Modelling of fluidelastic instability in a square inline tube array including the boundary layer effect
Flow-induced vibration (FIV) is a design concern in many engineering applications such as tube bundles in heat exchangers. When FIV materializes, it often results in fatigue and/or fretting wear of the tubes, leading to their failure. Three cross-flow excitation mechanisms are responsible for such f...
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| Published in | Journal of fluids and structures Vol. 48; pp. 362 - 375 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Elsevier Ltd
01.07.2014
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0889-9746 1095-8622 |
| DOI | 10.1016/j.jfluidstructs.2014.03.003 |
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| Abstract | Flow-induced vibration (FIV) is a design concern in many engineering applications such as tube bundles in heat exchangers. When FIV materializes, it often results in fatigue and/or fretting wear of the tubes, leading to their failure. Three cross-flow excitation mechanisms are responsible for such failures: random turbulence excitation, Strouhal periodicity, and fluidelastic instability. Of these three mechanisms, fluidelastic instability has the greatest potential for destruction. Because of this, a large amount of research has been conducted to understand and predict this mechanism. This paper presents a time domain model to predict the fluidelastic instability forces in a tube array. The proposed model accounts for temporal variations in the flow separation. The unsteady boundary layer is solved numerically and coupled with the structure model and the far field flow model. It is found that including the boundary layer effect results in a lower stability threshold. This is primarily due to a larger fluidelastic force effect on the tube. The increase in the fluidelastic effect is attributed to the phase difference between the boundary layer separation point motion and the tube motion. It is also observed that a non-linear limit cycle is predicted by the proposed model. |
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| AbstractList | Flow-induced vibration (FIV) is a design concern in many engineering applications such as tube bundles in heat exchangers. When FIV materializes, it often results in fatigue and/or fretting wear of the tubes, leading to their failure. Three cross-flow excitation mechanisms are responsible for such failures: random turbulence excitation, Strouhal periodicity, and fluidelastic instability. Of these three mechanisms, fluidelastic instability has the greatest potential for destruction. Because of this, a large amount of research has been conducted to understand and predict this mechanism. This paper presents a time domain model to predict the fluidelastic instability forces in a tube array. The proposed model accounts for temporal variations in the flow separation. The unsteady boundary layer is solved numerically and coupled with the structure model and the far field flow model. It is found that including the boundary layer effect results in a lower stability threshold. This is primarily due to a larger fluidelastic force effect on the tube. The increase in the fluidelastic effect is attributed to the phase difference between the boundary layer separation point motion and the tube motion. It is also observed that a non-linear limit cycle is predicted by the proposed model. |
| Author | Hassan, Marwan Mohany, Atef Anderson, Burns |
| Author_xml | – sequence: 1 givenname: Burns surname: Anderson fullname: Anderson, Burns organization: School of Engineering, University of Guelph, Guelph, Canada – sequence: 2 givenname: Marwan surname: Hassan fullname: Hassan, Marwan organization: School of Engineering, University of Guelph, Guelph, Canada – sequence: 3 givenname: Atef surname: Mohany fullname: Mohany, Atef email: atef.mohany@uoit.ca organization: Faculty of Engineering and Applied Science, University of Ontario Institute of Technology, Oshawa, Canada |
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| Cites_doi | 10.1115/PVP2011-57263 10.1006/jfls.1995.1028 10.1115/1.3264196 10.1098/rspa.1982.0043 10.1006/jfls.1993.1030 10.1016/0045-7825(93)90222-J 10.1006/jfls.1993.1044 10.1115/1.4006854 10.1016/0022-460X(84)90512-1 10.1016/S0889-9746(88)90137-5 10.1016/0029-5493(96)01234-4 10.1006/jfls.1993.1045 10.1115/1.4020555 10.1016/j.jfluidstructs.2003.08.013 10.1115/1.4001700 10.1016/S0022-460X(81)80005-3 10.1006/jfls.2002.0468 10.1016/j.nucengdes.2008.05.014 10.1016/j.jfluidstructs.2013.09.014 10.1146/annurev.fl.10.010178.002221 10.1016/0022-460X(90)90808-D 10.1016/S0022-460X(86)80115-8 |
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| Snippet | Flow-induced vibration (FIV) is a design concern in many engineering applications such as tube bundles in heat exchangers. When FIV materializes, it often... |
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| SubjectTerms | Arrays Boundary layer Fatigue failure Flow-induced vibrations Fluidelastic instability Instability Mathematical models Stability Time-domain modelling Tube arrays Tubes Turbulent flow Unsteady boundary layer |
| Title | Modelling of fluidelastic instability in a square inline tube array including the boundary layer effect |
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