High purity formaldehyde production from carbon oxides. This project aims to investigate the detailed reaction mechanism of a green chemistry route of producing formaldehyde by reducing carbon monoxide and carbon dioxide in liquid phase. Formaldehyde is a widely used feedstock for chemical industries, but is not considered a green chemical because it is produced using natural gas as the feed, which loses over 61 per cent of energy. This project will maximise the yield and purity of the product, ....High purity formaldehyde production from carbon oxides. This project aims to investigate the detailed reaction mechanism of a green chemistry route of producing formaldehyde by reducing carbon monoxide and carbon dioxide in liquid phase. Formaldehyde is a widely used feedstock for chemical industries, but is not considered a green chemical because it is produced using natural gas as the feed, which loses over 61 per cent of energy. This project will maximise the yield and purity of the product, making it commercially viable. This project’s method for producing formaldehyde is expected to reduce the capital cost and energy losses.Read moreRead less
Novel inkjet-printed organic solvent nanofiltration membranes. The pharmaceutical industry is one of fastest growing industries in Australia. Manufacturing pharmaceutical products requires the use of hazardous and expensive organic solvents, which are toxic for the environment and expensive to recover due to the energy intensive thermal process required. This project aims to discover and manufacture a novel, low-cost, chemically robust nanomaterial-based membrane using an industry scalable inkje ....Novel inkjet-printed organic solvent nanofiltration membranes. The pharmaceutical industry is one of fastest growing industries in Australia. Manufacturing pharmaceutical products requires the use of hazardous and expensive organic solvents, which are toxic for the environment and expensive to recover due to the energy intensive thermal process required. This project aims to discover and manufacture a novel, low-cost, chemically robust nanomaterial-based membrane using an industry scalable inkjet printing process. The membrane will be resistant to organic solvents while efficiently recovering valuable and hazardous organic solvents with minimum environmental footprint. It will effectively provide for the future growth of the Australian pharmaceutical industry while also having global applications.Read moreRead less
Catalytic conversion of Australia's natural gas to value added products. While natural gas (of which methane is the primary component) is an abundant source of energy, it is normally found in remote areas and for its successful exploitation it needs to be processed. The processing usually requires significant energy and resources input. In this project we will develop a fundamental understanding to a single step catalytic process that can utilise natural gas and nitrous oxide (both potent greenh ....Catalytic conversion of Australia's natural gas to value added products. While natural gas (of which methane is the primary component) is an abundant source of energy, it is normally found in remote areas and for its successful exploitation it needs to be processed. The processing usually requires significant energy and resources input. In this project we will develop a fundamental understanding to a single step catalytic process that can utilise natural gas and nitrous oxide (both potent greenhouse gases) and oxygen to produce selectively methanol and hydrocarbons from a natural gas feedstream in a controlled manner. A single step process for natural gas conversion utilising waste green-house gases is expected to be of great benefit to the Australian economy, environment and energy securityRead moreRead less
An Integrated Framework for Optimisation and Control of Key Product Properties in Emulsion Polymerisation. Emulsion polymerization is of major industrial importance. In addition to process efficiency, the use of water as the reactor medium provides environmental benefits. This proposal is aimed at building an integrated framework to analyse, model, control and optimise emulsion polymerisation systems in order to understand, design and operate such complex systems to obtain desired polymer produc ....An Integrated Framework for Optimisation and Control of Key Product Properties in Emulsion Polymerisation. Emulsion polymerization is of major industrial importance. In addition to process efficiency, the use of water as the reactor medium provides environmental benefits. This proposal is aimed at building an integrated framework to analyse, model, control and optimise emulsion polymerisation systems in order to understand, design and operate such complex systems to obtain desired polymer product characteristics. Complex kinetic, transport and evolution equations will be analysed and solved for predicting and controlling key product properties. This project will provide not only a significant advance in fundamental knowledge of polymerisation systems but will also enable production of cost-effective ?designer polymers? for a wide-range of applications.Read moreRead less
A novel route to produce olefin feedstock for Australia. This project aims to develop a new process to produce longer chain hydrocarbons usable in Australia's olefin and polymer industries. Besides their use as a fuel, hydrocarbons are major industrial chemicals used for the production of polymeric materials and as refrigerants. Olefins are precursors to polymers and conventionally are produced from saturated hydrocarbons through the process of steam cracking. The major precursors for monomers a ....A novel route to produce olefin feedstock for Australia. This project aims to develop a new process to produce longer chain hydrocarbons usable in Australia's olefin and polymer industries. Besides their use as a fuel, hydrocarbons are major industrial chemicals used for the production of polymeric materials and as refrigerants. Olefins are precursors to polymers and conventionally are produced from saturated hydrocarbons through the process of steam cracking. The major precursors for monomers are present in significant quantities in only a few natural gas sources and these sources also undergo significant seasonal variation and are costly. The project aims to develop new catalysts and process conditions to convert low-value feedstock hydrocarbons into feedstock for conventional steam crackers.Read moreRead less
Advanced chemical recycling of mixed plastics for monomer recovery. This project aims to develop innovative catalytic routes to the chemical recycling of mixed plastics for recovery of their molecular building blocks. Plastic pollution poses a significant threat to the Australian ecosystem. Efficient recycling technologies are urgently needed as Australia only recycles ~4% of its 3.4 million tons of mixed waste plastics. This project expects to design highly efficient catalysts for the stepwise ....Advanced chemical recycling of mixed plastics for monomer recovery. This project aims to develop innovative catalytic routes to the chemical recycling of mixed plastics for recovery of their molecular building blocks. Plastic pollution poses a significant threat to the Australian ecosystem. Efficient recycling technologies are urgently needed as Australia only recycles ~4% of its 3.4 million tons of mixed waste plastics. This project expects to design highly efficient catalysts for the stepwise breakdown of mixed polyolefin plastics into monomers for the subsequent manufacturing of virgin plastics in a circular economy, and to elucidate fundamental underpinning reaction mechanisms. Outcomes will stimulate the Australian waste plastic recycling industry, and minimise plastic accumulation in the environment.Read moreRead less