High power density, low cogging torque and low-cost micro-scale wind turbine generator system utilising soft magnetic composite materials. This project will develop a low-cost, high-performance and high-ef?ciency micro-scale wind turbine generator using a new magnetic material consisting of iron powder, which can be easily pressed into any desirable shape. This allows considerably simpli?ed manufacturing, greater design ?exibility and ease of scaling to higher output powers.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100109
Funder
Australian Research Council
Funding Amount
$240,000.00
Summary
Raman Spectroscopic System for In-Operando Electrochemical Studies. This proposal aims to establish a Raman microscopic system with real-time tracking capability, which will allow investigation of the activities of battery components during charging. An instrument that allows this level of interrogation is currently not available in Australia. Expected outcomes include advanced knowledge for improved battery technology, which will meet the increasing demand of electronic applications and provide ....Raman Spectroscopic System for In-Operando Electrochemical Studies. This proposal aims to establish a Raman microscopic system with real-time tracking capability, which will allow investigation of the activities of battery components during charging. An instrument that allows this level of interrogation is currently not available in Australia. Expected outcomes include advanced knowledge for improved battery technology, which will meet the increasing demand of electronic applications and provide commercial opportunities in Australia. This system will be highly versatile and extendable to other fields of energy and materials-related research, providing high-quality training of researchers, as well as a platform from which to enhance materials research capabilities in Australia.Read moreRead less