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
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
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
Sustainable Water Reuse and Resource Recovery through Cost-Effective BNR. The recycling of treated wastewater effluents is needed to achieve water security, where very low nitrogen (N) and phosphorus (P) levels must be achieved for wastewater to be effectively recycled. This research investigates a more sustainable and cost-effective N&P removal process from wastewater, benefiting the environment and improving the viability of wastewater recycling. Phosphorus is a limited resource worldwide and ....Sustainable Water Reuse and Resource Recovery through Cost-Effective BNR. The recycling of treated wastewater effluents is needed to achieve water security, where very low nitrogen (N) and phosphorus (P) levels must be achieved for wastewater to be effectively recycled. This research investigates a more sustainable and cost-effective N&P removal process from wastewater, benefiting the environment and improving the viability of wastewater recycling. Phosphorus is a limited resource worldwide and will be effectively recovered in the process to be used as a fertiliser. This project develops wastewater treatment process tools, solutions and management strategies that addresses the current challenges of how optimal nutrient removal and recovery from wastewater is achieved, enabling water recycling and saving costs.Read moreRead less
Multi-Scale, Multi-Form Approach to the Modelling, Design and Control of Complex Particulate Processes. Many particulate processes suffer from high recycle rates and instability due to lack of knowledge at various scale levels, and on the fitness between model forms and applications. This project will develop a complete model hierarchy ranging from the microscopic scale to full plant scale using a multi-scale, multi-form approach. The joint force of two world class teams will tackle the complex ....Multi-Scale, Multi-Form Approach to the Modelling, Design and Control of Complex Particulate Processes. Many particulate processes suffer from high recycle rates and instability due to lack of knowledge at various scale levels, and on the fitness between model forms and applications. This project will develop a complete model hierarchy ranging from the microscopic scale to full plant scale using a multi-scale, multi-form approach. The joint force of two world class teams will tackle the complex interaction problems covering granulation fundamentals, dynamic modelling, process design and advanced control. The work will lead to significantly improved productivity and quality for a wide range of industrial particulate processes using innovative design and model based control strategies.Read moreRead less
A Novel Light-Weight Membrane Reactor for Converting Natural Gas to Syngas. Most of Australia’s natural gas reserves are located in the remote north-west shelf, many of which are small-scale and thus cannot be economically harnessed using conventional methods such as the pipeline transportation or gas liquefaction. In this project, novel light-weight membrane reactors will be designed for converting natural gas to syngas. By integrating advanced membrane and catalysis technologies, this projects ....A Novel Light-Weight Membrane Reactor for Converting Natural Gas to Syngas. Most of Australia’s natural gas reserves are located in the remote north-west shelf, many of which are small-scale and thus cannot be economically harnessed using conventional methods such as the pipeline transportation or gas liquefaction. In this project, novel light-weight membrane reactors will be designed for converting natural gas to syngas. By integrating advanced membrane and catalysis technologies, this projects aim to minimise reactor weight and operational costs, thus potentially making it possible to harness Australia’s remote and stranded gas reserves.Read moreRead less
Novel disinfection to combat antibiotic resistance . Control of antimicrobial resistance in water is critical. Disinfection in water and wastewater treatment plants is a vital barrier against antibiotic resistant bacteria (ARB); however, it is less effective in controlling- and may even facilitate the spread of antibiotic resistance genes (ARGs). This project aims to comprehensively investigate the effectiveness of widely-used disinfection processes in controlling ARB/ARGs, determine the underly ....Novel disinfection to combat antibiotic resistance . Control of antimicrobial resistance in water is critical. Disinfection in water and wastewater treatment plants is a vital barrier against antibiotic resistant bacteria (ARB); however, it is less effective in controlling- and may even facilitate the spread of antibiotic resistance genes (ARGs). This project aims to comprehensively investigate the effectiveness of widely-used disinfection processes in controlling ARB/ARGs, determine the underlying mechanisms, and identify optimal treatment conditions. This project also aims to develop a novel, cost-effective and environmentally friendly disinfection process for efficient ARGs destruction, thus significantly strengthening Australia’s capacity to prevent the spread of antibiotic resistance.Read moreRead less
Multi-scale Process Modelling for Intelligent Control. Processing and manufacturing systems are inherently multi-scale in their behaviour. From the molecular scale to the enterprise-wide scale. This and other attributes of the individual models create difficulties in the design and control of such systems. This project will develop suitable multi-scale measures (metrics) for process models based on an object oriented assumption based modelling language. It will lead to enhanced intelligent contr ....Multi-scale Process Modelling for Intelligent Control. Processing and manufacturing systems are inherently multi-scale in their behaviour. From the molecular scale to the enterprise-wide scale. This and other attributes of the individual models create difficulties in the design and control of such systems. This project will develop suitable multi-scale measures (metrics) for process models based on an object oriented assumption based modelling language. It will lead to enhanced intelligent control strategies and improved operational performance through use of the most appropriate model. The work will focus on industrially important reaction and particulate processing systemsRead moreRead less
Iron and phosphorus recovery from ferric precipitation sludge. To minimise health risks and environmental pollution, water and wastewater treatment processes often use iron salts to eliminate phosphate and other pollutants. This generates large amounts of chemical sludge that is typically sent to landfill. The benefits of this new process will be the recovery of both the iron, which can be reused in the process, and the phosphate, which is a key component in fertiliser. Since phosphate is a limi ....Iron and phosphorus recovery from ferric precipitation sludge. To minimise health risks and environmental pollution, water and wastewater treatment processes often use iron salts to eliminate phosphate and other pollutants. This generates large amounts of chemical sludge that is typically sent to landfill. The benefits of this new process will be the recovery of both the iron, which can be reused in the process, and the phosphate, which is a key component in fertiliser. Since phosphate is a limited natural resource with an increasingly high value, the recovery and recycling of this critical element in food production is highly important. The process will also avoid a large part of the sludge production and will make the water treatment processes more cost-effective.Read moreRead less