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Title
Optimal Dimensions for Beam Power Harvester for Maximum Power Output
Description
In the last several years, there has been a significant growth in research in the field of power harvesting, the process of capturing the energy surrounding a system and converting it into usable electrical energy. This concept has received particular interest in recent years with the ever-increasing production of portable and wireless electronic devices. Many of these devices that are currently in production utilize electrochemical batteries as a power source, which while effective, maintain the drawback of having a finite energy supply, thus requiring periodic replacement. The concept of power harvesting, however, works to solve these issues through electronics that are designed to capture ambient energy surrounding them convert it into usable electronic energy. The use of power harvesting in energy scavenging devices allows for the possible development of devices that are self-powered and do not require their power sources to be replaced. Several models have been developed by Soldano et al [3] and Liao et al [2] that have been proven accurate at predicting the power output of a piezoelectric power harvester in a cantileaver beam configuration. The work in this paper will expand further on the model developed by Liao et al [2], and as its main goal will use a modified form of that model to predict the optimal dimensions for a beam power harvester to achieve the maximum power output possible. The model will be updated b replacing the mode shape function used to approximate the deflection of the beam with the true defletion, which is based on the complex wavenumber that incorporates the complex Young's modulus of the material used. Other changes to account for this replacement will also be presented, along with numerical results of the final model.
Date Created
2012-05
Contributors
- Winterstein, Joshua (Author)
- Liao, Yabin (Thesis director)
- Jiang, Hanqing (Committee member)
- Chen, Kangping (Committee member)
- Barrett, The Honors College (Contributor)
Topical Subject
Resource Type
Extent
38 pages
Language
eng
Copyright Statement
In Copyright
Primary Member of
Series
Academic Year 2011-2012
Handle
https://hdl.handle.net/2286/R.I.30313
Level of coding
minimal
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System Created
- 2017-10-30 02:50:57
System Modified
- 2021-07-16 10:38:41
- 3 years 3 months ago
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