The mechanics of quiet airfoils. Airfoil trailing edge noise affects many technologies, from wind turbines to computer cooling fans and must be reduced to improve productivity, public health and the environment. This project aims to develop a new class of quiet airfoil design and an active trailing edge noise control system to help solve this important problem. This research will provide multiple, long terms benefits to Australia that include reduced greenhouse gas emissions, reduced airport no ....The mechanics of quiet airfoils. Airfoil trailing edge noise affects many technologies, from wind turbines to computer cooling fans and must be reduced to improve productivity, public health and the environment. This project aims to develop a new class of quiet airfoil design and an active trailing edge noise control system to help solve this important problem. This research will provide multiple, long terms benefits to Australia that include reduced greenhouse gas emissions, reduced airport noise, new high technology products for export, and improved public health.Read moreRead less
Design and development of an innovative next generation wind driven rotating ventilator. With increasing environmental awareness, the demand for a wind-driven rotating ventilator for natural ventilation in dwellings, factories and transport vehicles is rising dramatically. This device requires no expenditure to operate or maintain and is pollution-free. However, significant safety concerns for its operation in high wind and rain remain. This project will facilitate a greater understanding of the ....Design and development of an innovative next generation wind driven rotating ventilator. With increasing environmental awareness, the demand for a wind-driven rotating ventilator for natural ventilation in dwellings, factories and transport vehicles is rising dramatically. This device requires no expenditure to operate or maintain and is pollution-free. However, significant safety concerns for its operation in high wind and rain remain. This project will facilitate a greater understanding of the complex flow phenomenon and produce innovative aerodynamic and smart solutions. The outcomes will establish Australia as the leading provider of air quality and comfort in the world, benefit particularly the rural sector and have significant positive impact on the national economy and environment.Read moreRead less
Computing transient inflow receptivity with application to high-lift airfoils. Applications of the research will lead to more efficient wind and gas turbines, thereby reducing greenhouse gas emissions in power generation and air transport. The project will provide high-level research training for a Research Fellow and a PhD student in an emerging area that links fundamental fluid mechanics, optimal control and optimal engineering design. Also the project will foster international collaboration w ....Computing transient inflow receptivity with application to high-lift airfoils. Applications of the research will lead to more efficient wind and gas turbines, thereby reducing greenhouse gas emissions in power generation and air transport. The project will provide high-level research training for a Research Fellow and a PhD student in an emerging area that links fundamental fluid mechanics, optimal control and optimal engineering design. Also the project will foster international collaboration with partner researchers and organizations in the United Kingdom.Read moreRead less