TELKOMNIKA Telecommunication Computing Electronics and Control
Performance of piezoelectric energy harvester with vortex-
induced vibration and various bluff bodies
Dublin Core
Title
TELKOMNIKA Telecommunication Computing Electronics and Control
Performance of piezoelectric energy harvester with vortex-
induced vibration and various bluff bodies
Performance of piezoelectric energy harvester with vortex-
induced vibration and various bluff bodies
Subject
Bluff body
Energy harvester
Piezoelectric
Vortex
Energy harvester
Piezoelectric
Vortex
Description
Piezoelectric energy harvesters (PEHs) are a kind of energy harvester that
generates electricity due to pressure or vibration. Vortex-induced vibration
(VIV) is a method that utilized wind energy and bluff body to generate the
vibration in PEH. The objective of this research was to study the output
voltage that generates in different bluff bodies with various airflow
velocities. Experimental and simulation have done in this study.
Experimental used PEH that consists of piezoelectric bimorph and
rectangular-trapezoid fin. Bluff bodies with various cross-sectional areas,
namely rhombus, square, and triangle were set up in front of the PEH at a
distance of 80 cm. The various air velocities are set up to 5, 7, and 9 m/s in
the wind tunnel with a cross-section of 250 mm × 250 mm. The simulation
used the finite element method in explore the fluid flow pattern.
The rhombus cross-sectional bluff body can generate voltage with an
average of 1.5 volts. It is more voltage generated than a square and triangle.
A vortex is formed near the rhombus bluff body and generates pressure
fluctuation in its wake region. This pressure fluctuation takes place until
airflow hits and leads PEH to vibrate and generate the voltage.
generates electricity due to pressure or vibration. Vortex-induced vibration
(VIV) is a method that utilized wind energy and bluff body to generate the
vibration in PEH. The objective of this research was to study the output
voltage that generates in different bluff bodies with various airflow
velocities. Experimental and simulation have done in this study.
Experimental used PEH that consists of piezoelectric bimorph and
rectangular-trapezoid fin. Bluff bodies with various cross-sectional areas,
namely rhombus, square, and triangle were set up in front of the PEH at a
distance of 80 cm. The various air velocities are set up to 5, 7, and 9 m/s in
the wind tunnel with a cross-section of 250 mm × 250 mm. The simulation
used the finite element method in explore the fluid flow pattern.
The rhombus cross-sectional bluff body can generate voltage with an
average of 1.5 volts. It is more voltage generated than a square and triangle.
A vortex is formed near the rhombus bluff body and generates pressure
fluctuation in its wake region. This pressure fluctuation takes place until
airflow hits and leads PEH to vibrate and generate the voltage.
Creator
Adhes Gamayel, Mohamad Zaenudin, Brainvendra Widi Dionova
Source
http://telkomnika.uad.ac.id
Date
Feb 16, 2023
Contributor
peri irawan
Format
pdf
Language
english
Type
text
Files
Collection
Citation
Adhes Gamayel, Mohamad Zaenudin, Brainvendra Widi Dionova, “TELKOMNIKA Telecommunication Computing Electronics and Control
Performance of piezoelectric energy harvester with vortex-
induced vibration and various bluff bodies,” Repository Horizon University Indonesia, accessed April 19, 2025, https://repository.horizon.ac.id/items/show/4570.
Performance of piezoelectric energy harvester with vortex-
induced vibration and various bluff bodies,” Repository Horizon University Indonesia, accessed April 19, 2025, https://repository.horizon.ac.id/items/show/4570.