Resolving the mechanics of wind turbine noise production. This project will investigate how wind turbines produce noise. It will do this by developing the most sophisticated wind turbine noise experiment in the world, which will allow the construction of better designed wind farms, better public policy and new noise control technologies.
Discovery Early Career Researcher Award - Grant ID: DE150101306
Funder
Australian Research Council
Funding Amount
$365,000.00
Summary
Porous Metal Phosphonate Ion Exchange Membranes for Redox Flow Batteries. The high-performance storage and utilisation of renewable energy, such as solar and wind energy, will provide a direct response to Australia's energy and climate issues. This project aims to develop porous metal phosphonate ion exchange membranes, which can be used in the redox flow battery, one of the most powerful, large-scale energy storage devices, with large capacity, high efficiency, long life and low cost. The proje ....Porous Metal Phosphonate Ion Exchange Membranes for Redox Flow Batteries. The high-performance storage and utilisation of renewable energy, such as solar and wind energy, will provide a direct response to Australia's energy and climate issues. This project aims to develop porous metal phosphonate ion exchange membranes, which can be used in the redox flow battery, one of the most powerful, large-scale energy storage devices, with large capacity, high efficiency, long life and low cost. The project aims to improve the overall performance and fabrication of redox flow batteries, promote capacity and efficiency, and reduce the cost of renewable energy storage thereby benefiting the Australian economy and environment.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150101528
Funder
Australian Research Council
Funding Amount
$345,000.00
Summary
Resolving the mechanics of wall-mounted finite airfoil noise production. Noise from air transportation and wind turbines is a rapidly growing component of environmental noise pollution that must be reduced to improve public health and well-being. A submarine must also have a low acoustic signature to ensure its stealthiness. The common source of noise generation among these technologies is the airfoil, yet we do not understand how they create noise in real, complex environments. This project aim ....Resolving the mechanics of wall-mounted finite airfoil noise production. Noise from air transportation and wind turbines is a rapidly growing component of environmental noise pollution that must be reduced to improve public health and well-being. A submarine must also have a low acoustic signature to ensure its stealthiness. The common source of noise generation among these technologies is the airfoil, yet we do not understand how they create noise in real, complex environments. This project aims to understand how fluid flow interacts with a wall-mounted finite airfoil to produce sound. The project aims to identify the noise producing physics via a novel wind tunnel experiment and numerical study. This enhanced understanding will create better airfoil noise prediction and control strategies in the future.Read moreRead less