Vibration-based piezoelectric micropower generator for power plant wireless monitoring application

Electric generators; Energy harvesting; MATLAB; Nanocantilevers; Piezoelectricity; Process monitoring; Sensor networks; Bimorph cantilever; Excitation conditions; Manufacturing process; Micro power generator; Piezoelectric; Piezoelectric micro-power generators; Vertical direction; Wireless monitorin...

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Main Authors: Kherbeet A.S., Salleh H., Salman B.H., Salim M.
Other Authors: 55260597800
Format: Article
Published: Elsevier Ltd 2023
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spelling my.uniten.dspace-222792023-05-29T13:59:59Z Vibration-based piezoelectric micropower generator for power plant wireless monitoring application Kherbeet A.S. Salleh H. Salman B.H. Salim M. 55260597800 24067645400 48461700800 57197124324 Electric generators; Energy harvesting; MATLAB; Nanocantilevers; Piezoelectricity; Process monitoring; Sensor networks; Bimorph cantilever; Excitation conditions; Manufacturing process; Micro power generator; Piezoelectric; Piezoelectric micro-power generators; Vertical direction; Wireless monitoring; Electric machine theory; experimental study; manufacturing; monitoring system; performance assessment; power generation; power plant; sensor; vibration This paper investigates the factors affecting the performance of a vibration based micropower generator for a power plant wireless monitoring application. A bimorph bender, one of micropower generator methods, was used in this work. The ANSYS program was used to study the distribution of stress-strain in each model design, and MATLAB was used to simulate and investigate the extracted power. Triangular, rectangular and trapezoidal cantilevers were chosen to analyse the effect of the bender shape on the power produced. The tests were conducted using the same input excitation conditions (10m/s2), frequency range of (50-150Hz). The effect of the configuration arrangement (horizontal and vertical) of the PZT bimorph cantilever on the power generation (poling series) was also investigated. The simulation result showed that the maximum stress-strain value was produced in the triangular bender shape with equal distribution on all the surface areas. The measurements' results showed that the triangular cantilever produced maximum power compared to other bender shapes for both horizontal and vertical directions and single test. The horizontal and vertical arrangements of the cantilevers showed that the vertical arrangement could produce more power than the horizontal arrangement. The experimental results showed concurrence with theoretical models. � 2015 Elsevier Ltd. Final 2023-05-29T05:59:59Z 2023-05-29T05:59:59Z 2015 Article 10.1016/j.seta.2015.05.004 2-s2.0-84934981194 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84934981194&doi=10.1016%2fj.seta.2015.05.004&partnerID=40&md5=aba61ba378cbef761d824edea90b8321 https://irepository.uniten.edu.my/handle/123456789/22279 11 42 52 Elsevier Ltd Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
description Electric generators; Energy harvesting; MATLAB; Nanocantilevers; Piezoelectricity; Process monitoring; Sensor networks; Bimorph cantilever; Excitation conditions; Manufacturing process; Micro power generator; Piezoelectric; Piezoelectric micro-power generators; Vertical direction; Wireless monitoring; Electric machine theory; experimental study; manufacturing; monitoring system; performance assessment; power generation; power plant; sensor; vibration
author2 55260597800
author_facet 55260597800
Kherbeet A.S.
Salleh H.
Salman B.H.
Salim M.
format Article
author Kherbeet A.S.
Salleh H.
Salman B.H.
Salim M.
spellingShingle Kherbeet A.S.
Salleh H.
Salman B.H.
Salim M.
Vibration-based piezoelectric micropower generator for power plant wireless monitoring application
author_sort Kherbeet A.S.
title Vibration-based piezoelectric micropower generator for power plant wireless monitoring application
title_short Vibration-based piezoelectric micropower generator for power plant wireless monitoring application
title_full Vibration-based piezoelectric micropower generator for power plant wireless monitoring application
title_fullStr Vibration-based piezoelectric micropower generator for power plant wireless monitoring application
title_full_unstemmed Vibration-based piezoelectric micropower generator for power plant wireless monitoring application
title_sort vibration-based piezoelectric micropower generator for power plant wireless monitoring application
publisher Elsevier Ltd
publishDate 2023
_version_ 1806427984024829952
score 13.214268