Methanol to diesel. Australia has large remote gas reserves which are not accessible to markets via pipeline and cannot be effectively utilised using liquefied natural gas technology. Fischer-Tropsch conversion of gas to liquid (GTL), being capital intense, is uneconomical for these stranded gas resources. This project will develop a new GTL technology to produce sulphur-free, clean combustion diesel. The outcomes of this research will be a frontier technology that allows more effective utilisat ....Methanol to diesel. Australia has large remote gas reserves which are not accessible to markets via pipeline and cannot be effectively utilised using liquefied natural gas technology. Fischer-Tropsch conversion of gas to liquid (GTL), being capital intense, is uneconomical for these stranded gas resources. This project will develop a new GTL technology to produce sulphur-free, clean combustion diesel. The outcomes of this research will be a frontier technology that allows more effective utilisation of Australian remote gas resources to meet rising global demand for transport fuels, adding enormous value to Australian natural resources and contributing to Building and Transforming Australian industries.Read moreRead less
Low-temperature plasma-catalytic conversion of CH4 and CO2 to alcohols. This project aims to investigate a novel concept of integrated low-temperature plasma and catalytic membrane hybrid reactor system for alcohols production from methane (CH4), carbon dioxide (CO2) and water vapour. This research will combine plasma physics and reaction engineering techniques to develop an innovative gas to liquid technology. The outcomes have the potential to transform the nation's natural gas industry, impro ....Low-temperature plasma-catalytic conversion of CH4 and CO2 to alcohols. This project aims to investigate a novel concept of integrated low-temperature plasma and catalytic membrane hybrid reactor system for alcohols production from methane (CH4), carbon dioxide (CO2) and water vapour. This research will combine plasma physics and reaction engineering techniques to develop an innovative gas to liquid technology. The outcomes have the potential to transform the nation's natural gas industry, improve energy efficiency, and utilise CO2 rich gas resources.Read moreRead less