCG diagnostics and optimisation. The project outcomes involve: better understanding and optimisation of UCG processes and further development of advanced modelling techniques.
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Model studies of multiphase flow in fluid bed reactors. Multiphase flow is widely encountered in mineral, metallurgical and chemical industries which are important components of Australia's economy. Understanding and modelling multiphase flow plays a significant role in the design, control and optimization of multiphase reactors in these industries. The success of this project will enhance computational multiphase flow capability and help build fluid bed reactors with high efficiency, low energy ....Model studies of multiphase flow in fluid bed reactors. Multiphase flow is widely encountered in mineral, metallurgical and chemical industries which are important components of Australia's economy. Understanding and modelling multiphase flow plays a significant role in the design, control and optimization of multiphase reactors in these industries. The success of this project will enhance computational multiphase flow capability and help build fluid bed reactors with high efficiency, low energy consumption and low emissions. The research outcomes will not only greatly benefit Australia's economy but also significantly help environmental protection beneficial to Australia's community.Read moreRead less
A Fundamental Investigation of the Thermoplastic Behaviour and Porous Structural Evolution of Coke and Char Particles. During heating, solid fuel particles undergo complex physical changes resulting in sophisticated structures in the residual material (coke and char) which influence the operational performance of these materials in ironmaking and power generation processes. The mechanistic understanding of the evolution of physical structure and the coupled role of gas evolution has not been wel ....A Fundamental Investigation of the Thermoplastic Behaviour and Porous Structural Evolution of Coke and Char Particles. During heating, solid fuel particles undergo complex physical changes resulting in sophisticated structures in the residual material (coke and char) which influence the operational performance of these materials in ironmaking and power generation processes. The mechanistic understanding of the evolution of physical structure and the coupled role of gas evolution has not been well established. An interpretive and predictive mechanism to describe the process will be developed through experimental observations and mathematical modelling. The project will provide fundamental new insights and understanding of operational issues concerning the complex behaviour of solid fuel residues in coal based industrial processes.Read moreRead less