0
TECHNICAL PAPERS

Experimental Study on the Avoidance and Suppression Criteria for the Vortex-Induced Vibration of a Cantilever Cylinder

[+] Author and Article Information
Takaaki Sakai, Masaki Morishita, Koji Iwata, Seiji Kitamura

O-arai Engineering Center, Japan Nuclear Cycle Development Institute, O-arai, Ibaraki 311-1393, Japan

J. Pressure Vessel Technol 124(2), 187-195 (May 01, 2002) (9 pages) doi:10.1115/1.1465436 History: Received July 12, 2001; Revised December 18, 2001; Online May 01, 2002
Copyright © 2002 by ASME
Your Session has timed out. Please sign back in to continue.

References

Morishita, M., and Dozaki, K., 1998, “History of Flow-Induced Vibration Incident Occurred in Monju,” ASME PVP-Vol. 363, Flow-Induced Vibration and Transient Thermal-Hydraulics, Book No. H01144, pp. 103–108.
Ogura, K., Morishita, M., and Yamaguchi, A., 1998, “Cause of Flow-Induced Vibration on Thermocouple Well,” ASME PVP-Vol. 363, Flow-Induced Vibration and Transient Thermal-Hydraulics, Book No. H01144, pp. 109-117.
Power Reactor and Nuclear Fuel Development Corporation, 1997, “Proposed Flow-Induced Vibration Design Guide for Thermometer Wells,” PNC TN9410 97-042 (in Japanese), PNC.
Dozaki, K., Morishita, M., and Iwata, K., 1998, “Modification and Design Guide of Thermowell for FBP,” ASME PVP-Vol. 363, Flow-Induced Vibration and Transient Thermal-Hydraulics, Book No. H01144, pp. 125–133.
ASME, 1995, Boiler and Pressure Vessel Code Sec. III Appendix N-1300.
JSME, 1998, Guideline for Evaluation of Flow-Induced Vibration of a Cylindrical Structure in a Pipe, JSME S012 (in Japanese).
Okajima, A., Nagamori, T., Matsunaga, F., and Kiwata, T., 1998, “Experimental Study on Flow-Induced Vibration on a Circular Cylinder With Surface Roughness at High Reynolds Numbers,” ASME PVP-Vol. 363, Flow-Induced Vibration and Transient Thermal-Hydraulics, Book No. H01144, pp. 143–148.
King, R., 1975, “An Investigation of the Criteria Controlling Sustained Self-Induced Oscillations of Cylinders in Flowing Water,” Proc., 4th Biennial Symp. on Turbulence in Liquids, University of Missouri-Rolla, MO.
Blevins, R. D., Tilden, B. W., and Martens, D. H., 1996, “Vortex Induced Vibration and Damping of Thermowells,” ASME PVP-Vol. 328, Flow-Induced Vibration, pp. 465–484.
Weaver,  D. S., Ziada,  S., , 2000, “Flow-Induced Vibrations in Power and Process Plant Components-Progress and Prospects,” ASME J. Pressure Vessel Technol., 122, pp. 339–348.
Sakai, T., Iwata, K., Yamaguchi, A., Morishita, M., and Ogura K., 1999, “Vortex-Induced Vibration of a Circular Cylinder in High Reynolds Number Flow,” (in Japanese), Trans. JSME, Vol. 65-635, pp. 2230–2236.
Kawamura T., Nakao, T., Hayashi, M., and Gotoh, N., “Experimental Studies on Vibrations of a Circular Cylinder in Cross Flow at Supercritical Reynolds Numbers,” ASME PVP-Vol. 363, Flow-Induced Vibration and Transient Thermal-Hydraulics, Book No. H01144, pp. 35–44.
Blevins, R. D., 1990, Flow-Induced Vibration, Second Edition, Krieger Publishing Company, Malabar, FL ISBN 0-89464-823-3, Eqs. (8)–(10), p. 309.

Figures

Grahic Jump Location
Operational condition of flow rate
Grahic Jump Location
Measurement of turbulence
Grahic Jump Location
Turbulent intensity in the test section
Grahic Jump Location
Displacement amplitude in the flow direction
Grahic Jump Location
Displacement amplitude in the cross-flow direction
Grahic Jump Location
Vortex frequency of the case 1
Grahic Jump Location
Power spectral density of displacement in the cross flow condition
Grahic Jump Location
Comparison with other data on displacement in the flow direction
Grahic Jump Location
Temperature dependency of Cylinder C
Grahic Jump Location
Displacement dependency of Cylinder A
Grahic Jump Location
Strain gage calibration for a Cylinder C—(a) in cross-flow direction; (b) in flow direction
Grahic Jump Location
Strain gage calibration for a Cylinder D—(a) in cross-flow direction; (b) in flow direction
Grahic Jump Location
Displacement dependency of Cylinder B
Grahic Jump Location
Temperature dependency of Cylinder A
Grahic Jump Location
Temperature dependency of Cylinder D
Grahic Jump Location
Temperature dependency of Cylinder B
Grahic Jump Location
Displacement amplitude of VIV in the flow direction
Grahic Jump Location
Strain gage calibration for a Cylinder A—(a) in cross-flow direction; (b) in flow direction
Grahic Jump Location
Strain gage calibration for a Cylinder B—(a) in cross-flow direction; (b) in flow direction

Tables

Errata

Some tools below are only available to our subscribers or users with an online account.

Related Content

Customize your page view by dragging and repositioning the boxes below.

Related Journal Articles
Related eBook Content
Topic Collections

Sorry! You do not have access to this content. For assistance or to subscribe, please contact us:

  • TELEPHONE: 1-800-843-2763 (Toll-free in the USA)
  • EMAIL: asmedigitalcollection@asme.org
Sign In