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Granular dynamics: characterization, modelling and application. Storage and transport of bulk solids are widely encountered in mineral, metallurgical and chemical industrials which are important to Australia. The design and control of bulk solids handling equipment must be optimised for the efficiency of processing. This project provides a systematic investigation of the techniques used to characterize bulk solids, and applies the new findings to hopper flow and pneumatic conveying. This, togeth ....Granular dynamics: characterization, modelling and application. Storage and transport of bulk solids are widely encountered in mineral, metallurgical and chemical industrials which are important to Australia. The design and control of bulk solids handling equipment must be optimised for the efficiency of processing. This project provides a systematic investigation of the techniques used to characterize bulk solids, and applies the new findings to hopper flow and pneumatic conveying. This, together with the research training offered through the conduct of the work, is very helpful to maintaining Australia’s leading position in bulk solids handling and application in resource, energy, process and allied industries.Read moreRead less
Skid mounted process for on-demand acetylene production. Skid mounted process for on-demand acetylene production. This project aims to develop a new, cheaper, safer and easier process for providing acetylene for the metal fabrication and construction industries. Mains gas (methane) will be converted into acetylene, on-site and on-demand, using a highly compact, transportable skid-based gas generator that is self-operating with a single touch ON-OFF system. This should remove the need to deliver ....Skid mounted process for on-demand acetylene production. Skid mounted process for on-demand acetylene production. This project aims to develop a new, cheaper, safer and easier process for providing acetylene for the metal fabrication and construction industries. Mains gas (methane) will be converted into acetylene, on-site and on-demand, using a highly compact, transportable skid-based gas generator that is self-operating with a single touch ON-OFF system. This should remove the need to deliver bottled acetylene to metal fabrication works, eliminating road transport and storage risks. There is a high potential for export of the plants to countries like China and India that use a calcium carbide-based process as a distributed acetylene source.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560662
Funder
Australian Research Council
Funding Amount
$204,157.00
Summary
Flow Diagnostics Facility for Microstructured Systems. This Project will establish Australia's only world-class facility for the interrogation of steady and fluctuating flows in microstructured components, enabling detailed characterisation of the flow patterns and velocities that occur in single phase and multiphase flows in miniature devices. Such devices are currently being developed by the Chief Investigators in the area of microreactor technology and chemical process intensification, in mic ....Flow Diagnostics Facility for Microstructured Systems. This Project will establish Australia's only world-class facility for the interrogation of steady and fluctuating flows in microstructured components, enabling detailed characterisation of the flow patterns and velocities that occur in single phase and multiphase flows in miniature devices. Such devices are currently being developed by the Chief Investigators in the area of microreactor technology and chemical process intensification, in microelectromechanical systems (MEMS), and in high efficiency membrane separation systems. The new Facility will enable them and others to enhance their research through visualisation and quantification of flow behaviour at the scale of a few micrometres.Read moreRead less
Improvements and Optimisation of Water Electrolysis for Hydroxy Gas Production for Metal Cutting Applications. The current technique for metal cutting mainly uses oxygen-acetylene flames, which means for the large number of Australian remote communities oxygen and acetylene bottles have to be transported from major cities. This incurs significant transport costs and associated environmental emissions and presents major safety concerns. Hydroxy flames using electrolysis of water can alleviate the ....Improvements and Optimisation of Water Electrolysis for Hydroxy Gas Production for Metal Cutting Applications. The current technique for metal cutting mainly uses oxygen-acetylene flames, which means for the large number of Australian remote communities oxygen and acetylene bottles have to be transported from major cities. This incurs significant transport costs and associated environmental emissions and presents major safety concerns. Hydroxy flames using electrolysis of water can alleviate these problems and, by utilising renewable electricity, the new technology to be developed in this research will transform tens of thousands of Australian metal workshops to be more environmentally friendly, safer and more cost-effective, thus contributing to the development of an environmentally sustainable Australia. Read moreRead less
Development of ultrastable high flux hydrophobic pervaporation membranes for organic separations. Perfluorinated glassy polymers (Teflons AF) as membrane materials are endowed with unique fluxes and excellent stability when in contact with various liquid organic mixtures. However, they have never been explored as membrane materials for pervaporation. The aims of this project are therefore to evaluate the applicability of composite membranes based on amorphous Teflons AF to the separation of orga ....Development of ultrastable high flux hydrophobic pervaporation membranes for organic separations. Perfluorinated glassy polymers (Teflons AF) as membrane materials are endowed with unique fluxes and excellent stability when in contact with various liquid organic mixtures. However, they have never been explored as membrane materials for pervaporation. The aims of this project are therefore to evaluate the applicability of composite membranes based on amorphous Teflons AF to the separation of organic mixtures and the removal of organic pollutants from water. The outcomes of this project will be the development of novel environmentally friendly processes in the petrochemical and biotechnology industries as well as ecologically efficient methods of waste water treatment.Read moreRead less
Preparing Carbon Molecular Sieve Membrane (CMSM) for Olefin/Paraffin Separation. Carbon molecular sieve membrane (CMSM) presents superior selectivity and stability for many gas separation processes. This technology is energy saving, environmental friendly and with minimal operating cost. The project will develop CMSMs for the separation of olefin/paraffin, particularly, the propane/propylene mixture which is currently separated by the energy intensive cryogenic distillation in industry. The pro ....Preparing Carbon Molecular Sieve Membrane (CMSM) for Olefin/Paraffin Separation. Carbon molecular sieve membrane (CMSM) presents superior selectivity and stability for many gas separation processes. This technology is energy saving, environmental friendly and with minimal operating cost. The project will develop CMSMs for the separation of olefin/paraffin, particularly, the propane/propylene mixture which is currently separated by the energy intensive cryogenic distillation in industry. The project involves both experimental works and theoretical studies and will provide: (1) techniques for preparing CMSMs for olefin/paraffin separation; (2) methods characterizing the micro-structure of CMSMs; (3) mathematical models predicting multicomponent gas permeation/separation properties on CMSMs; (4) effect of impurities on the separation processes. Read moreRead less
Advanced hierarchical materials for separation applications. The proposed project represents an international collaboration between Monash University and Fudan University and builds on the research strengths within these two Institutions in nano-materials research and applications. The proposed research will lead to a new class of materials for use in the chemical and biological industries, making their operation more efficient and permitting new separations to be performed. The research will ....Advanced hierarchical materials for separation applications. The proposed project represents an international collaboration between Monash University and Fudan University and builds on the research strengths within these two Institutions in nano-materials research and applications. The proposed research will lead to a new class of materials for use in the chemical and biological industries, making their operation more efficient and permitting new separations to be performed. The research will also pioneer new techniques for use in nano-engineering materials and falls within one of Australia's National Research Priorities: Frontier Technologies for Building and Transforming Australian Industries.Read moreRead less
Embedded Antenna Technology in Smart Polymeric Composite Structures. This project is about embedding Global Positioning Satellite (GPS) reception technology in polymeric composite components to be deployed in automobiles. The aim of the project is to investigate the various parameters involved in integrating several participating technologies necessary to produce such smart components. The parameters to be investigated include the disciplines of composite materials, patch antenna and wireless co ....Embedded Antenna Technology in Smart Polymeric Composite Structures. This project is about embedding Global Positioning Satellite (GPS) reception technology in polymeric composite components to be deployed in automobiles. The aim of the project is to investigate the various parameters involved in integrating several participating technologies necessary to produce such smart components. The parameters to be investigated include the disciplines of composite materials, patch antenna and wireless communication technologies. The significance and outcome of this project is the development of a manufacturing method to make a normal looking composite component with GPS signal processing capabilities. It is also expected that the findings from this project can be extended to other sensor-based industries.Read moreRead less
Efficient Pipeline Transport of Highly Concentrated Wastewater Sludge . This project aims to investigate the rheology and fluid mechanics of highly concentrated wastewater sludges and develop tools to support effective pipeline designs for wastewater treatment plants. The project expects to generate new knowledge about the complex flow of concentrated wastewater which will enable predictive models to support the design and optimization of pipeline transport systems. Expected outcomes of the proj ....Efficient Pipeline Transport of Highly Concentrated Wastewater Sludge . This project aims to investigate the rheology and fluid mechanics of highly concentrated wastewater sludges and develop tools to support effective pipeline designs for wastewater treatment plants. The project expects to generate new knowledge about the complex flow of concentrated wastewater which will enable predictive models to support the design and optimization of pipeline transport systems. Expected outcomes of the project include a new toolkit that will enable wastewater treatment plants to design and optimize both existing and future pipeline systems. This will support the Australian wastewater industry to plan for future growth, increase throughput and efficiency, reduce environmental pollutants, and capital and operating costs.Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH170100009
Funder
Australian Research Council
Funding Amount
$4,000,000.00
Summary
ARC Research Hub for Energy-efficient Separation. The ARC Research Hub for Energy-efficient Separation aims to develop advanced separation materials, innovative products and smart processes to reduce the energy consumption of separation processes. The Research Hub will create a multi-disciplinary training platform, supplying a highly-trained workforce for the advanced manufacturing sector, particularly in separation technology–a growth area in which Australia can lead the world. The advancement ....ARC Research Hub for Energy-efficient Separation. The ARC Research Hub for Energy-efficient Separation aims to develop advanced separation materials, innovative products and smart processes to reduce the energy consumption of separation processes. The Research Hub will create a multi-disciplinary training platform, supplying a highly-trained workforce for the advanced manufacturing sector, particularly in separation technology–a growth area in which Australia can lead the world. The advancement of Australia’s capability as a world-leading technology provider in manufacturing advanced separation materials and equipment will enable Australian industry to become more energy-efficient and cost-competitive in a global economy.Read moreRead less