Discovery Early Career Researcher Award - Grant ID: DE140100569
Funder
Australian Research Council
Funding Amount
$372,952.00
Summary
Recovering helium from Australia’s natural gas: A case study for advanced adsorption processes to concentrate dilute gases. This project will deliver breakthroughs in gas separation technologies for the production of helium from natural gas. Global demand for helium in critical medical, scientific and industrial applications is projected to grow at around five per cent per annum. To overcome the forecast short falls in helium production, new low cost and energy efficient technologies to recover ....Recovering helium from Australia’s natural gas: A case study for advanced adsorption processes to concentrate dilute gases. This project will deliver breakthroughs in gas separation technologies for the production of helium from natural gas. Global demand for helium in critical medical, scientific and industrial applications is projected to grow at around five per cent per annum. To overcome the forecast short falls in helium production, new low cost and energy efficient technologies to recover helium from natural gas fields must be developed. This project will contribute novel microporous adsorbents, a better understanding of helium sorption kinetics and general methodologies for design of pressure swing adsorption processes to concentrate dilute mixtures.Read moreRead less
Novel gas-liquid columns for liquefied natural gas (LNG) production. Novel gas-liquid columns for liquefied natural gas (LNG) production. This project aims to design distillation and absorption columns, perhaps the most important unit operations in a liquefied natural gas (LNG) plant, and whose optimization is integral to overall performance of any LNG plant. This project will use 3D printers to rapidly prototype concepts of columns and their internals, and test them using flow characterization ....Novel gas-liquid columns for liquefied natural gas (LNG) production. Novel gas-liquid columns for liquefied natural gas (LNG) production. This project aims to design distillation and absorption columns, perhaps the most important unit operations in a liquefied natural gas (LNG) plant, and whose optimization is integral to overall performance of any LNG plant. This project will use 3D printers to rapidly prototype concepts of columns and their internals, and test them using flow characterization tools and numerical models. The final outcome of the project will be a set of designs of the columns, which should be more efficient, safer and cheaper to operate, and have smaller physical and environmental footprints, thus helping the Australian LNG industry to stay globally competitive.Read moreRead less
Vaporization of heavier gas oil in Fluid Catalytic Cracking risers. Fluid Catalytic Cracking (FCC) is an important refinery operation responsible for about 45 per cent of the total petrol produced. The project is aimed at improving production efficiency of Australian refineries by applying fundamental modelling to the FCC. The outcomes will enable refiners to produce cleaner fuel and decrease greenhouse gas emissions.