A thermal battery for dish-Stirling concentrated solar power systems. This project will investigate new high temperature (> 600 degrees Celsius) metal hydrides and carbonates suitable for thermochemical energy storage in dish-Stirling Concentrated Solar Power systems. The intended outcome is to discover cost effective, energy dense materials that are capable of operating over a 30 year life span in a solar power plant. This will enable 24/7 electricity production from renewable sources in a disp ....A thermal battery for dish-Stirling concentrated solar power systems. This project will investigate new high temperature (> 600 degrees Celsius) metal hydrides and carbonates suitable for thermochemical energy storage in dish-Stirling Concentrated Solar Power systems. The intended outcome is to discover cost effective, energy dense materials that are capable of operating over a 30 year life span in a solar power plant. This will enable 24/7 electricity production from renewable sources in a dispatchable solar platform, ideal for remote locations. The successful development of high temperature metal hydrides and carbonates will finally provide an energy storage solution to dish-Stirling Concentrated Solar Power systems, which will greatly reduce our reliance on fossil fuels to produce electricity.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989487
Funder
Australian Research Council
Funding Amount
$350,000.00
Summary
The National Hydrogen Materials Reference Facility. Hydrogen energy technology is a vital element in the global response to climate change owing to increasing atmospheric carbon dioxide levels from burning fossil fuels. Hydrogen is a universal energy carrier that facilitates the transformation of energy from renewable and other sources for applications in industry, transport and homes. The National Hydrogen Materials Reference Facility is a multidisciplinary, state-of-the-art experimental facili ....The National Hydrogen Materials Reference Facility. Hydrogen energy technology is a vital element in the global response to climate change owing to increasing atmospheric carbon dioxide levels from burning fossil fuels. Hydrogen is a universal energy carrier that facilitates the transformation of energy from renewable and other sources for applications in industry, transport and homes. The National Hydrogen Materials Reference Facility is a multidisciplinary, state-of-the-art experimental facility for materials science supporting excellent research into advanced materials for hydrogen generation from fossil fuels and by solar means, hydrogen storage for automotive and stationary applications, hydrogen distribution and hydrogen end use, particularly in fuel cells that generate electricity.Read moreRead less