Flow-induced oscillations of three tandem circular cylinders in a two-dimensional flow

Flow-induced oscillations of three identical circular cylinders, arranged in tandem configuration, are studied via two-dimensional finite element computations. Cylinders are mounted on elastic supports in the streamwise and transverse directions. Each downstream cylinder is placed at a distance of 5...

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Published inJournal of fluids and structures Vol. 91; p. 102711
Main Authors Behara, Suresh, Chandra, Venu, Ravikanth, B.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.11.2019
Subjects
Cylinder trajectories
Flow-induced oscillations
Hysteresis
Lock-in
Primary vortex shedding
Lock-in
Cylinder trajectories
Primary vortex shedding
Hysteresis
Flow-induced oscillations
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Abstract Flow-induced oscillations of three identical circular cylinders, arranged in tandem configuration, are studied via two-dimensional finite element computations. Cylinders are mounted on elastic supports in the streamwise and transverse directions. Each downstream cylinder is placed at a distance of 5 diameters (5D) from its immediate upstream neighbor. Nondimensional mass ( m∗) of 2, and zero damping (ξ) are considered. Simulations are performed with the objective of understanding dynamic response of cylinders, as they are subject to wake interference, at constant Reynolds number, Re=150, and for varying reduced velocity (U∗) in the range of U∗=2−14. Similar to the behavior of an isolated cylinder at low Re, oscillation response of the upstream body exhibits initial excitation and lower lock-in regimes. However, for both the downstream cylinders, depending on their amplitude and frequency responses, the synchronization regime of U∗ can be categorized into three distinct regions: initial excitation, upper and lower lock-in regions. First downstream cylinder undergoes gradual transition between initial excitation and upper region, whereas the second downstream body exhibits this transition in two phases, which are separated by a periodic oscillation response regime. Upper lock-in region is characterized by periodic oscillations, while amplitude is modulated in the lower region. Only 2S shedding mode is observed for all the U∗ considered.
AbstractList Flow-induced oscillations of three identical circular cylinders, arranged in tandem configuration, are studied via two-dimensional finite element computations. Cylinders are mounted on elastic supports in the streamwise and transverse directions. Each downstream cylinder is placed at a distance of 5 diameters (5D) from its immediate upstream neighbor. Nondimensional mass ( m∗) of 2, and zero damping (ξ) are considered. Simulations are performed with the objective of understanding dynamic response of cylinders, as they are subject to wake interference, at constant Reynolds number, Re=150, and for varying reduced velocity (U∗) in the range of U∗=2−14. Similar to the behavior of an isolated cylinder at low Re, oscillation response of the upstream body exhibits initial excitation and lower lock-in regimes. However, for both the downstream cylinders, depending on their amplitude and frequency responses, the synchronization regime of U∗ can be categorized into three distinct regions: initial excitation, upper and lower lock-in regions. First downstream cylinder undergoes gradual transition between initial excitation and upper region, whereas the second downstream body exhibits this transition in two phases, which are separated by a periodic oscillation response regime. Upper lock-in region is characterized by periodic oscillations, while amplitude is modulated in the lower region. Only 2S shedding mode is observed for all the U∗ considered.
ArticleNumber 102711
Author Behara, Suresh
Chandra, Venu
Ravikanth, B.
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  surname: Ravikanth
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  organization: ESS Engineering Software Steyr GmbH, Berggasse 35, 4400 Steyr, Austria
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Keywords Lock-in
Cylinder trajectories
Primary vortex shedding
Hysteresis
Flow-induced oscillations
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Snippet Flow-induced oscillations of three identical circular cylinders, arranged in tandem configuration, are studied via two-dimensional finite element computations....
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elsevier
SourceType Enrichment Source
Index Database
Publisher
StartPage 102711
SubjectTerms Cylinder trajectories
Flow-induced oscillations
Hysteresis
Lock-in
Primary vortex shedding
Title Flow-induced oscillations of three tandem circular cylinders in a two-dimensional flow
URI https://dx.doi.org/10.1016/j.jfluidstructs.2019.102711
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