Novel carbon dioxide tolerant ceramic membranes for oxygen separation to improve the viability of clean energy technology. Conventional cryogenic air separation is a major economic impediment to the deployment of these low emission technologies like Callide oxyfuel combustion. This project will lead to the discovery of a new class of oxygen selective membranes for air separation with significantly reduced cost to improve the viability of these clean energy technologies.
Experimental and modelling development of advanced symmetrical fuel cells. Fuel cells are advanced energy conversion devices with high efficiency and low emissions. The overall goal of this project is to increase the competitiveness of the fuel cell technology with currently matured power generation technologies based on fossil fuel combustion through innovations. Both experimental development and modelling studies will be performed. It is expected that: reduced materials, fabrication and mainte ....Experimental and modelling development of advanced symmetrical fuel cells. Fuel cells are advanced energy conversion devices with high efficiency and low emissions. The overall goal of this project is to increase the competitiveness of the fuel cell technology with currently matured power generation technologies based on fossil fuel combustion through innovations. Both experimental development and modelling studies will be performed. It is expected that: reduced materials, fabrication and maintenance costs; improved performance; increased coking resistance and sulfur tolerance; and prolonged lifetime of solid oxide fuel cells will be achieved. This project endeavours to advance the field of electrochemical energy conversion. It is also expected to expand the science and engineering knowledge base and pave the way to sustainable energy systems.Read moreRead less
Innovative High Temperature Carbon–Air Batteries for High Power Generation. The project intends to develop carbon-air batteries which are expected to have energy density 10 times that of lithium-ion batteries. The battery is designed to use naturally-rich carbon as fuel, highly energy-efficient solid oxide fuel cells as electrochemical reactors, and an integrated mixed conducting ceramic membrane for in situ carbon dioxide separation. The success of this project would provide us with a low-carbo ....Innovative High Temperature Carbon–Air Batteries for High Power Generation. The project intends to develop carbon-air batteries which are expected to have energy density 10 times that of lithium-ion batteries. The battery is designed to use naturally-rich carbon as fuel, highly energy-efficient solid oxide fuel cells as electrochemical reactors, and an integrated mixed conducting ceramic membrane for in situ carbon dioxide separation. The success of this project would provide us with a low-carbon energy system based on Australia’s rich coal resources. New knowledge about carbon dioxide separation may also facilitate carbon dioxide sequestration in other fields.Read moreRead less