Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100069
Funder
Australian Research Council
Funding Amount
$200,000.00
Summary
A complete thermo-electric characterisation facility for exploration of novel materials and devices at high temperatures. This high temperature materials’ characterisation facility will be the most advanced measurement setup of its kind in Australia. The unique features of the equipment and its high versatility will substantially enhance national research capabilities in functional materials, metal engineering, manufacturing engineering, chemistry, and physics.
Design, build and test a fault current limiter employing magnesium diboride (MgB2) superconducting coils. Recent occurrences of blackouts around the world caused immeasurable damage to electrical network hardware in the range of $10M, however, the losses from an unavailable network are much more. The CIs and Zenergy Power Pty Ltd (formerly Australian Superconductors) have been developing saturated core fault current limiters (FCL) since 1999. The first saturated core fault current limiter employ ....Design, build and test a fault current limiter employing magnesium diboride (MgB2) superconducting coils. Recent occurrences of blackouts around the world caused immeasurable damage to electrical network hardware in the range of $10M, however, the losses from an unavailable network are much more. The CIs and Zenergy Power Pty Ltd (formerly Australian Superconductors) have been developing saturated core fault current limiters (FCL) since 1999. The first saturated core fault current limiter employing the Australian's entity's technology was installed in California. The aim of this proposal is to extend this technology to demonstrate next generation FCL using a newly developed superconductor magnesium diboride (MgB2) wire which is cheaper and easier to manufacture than high temperature superconductors and the CIs' group hold strong IP on nano-scale chemically doped MgB2 wires.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100986
Funder
Australian Research Council
Funding Amount
$401,000.00
Summary
High-performance, portable ion-mobility surface-acoustic wave spectrometry. This project aims to develop a high-performance, cost-effective, palm-portable differential ion mobility spectrometer for universal chemical analysis that operates at atmospheric pressure and consumes minimal power. A significant problem in current analytical chemistry is the lack of rapid and cost-effective methods that can be used in the field for analysis of many different chemical species of environmental and biologi ....High-performance, portable ion-mobility surface-acoustic wave spectrometry. This project aims to develop a high-performance, cost-effective, palm-portable differential ion mobility spectrometer for universal chemical analysis that operates at atmospheric pressure and consumes minimal power. A significant problem in current analytical chemistry is the lack of rapid and cost-effective methods that can be used in the field for analysis of many different chemical species of environmental and biological importance. The project expects to enable the rapid and simultaneous separation and detection of many different ions from complex mixtures with high selectivity and sensitivity. The spectrometer can be implemented in the field for various applications such as atmospheric monitoring, disease diagnosis and chemical weapons detection.Read moreRead less