Numerical investigations of the flow-induced vibration of a three-dimensional circular cylinder with various symmetric strips attached

Changes to the surface morphology of a cylinder immersed in a uniform flow may affect the surrounding flow characteristics. Circular cylinders with various symmetric strips attached are ideal models for studying this subject. This study investigates the flow-induced vibration (FIV) of a three-dimens...

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Published inPhysics of fluids (1994) Vol. 34; no. 6
Main Authors Ma, Chunhui, Zhao, Weiwen, Wan, Decheng
Format Journal Article
LanguageEnglish
Published Melville American Institute of Physics 01.06.2022
Subjects
Circular cylinders
Detached eddy simulation
Eddy simulation
Flow characteristics
Flow generated vibrations
Fluid dynamics
Flutter
Physics
Three dimensional flow
Uniform flow
Vibration response
Vortex-induced vibrations
Online AccessGet full text
ISSN1070-6631
1089-7666
DOI10.1063/5.0087312

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Abstract Changes to the surface morphology of a cylinder immersed in a uniform flow may affect the surrounding flow characteristics. Circular cylinders with various symmetric strips attached are ideal models for studying this subject. This study investigates the flow-induced vibration (FIV) of a three-dimensional cylinder with symmetric strips attached using the delayed detached-eddy simulation method. First, the effects of the 22 different types of strip parameters are evaluated on the fixed cylinder. Then, P5-60-20 (location α = 60 °, coverage β = 20 °, and thickness h / D = 5 %) is chosen to explore the transverse FIV. P5-60-20 vibration responses exhibit four distinct branches—initial branch, passive upper branch, transition branch from vortex-induced vibration (VIV) to galloping, and pure galloping—which correspond to the classic initial, upper, lower, and desynchronization regions of the circular cylinder. Through a detailed discussion of each branch, it is discovered that the passive upper branch is significantly different from the upper branch, despite their similar vibration amplitudes and frequencies. The upper branch is induced by the flutter in the presence of intense three-dimensional flow. However, the passive upper branch is caused by symmetric strips, which promote spanwise correlation, prevent lift phase shifting, and dampen the effect of three-dimensional flow. Consequently, at higher reduced velocities, the transition from VIV to galloping and pure galloping is triggered.
AbstractList Changes to the surface morphology of a cylinder immersed in a uniform flow may affect the surrounding flow characteristics. Circular cylinders with various symmetric strips attached are ideal models for studying this subject. This study investigates the flow-induced vibration (FIV) of a three-dimensional cylinder with symmetric strips attached using the delayed detached-eddy simulation method. First, the effects of the 22 different types of strip parameters are evaluated on the fixed cylinder. Then, P5-60-20 (location α=60°, coverage β=20°, and thickness h/D=5%) is chosen to explore the transverse FIV. P5-60-20 vibration responses exhibit four distinct branches—initial branch, passive upper branch, transition branch from vortex-induced vibration (VIV) to galloping, and pure galloping—which correspond to the classic initial, upper, lower, and desynchronization regions of the circular cylinder. Through a detailed discussion of each branch, it is discovered that the passive upper branch is significantly different from the upper branch, despite their similar vibration amplitudes and frequencies. The upper branch is induced by the flutter in the presence of intense three-dimensional flow. However, the passive upper branch is caused by symmetric strips, which promote spanwise correlation, prevent lift phase shifting, and dampen the effect of three-dimensional flow. Consequently, at higher reduced velocities, the transition from VIV to galloping and pure galloping is triggered.
Changes to the surface morphology of a cylinder immersed in a uniform flow may affect the surrounding flow characteristics. Circular cylinders with various symmetric strips attached are ideal models for studying this subject. This study investigates the flow-induced vibration (FIV) of a three-dimensional cylinder with symmetric strips attached using the delayed detached-eddy simulation method. First, the effects of the 22 different types of strip parameters are evaluated on the fixed cylinder. Then, P5-60-20 (location α = 60 °, coverage β = 20 °, and thickness h / D = 5 %) is chosen to explore the transverse FIV. P5-60-20 vibration responses exhibit four distinct branches—initial branch, passive upper branch, transition branch from vortex-induced vibration (VIV) to galloping, and pure galloping—which correspond to the classic initial, upper, lower, and desynchronization regions of the circular cylinder. Through a detailed discussion of each branch, it is discovered that the passive upper branch is significantly different from the upper branch, despite their similar vibration amplitudes and frequencies. The upper branch is induced by the flutter in the presence of intense three-dimensional flow. However, the passive upper branch is caused by symmetric strips, which promote spanwise correlation, prevent lift phase shifting, and dampen the effect of three-dimensional flow. Consequently, at higher reduced velocities, the transition from VIV to galloping and pure galloping is triggered.
Author Ma, Chunhui
Wan, Decheng
Zhao, Weiwen
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Snippet Changes to the surface morphology of a cylinder immersed in a uniform flow may affect the surrounding flow characteristics. Circular cylinders with various...
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SubjectTerms Circular cylinders
Detached eddy simulation
Eddy simulation
Flow characteristics
Flow generated vibrations
Fluid dynamics
Flutter
Physics
Three dimensional flow
Uniform flow
Vibration response
Vortex-induced vibrations
Title Numerical investigations of the flow-induced vibration of a three-dimensional circular cylinder with various symmetric strips attached
URI http://dx.doi.org/10.1063/5.0087312
https://www.proquest.com/docview/2672137590
Volume 34
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