This paper investigates the concept of piezoaeroelasticity for energy harvesting. The focus is placed on mathematical modeling and experimental validations of the problem of generating electricity at the flutter boundary of a piezoaeroelastic airfoil. An electrical power output of 10.7 mW is delivered to a 100 k load at the linear flutter speed of 9.30 m/s (which is 5.1% larger than the short-circuit flutter speed). The effect of piezoelectric power generation on the linear flutter speed is also discussed and a useful consequence of having nonlinearities in the system is addressed. (C) 2010 American Institute of Physics. [doi:10.1063/1.3427405
In the present era, the possibility to generate electrical energy from an operational environment is...
In the present era, the possibility to generate electrical energy from an operational environment is...
This thesis work has been carried out at Clarkson University in Potsdam NY, USA and involved the des...
This paper investigates the concept of piezoaeroelasticity for energy harvesting. The focus is place...
Converting aeroelastic vibrations into electricity for low power generation has received growing att...
AbstractWe investigate experimentally how controlled freeplay nonlinearity affects harvesting energy...
In this paper, a piezoaeroelastic energy harvester based on an airfoil with double plunge degrees of...
The highly nonlinear phenomenon of fluid-structure interaction is discussed, including examples draw...
AbstractIn this letter, a piezoaeroelastic energy harvester based on an airfoil with double plunge d...
Piezoelectric Aeroelastic Energy Harvesting explains the design and implementation of piezoelectric ...
In the present era, the possibility to generate electrical energy from an operational environment is...
In the present era, the possibility to generate electrical energy from an operational environment is...
With the continuously decreasing power requirements of modern electronics, energy harvesting from so...
Unmanned air vehicles (UAVs) and micro air vehicles (MAVs) constitute unique application platforms f...
In the present era, the demand for self-powered electronic instruments is increasing and their energ...
In the present era, the possibility to generate electrical energy from an operational environment is...
In the present era, the possibility to generate electrical energy from an operational environment is...
This thesis work has been carried out at Clarkson University in Potsdam NY, USA and involved the des...
This paper investigates the concept of piezoaeroelasticity for energy harvesting. The focus is place...
Converting aeroelastic vibrations into electricity for low power generation has received growing att...
AbstractWe investigate experimentally how controlled freeplay nonlinearity affects harvesting energy...
In this paper, a piezoaeroelastic energy harvester based on an airfoil with double plunge degrees of...
The highly nonlinear phenomenon of fluid-structure interaction is discussed, including examples draw...
AbstractIn this letter, a piezoaeroelastic energy harvester based on an airfoil with double plunge d...
Piezoelectric Aeroelastic Energy Harvesting explains the design and implementation of piezoelectric ...
In the present era, the possibility to generate electrical energy from an operational environment is...
In the present era, the possibility to generate electrical energy from an operational environment is...
With the continuously decreasing power requirements of modern electronics, energy harvesting from so...
Unmanned air vehicles (UAVs) and micro air vehicles (MAVs) constitute unique application platforms f...
In the present era, the demand for self-powered electronic instruments is increasing and their energ...
In the present era, the possibility to generate electrical energy from an operational environment is...
In the present era, the possibility to generate electrical energy from an operational environment is...
This thesis work has been carried out at Clarkson University in Potsdam NY, USA and involved the des...