Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775550
Funder
Australian Research Council
Funding Amount
$345,000.00
Summary
Characterisation Equipment for Advanced Gas Separation Applications. The proposed research will lead to the synthesis of new advanced materials capable of performing new and existing separations more efficiently than previous methods. We therefore expect the new materials to directly benefit the community through improved removal and recovery of a wide range of pollutants which would otherwise enter the environment. This research is directly aligned to the National Research Priority of Frontie ....Characterisation Equipment for Advanced Gas Separation Applications. The proposed research will lead to the synthesis of new advanced materials capable of performing new and existing separations more efficiently than previous methods. We therefore expect the new materials to directly benefit the community through improved removal and recovery of a wide range of pollutants which would otherwise enter the environment. This research is directly aligned to the National Research Priority of Frontier Technologies for Building and Transforming Australian Industries: Advanced Materials.Read moreRead less
A novel mineral looping tar removal process for biomass gasification. A novel mineral looping tar removal process for biomass gasification. This project aims to develop a simple, robust and cost effective method for removing tar from biomass gasification processes. The solution (Mineral Looping Tar Removal) involves the cyclic carbonation and calcination of a mixture of naturally occurring minerals and/or solid waste to remove tar. This project will bring together energy researchers and renewabl ....A novel mineral looping tar removal process for biomass gasification. A novel mineral looping tar removal process for biomass gasification. This project aims to develop a simple, robust and cost effective method for removing tar from biomass gasification processes. The solution (Mineral Looping Tar Removal) involves the cyclic carbonation and calcination of a mixture of naturally occurring minerals and/or solid waste to remove tar. This project will bring together energy researchers and renewable energy developers to resolve science and engineering issues that underpin the performance degradation of these minerals in large-scale settings. Project outcomes include improved understanding of gas cleaning and a cost effective and environmentally sound technology.Read moreRead less
Advanced membranes for energy-efficient electrochemical conversion of carbon dioxide to fuel. This project proposes to develop a technology to convert carbon dioxide to liquid fuels using renewable energy as the required energy source. The project will therefore help in the mitigation of carbon dioxide emissions and offset the depletion of fossil fuel reserves.