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AuthorHafizh, Muhammad
AuthorMuthalif, Asan G.A.
AuthorRenno, Jamil
AuthorPaurobally, M.R.
Available date2024-05-14T03:51:41Z
Publication Date2022
Publication NameProceedings of the International Congress on Sound and Vibration
ResourceScopus
ISSN23293675
URIhttp://hdl.handle.net/10576/54932
AbstractPiezoelectric vibration energy harvesters can be utilized to harvest kinetic energy from fluid flow for remote sensing applications. Vortex formation behind a bluff body that is coupled to a beam oscillates with two frequencies in transverse and inline directions. A macro-fiber composite converts the mechanical strain in the beam to electricity that can power sensors for wireless monitoring and automation. Since the flow is random and broadband, the main challenge with the narrow frequency bandwidth of linear energy harvesting is the conversion efficiency. A passive airfoil beam design is proposed to self-align with the changing direction of flow. Computational simulations demonstrate the airfoil geometry has an optimal placement for piezoelectric patches. Additionally, its peak performance output is increased by 290% compared to a conventional beam of the same volume in modal analysis. This means that energy harvesting performance can be shown to be feasible for open-channel applications such as rivers. Also, the synchronization frequency spectrum highlights that low-velocity application is possible and presents a better alternative to turbines that suffer from electromechanical losses with miniaturization.
SponsorThis work was supported by Qatar University - International Research Collaboration Grant no. IRCC-2020-017 and QUST-1-CENG-2022-321. The findings achieved herein are solely the responsibility of the authors.
Languageen
PublisherSociety of Acoustics
SubjectEnergy harvesting
Piezoelectric
Self-aligning Airfoil
TitleAIRFOIL-BASED SELF-ADJUSTABLE PIEZOELECTRIC ENERGY HARVESTER IN FLUID-FLOW APPLICATIONS FOR PERFORMANCE OPTIMIZATION
TypeConference Paper
dc.accessType Abstract Only


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