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
Industrial Transformation Training Centres - Grant ID: IC150100019
Funder
Australian Research Council
Funding Amount
$4,571,797.00
Summary
ARC Training Centre for Liquefied Natural Gas Futures. ARC Training Centre for Liquefied Natural Gas Futures. This training centre aims to deliver projects and training to enable future Australian Liquefied Natural Gas (LNG) production from reserves in deep water, at small or remote on-shore locations, with greater efficiency, less environmental impact, and at lower cost than currently possible. This should be accomplished via research projects undertaken by the PhD students and research fellows ....ARC Training Centre for Liquefied Natural Gas Futures. ARC Training Centre for Liquefied Natural Gas Futures. This training centre aims to deliver projects and training to enable future Australian Liquefied Natural Gas (LNG) production from reserves in deep water, at small or remote on-shore locations, with greater efficiency, less environmental impact, and at lower cost than currently possible. This should be accomplished via research projects undertaken by the PhD students and research fellows with guidance from the centre’s industrial partners. The centre’s expected legacy is a unique research and training facility, designed for future integration into a microscale LNG plant. The anticipated research and training outcomes will help to ensure Australia plays a leading role in future global LNG developments.Read moreRead less
Discrete Element Method for Analysis and Design of Pharmaceutical Encapsulation. Tablets represent the preferred method of dose delivery in the pharmaceutical industry, with over 80% of the market. PressFit - gelcaps have recently been developed, which encase a tablet core within a gelatin coating. The product combines the consumer appeal of capsules with the processing convenience of tablets, and provides a high degree of tamper-resistance. An important issue is that the caplets are required ....Discrete Element Method for Analysis and Design of Pharmaceutical Encapsulation. Tablets represent the preferred method of dose delivery in the pharmaceutical industry, with over 80% of the market. PressFit - gelcaps have recently been developed, which encase a tablet core within a gelatin coating. The product combines the consumer appeal of capsules with the processing convenience of tablets, and provides a high degree of tamper-resistance. An important issue is that the caplets are required to have very precise dimensional precision, an issue not previously of high priority for tabletting . This project seeks to enhance the competitive advantage of this new technology, through a combination of advanced mathematical modeling supported by experiments.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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Determination of the fate of dissolved organic nitrogen in biological nutrient removal (BNR) processes and development of appropriate treatment technologies. The aim of this project is to better characterise the dissolved organic nitrogen (DON) in sewage treatment plant influent, determine its fate in biological nutrient removal (BNR) plants, and to evaluate and develop an appropriate treatment technology.
As a result of tightening effluent N licence requirements for sewage treatment plants, ....Determination of the fate of dissolved organic nitrogen in biological nutrient removal (BNR) processes and development of appropriate treatment technologies. The aim of this project is to better characterise the dissolved organic nitrogen (DON) in sewage treatment plant influent, determine its fate in biological nutrient removal (BNR) plants, and to evaluate and develop an appropriate treatment technology.
As a result of tightening effluent N licence requirements for sewage treatment plants, the dissolved organic nitrogen (DON) fraction has become extremely important. In many cases, the DON forms the major fraction of the effluent N, and is constraining further reductions in licence specifications, and in some cases it is the cause of failure to meet licence.
DON is refractory (un-biodegradable), very poorly characterised, its fate in conventional biological treatment processes not known, and its eventual impact on the environment unknown. Considering its importance, it is critical that these issues are addressed. This proposal intends to address some of them.
This project is an APA(I) PhD student project.Read moreRead less
Production of Biodegradable Polyhydroxyalkanoate Polymers using Advanced Biological Wastewater Treatment Process Technology. The aim of this project is to develop a sustainable process for producing biodegradable polyhydroxyalkanoate (PHAs)polymers from an innovative aerobic-anaerobic biological wastewater treatment process, ?treating? high strength food industry effluent. These biopolymers offer enormous potential for use as renewable and biodegradable thermoplastics.
It is proposed to inve ....Production of Biodegradable Polyhydroxyalkanoate Polymers using Advanced Biological Wastewater Treatment Process Technology. The aim of this project is to develop a sustainable process for producing biodegradable polyhydroxyalkanoate (PHAs)polymers from an innovative aerobic-anaerobic biological wastewater treatment process, ?treating? high strength food industry effluent. These biopolymers offer enormous potential for use as renewable and biodegradable thermoplastics.
It is proposed to investigate two process configurations, namely the sequencing batch reactor and a continuous two step anaerobic-aerobic reaction system. These will be studied at bench-scale. The outcomes include:
1. Determination of the optimum microbial conditions and key growth
parameters for the production of PHA.
2. Optimisation of the process configuration, operating strategies
and operating conditions to maximise the
production of PHA.
3. Assessment of the influence of the feed composition (e.g. VFA)
on the PHA composition (PHB/PHV).
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Development of a Nitrogen Removal Technology to Integrate with the Novel ‘EnRec’ Energy Recovery Sewage Treatment Process. The aim of this project is to develop a nitrogen removal technology to integrate with the novel energy recovery sewage treatment process, EnRec. EnRec is presently being developed as part of a collaborative R&D activity between the partners, and is partly supported by a Queensland Government (QSEIF) grant which was awarded in November 2002.
One important issue yet to b ....Development of a Nitrogen Removal Technology to Integrate with the Novel ‘EnRec’ Energy Recovery Sewage Treatment Process. The aim of this project is to develop a nitrogen removal technology to integrate with the novel energy recovery sewage treatment process, EnRec. EnRec is presently being developed as part of a collaborative R&D activity between the partners, and is partly supported by a Queensland Government (QSEIF) grant which was awarded in November 2002.
One important issue yet to be addressed is how to achieve nitrogen removal in the EnRec process. One of the major differences between the EnRec process and conventional sewage treatment technology is that the main process reactor is anaerobic, thus eliminating aeration costs and enabling methane production. However, anaerobic treatment processes do not provide significant nitrogen removal, and thus it will be necessary to integrate a nitrogen removal technology with the main energy recovery process. This is the aim of this project.
The project is an APA(I) PhD student project.Read moreRead less
Cloud scheduling and management of energy systems with real-time support. This project aims to research cloud scheduling and management of modern energy systems with real-time communication support. The approach consists of optimisation with balanced benefits for customers, aggregators and network service providers for modern energy systems; real-time communication support for unified energy scheduling and management over many microgrids; and cloud energy scheduling and management with deadline ....Cloud scheduling and management of energy systems with real-time support. This project aims to research cloud scheduling and management of modern energy systems with real-time communication support. The approach consists of optimisation with balanced benefits for customers, aggregators and network service providers for modern energy systems; real-time communication support for unified energy scheduling and management over many microgrids; and cloud energy scheduling and management with deadline guarantee. This project is expected to facilitate increasing deployment of disruptive energy technologies on a massive scale, create opportunities for energy industries, and maintain Australia’s leading position in renewable energy.Read moreRead less
Jet breakup of emulsions for the production of designer microparticulate drug delivery systems. Drug delivery systems are an important and growing part of the pharmaceutical and biotechnology market. The growth is estimated to be at 23% p.a. and is tied to the requirements for more precise and complex delivery profiles by highly potent drugs or vaccines (bioactives). To achieve the required level of control and precision, improved encapsulation technologies are needed to produce particles of a p ....Jet breakup of emulsions for the production of designer microparticulate drug delivery systems. Drug delivery systems are an important and growing part of the pharmaceutical and biotechnology market. The growth is estimated to be at 23% p.a. and is tied to the requirements for more precise and complex delivery profiles by highly potent drugs or vaccines (bioactives). To achieve the required level of control and precision, improved encapsulation technologies are needed to produce particles of a precise size and narrow size distribution. This project aims to develop an innovative technology for the production of superior uniformly sized particulate drug delivery systems for the delivery of the "next generation" bioactives.Read moreRead less
Terahertz Spectroscopy of Mass-Manufactured Viral Vaccines. The breakthrough vaccine for cervical cancer proves that new and exciting products are on the way to treat and protect against previously untouchable diseases. Similar products for bird flu are being researched, and new manufacturing methods are urgently needed to get this science to market at a price that people can afford. However, manufacturing innovation in the pharmaceutical industry is constrained by a lack of methods for product ....Terahertz Spectroscopy of Mass-Manufactured Viral Vaccines. The breakthrough vaccine for cervical cancer proves that new and exciting products are on the way to treat and protect against previously untouchable diseases. Similar products for bird flu are being researched, and new manufacturing methods are urgently needed to get this science to market at a price that people can afford. However, manufacturing innovation in the pharmaceutical industry is constrained by a lack of methods for product analysis. In this project engineers will devise advanced methods to fingerprint these new vaccine products, ensuring that manufacturing processes can be improved without compromising safety. These new analytical techniques will potentially lead to new low-cost vaccine products made in Australia.Read moreRead less