Dossier: Applied Mechanics for the Oil Industry - Part 2
Open Access
Oil & Gas Science and Technology - Rev. IFP
Volume 57, Number 1, January-February 2002
Dossier: Applied Mechanics for the Oil Industry - Part 2
Page(s) 59 - 69
Published online 01 December 2006
  • Balasubramanian, S. and Skop, R. A. (1996) A Nonlinear Oscillator Model for Vortex Shedding from Cylinders and Cones in Uniform and Shear Flows. J. of Fluids and Structures, 10, 197-214. [CrossRef] [Google Scholar]
  • Bearman, P.W. (1984) Vortex Shedding from Oscillating Bluff Bodies. Ann. Rev. Fluid Mech., 16, 195-222. [Google Scholar]
  • Blevins, R.D. (1990) Flow-Induced Vibration, Van Nostrand Reinhold, Co. [Google Scholar]
  • Bokaian, A. (1993) Lock-in Prediction of Marine Risers and Tethers. J. Sound and Vibrations, 175, 607-623. [CrossRef] [Google Scholar]
  • Bruschi, R., Jacobsen, V., Simantiras, P. and Vitali, L. (1996) Vibration Suppression Devices for Long, Slender Tubulars. Proc. OTC, 71-80. [Google Scholar]
  • Chen, S.S. (1987) Flow Induced Vibration of Circular Cylindrical Structures, Hemisphere Publishing Corp., Springer- Verlag, Chap 7. [Google Scholar]
  • DeepLinesTM (2000) Keywords Manual, IFP/PRD Report V2r2. [Google Scholar]
  • DNV (1996) Rules for Submarine Pipeline Systems, Section 5, C509/C510. [Google Scholar]
  • Étienne, S., Scolan, Y.M. and Biolley, F. (1999) Modélisation numérique de l’écoulement de fluide visqueux autour d’un faisceau de riser. 7e Journées de l’hydrodynamique, Marseille, France, 57-72. [Google Scholar]
  • Étienne, S. (1999) Contribution à la modélisation de l’écoulement de fluide visqueux autour de faisceaux de cylindres circulaires. Thèse de doctorat de l’université de la Méditerranée, Aix - Marseille II - École supérieure d’ingénieurs de Marseille. [Google Scholar]
  • Étienne, S., Biolley, F.,. Fontaine, E., LeCunff, C. and Heurtier, J.M. (2001) Numerical Simulations of Vortex Induced Vibrations of Slender Offshore Structure. Proc. of ISOPE Conference, 3, 419-425. [Google Scholar]
  • Every, M.J.,King, R. and Weaver, D.S. (1982) Vortex-Induced Vibrations of Cylinders and Cables and their Suppression, Ocean Engineering, 9, 135-157. [CrossRef] [Google Scholar]
  • Facchinetti, M.L. (2001) Vibrations induites dans les courants non uniformes. Rapport IFP n° 55815. [Google Scholar]
  • Ferrari, J.A. and. Bearman, P.W (2000) A Three-Dimensional Model for Wave and Vortex-Induced Vibration of Deepwater Riser Pipes. Flow-Induced Vibrations, 3-10. [Google Scholar]
  • Guaita, P., Fossati, F. and Resta, F. (2001) Development and Test of a Time-Domain VIV Prediction Model. Proc. of Offshore Mediterranean Conference, Paper No 61. [Google Scholar]
  • Griffin, O.M. (1985) Vortex-Shedding from Bluff Bodies in a Shear Flow: a Review. Transactions of the ASME, 298-306. [Google Scholar]
  • Hartlen, R.T. and Currie, I.G. (1970) Lift-Oscillator Model of Vortex-Induced Vibration. J. of the Engineering Mechanics Division, 577-591. [Google Scholar]
  • Hopper, C.T (1983) Vortex-Induced Oscillations of Long Marine Drilling Risers. Proc. of DOT, 97-109. [Google Scholar]
  • Huse, E., Kleiven, G. and. Nielsen, F.G (1998) Large Scale Model Testing of Deep Sea Risers. Proceedings of OTC, 44-61. [Google Scholar]
  • Iwan, W.D. (1981) The Vortex-Induced Oscillations of Nonuniform Structural Systems. J. of Sound and Vibrations, 79, 291-301. [CrossRef] [Google Scholar]
  • Kimmoun O., Molin, B. and Zucchini, B. (2000) Mesures par film chaud de la vitesse du courant dans le bassin de génie océanique First. Rapport ESIM du 27 mars 2000, Projet CLAROM HydLines. [Google Scholar]
  • Lalanne, C. (1999) Vibrations et chocs mécaniques, Hermès Science Publication, Paris. [Google Scholar]
  • Larsen, C.M. and. Halse, K.H (1995) Comparison of Models of Vortex Induced Vibrations of Slender Marine Structures. Flow Induced Vibrations, 467-482. [Google Scholar]
  • Le Cunff, C. (1999) Note de calculs sur les essais 3D. Note externe IFP n° I4455066-1. [Google Scholar]
  • Le Cunff, C., Biolley, F. and Durand, A. (1999) Prediction of the Response of a Structure to Vortex-Induced Vibrations: Comparison of a Modal and a Wave Aproach. Proc. 18th OMAE Conference, St John’s, Canada, 1-8. [Google Scholar]
  • Lucor, D.,Imas, L. and Karniadakis, G.E. (2000) Vortex Dislocations and Force Distribution of Long Flexible Cylinders Subjected to Sheared Flows. J. Fluids and Structure, 15, 641-650. [CrossRef] [Google Scholar]
  • Lyons, G.J. and Patel, M.H. (1989) Application of a General Technique for Prediction of Riser Vortex-Induced Response in Waves and Current. J. of ASME, 111, 82-91. [Google Scholar]
  • Marris, A.W. (1964) A Review on Vortex Sreets, Periodic wakes, and Induced Vibrations Phenomena. J. of Basic Eng., 185-196. [Google Scholar]
  • Moe, G. (1991) An Experimentally Based Model for Prediction of Lock-in Riser Motions. Proc. of OMAE Conference, 1-B, 497-506. [Google Scholar]
  • Molin, B. (1999) Personal Communication. [Google Scholar]
  • Morison, J.R.,O’Brien, M.P.,Johnson, J.W. and Schaaf, S.A. (1950) The Forces Exerted by Surface Waves on Piles. Petroleum Trans., AIME, 189, 149-157. [Google Scholar]
  • Naudascher, E. (1987) Flow-Induced Streamwise Vibrations of Structures. J. of Fluids and Structures, 1, 265-298. [CrossRef] [Google Scholar]
  • Naudascher, E. and Rockwell, D. (1994) Flow-Induced Vibrations – An Engineerin Guide, Balkema A.A. [Google Scholar]
  • Nedergaard, H., Ottesen Hansen, N.-E. and Fines, S. (1994) Response of Free Hanging Tethers. Proc. of BOS 94, 315-332. [Google Scholar]
  • Pantazopoulos, M.S. (1994) Vortex-Induced Vibrations Parameters: Critical Review. Proc. of OMAE, 1, 199-255. [Google Scholar]
  • Pluvinet, F. (1999) HydLines essais 3D : rapport d’essais, Document Principia, n° RET.95.304.01. [Google Scholar]
  • Sarpkaya, T. (1979) Vortex-Induced Oscillations - A Selective Review. J. of Applied Mech., 46, No. 2. [Google Scholar]
  • Sheppard, R.M. and Omar, A.F. (1992) Vortex-Induced Loading on Offshore Structures: a Selective Review of Experimental Work. Proc.of OTC, 183-112. [Google Scholar]
  • Torum, A., Moe, G., Johansen, J.V and Katla, E. (1996) On Current Induced In-Line Oscillation in Pipelines Free-Spans. Proc. of OMAE Conference, 5, 459-469. [Google Scholar]
  • Triantafyllou, M.S. and Grosenbaugh, M.A. (1995) Prediction of Vortex-Induced Vibrations in Sheared Flow. Flow-Induced Vibrations, Bearman (Ed.) Rotterdam. [Google Scholar]
  • Vandiver, J.K. (1987) The Relationship between In-Line and Cross-Flow Vortex-Induced Vibration in Cylinder. J. of Fluids and Structures, 1, 381-399. [CrossRef] [Google Scholar]
  • Willden, R.H.J. and. Graham, J.M.R (2000) Vortex Induced Vibrations of Deep Water Risers. Flow-Induced Vibrations, 29-36. [Google Scholar]
  • Williamson, C.H.K. (1996) Vortex Dynamics in the Cylinder Wakes. Ann. Rev. Fluid Mech., 28, 477-539. [Google Scholar]
  • Zdravkovich, M.M. (1981) Review and Classification of Various Aerodynamic and Hydrodynamic Means for Suppressing Vortex Shedding. J. Wind Eng. And Industrial Aerodynamics, 7, 145-189. [CrossRef] [Google Scholar]

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