Wind-Induced Vibration Energy Harvesting Using Piezoelectric Transducers Coupled with Dynamic Magnification


Autoria(s): Baker, Austin; Connolly, Kathryn; Dorsey, Lauren; Grissom, Ian; Grobicki, Alden; Keller, Kevin; Kittur, Chandan; Konecki, Daniel; Lee, Mark; Lee, Timothy; Ma, Boheng; Mulhern, Edward; Ng, Andrea; Patel, Mihir
Contribuinte(s)

Baz, Amr

Data(s)

16/07/2014

16/07/2014

2014

Resumo

Flexible cylindrical structures subjected to wind loading experience vibrations from periodic shedding of vortices in their wake. Vibrations become excessive when the natural frequencies of the cylinder coincide with the vortex shedding frequency. In this study, cylinder vibrations are transmitted to a beam inside the structure via dynamic magnifier system. This system amplifies the strain experienced by piezoelectric patches bonded to the beam to maximize the conversion from vibrational energy into electrical energy. Realworld applicability is tested using a wind tunnel to create vortex shedding and comparing the results to finite element modeling that shows the structural vibrational modes. A crucial part of this study is conditioning and storing the harvested energy, focusing on theoretical modeling, design parameter optimization, and experimental validation. The developed system is helpful in designing wind-induced energy harvesters to meet the necessity for novel energy resources.

Identificador

http://hdl.handle.net/1903/15537

Idioma(s)

en_US

Relação

Digital Repository at the University of Maryland

Gemstone Program, University of Maryland (College Park, Md)

Palavras-Chave #Vibration #Piezoelectricity #Wind power #Gemstone Team PRESSURE
Tipo

Thesis