Jesse McCarthy scite author profile

The growing area of harvesting energy by aerodynamically-induced flutter in a fluid stream is reviewed. Numerous approaches were found to understand, demonstrate and [sometimes] optimise harvester performance based on Movement-Induced or Extraneously-Induced Excitation. Almost all research was conducted in smooth, unidirectional flow domains; either experimental or computational. The power outputs were found to be very low when compared to conventional wind turbines, but potential advantages could be lower noise levels. A consideration of the likely outdoor environment for fluttering harvesters revealed the flow would be highly turbulent and having a mean flow angle in the horizontal plane that could approach a harvester from any direction. Whilst some multiple harvester systems in smooth, well-aligned flow found enhanced efficiency (due to beneficial wake interaction) this would require an invariant flow approach angle. It was concluded that further work needs to be performed to find a universally accepted metric for efficiency and to understand the effects of the realities of the outdoors, including the highly variable and turbulent flow conditions likely to be experienced.

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On the visualisation of flow structures downstream of fluttering piezoelectric energy harvesters in a tandem configuration

McCarthy

Deivasigamani

Watkins

et al. 2014

Experimental Thermal and Fluid Science

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Downstream flow structures of a fluttering piezoelectric energy harvester

McCarthy

Deivasigamani

John

et al. 2013

Experimental Thermal and Fluid Science

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An investigation of fluttering piezoelectric energy harvesters in off-axis and turbulent flows

McCarthy

Watkins

Deivasigamani

et al. 2015

Journal of Wind Engineering and Industrial Aerodynamics

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Piezoelectric Energy Harvesting from Wind Using Coupled Bending-Torsional Vibrations

Deivasigamani¹,

McCarthy²,

John³

et al. 2014

MAS

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Jesse McCarthy

Fluttering energy harvesters in the wind: A review

On the visualisation of flow structures downstream of fluttering piezoelectric energy harvesters in a tandem configuration

Downstream flow structures of a fluttering piezoelectric energy harvester

An investigation of fluttering piezoelectric energy harvesters in off-axis and turbulent flows

Piezoelectric Energy Harvesting from Wind Using Coupled Bending-Torsional Vibrations

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