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TECHNICAL PAPERS

Nonlinear Interaction of Submerged Cylinder With Free Surface

[+] Author and Article Information
Nikolai I. Makarenko

Lavrentyev Institute of Hydrodynamics, 630090, Novosibirsk, Russiae-mail: makarenko@hydro.nsc.ru

J. Offshore Mech. Arct. Eng 125(1), 72-75 (Feb 28, 2003) (4 pages) doi:10.1115/1.1537729 History: Received January 01, 2002; Revised September 01, 2002; Online February 28, 2003
Copyright © 2003 by ASME
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References

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Grue,  J., Friis,  A., Palm,  E., and Rusås,  P. O., 1997, “A Method for Computing Unsteady Fully Nonlinear Interfacial Waves,” J. Fluid Mech., 351, pp. 223–252.
Gorlov,  S. I., 1999, “Unsteady Nonlinear Problem of the Horizontal Motion of a Contour under the Interface between Two Liquids,” J. Appl. Mech. Tech. Phys., 40(3), pp. 393–398.
Wehausen, J. V., and Laitone, E. V., 1960, Surface Waves, Handbuch der Physik, 9 , Springer Verlag, Berlin, pp. 446–778.
Lamb,  H., 1913, “On Some Cases of Wave-Motion on Deep Water,” Ann. di Mat., 21, pp. 237–250.
Tuck,  E. O., 1965, “The Effect of Non-Linearity at the Free Surface on Flow past a Submerged Cylinder,” J. Fluid Mech., 22, pp. 401–414.
Wilmott,  P., 1987, “On the Motion of a Small Two-Dimensional Body Submerged beneath Surface Waves,” J. Fluid Mech., 176, pp. 465–481.
Tyvand,  P. A., and Miloh,  T., 1995, “Free-Surface Flow due to Impulsive Motion of a Small Submerged Circular Cylinder,” J. Fluid Mech., 286, pp. 67–101.
Tyvand,  P. A., and Miloh,  T., 1995, “Free-Surface Flow Generated by a Small Submerged Circular Cylinder Starting from the Rest,” J. Fluid Mech., 286, pp. 103–116.
Terentiev, A. G., Afanasiev, K. E., and Afanasieva, M. M., 1988, “Simulation of Unsteady Free Surface Flow Problem by the Direct Boundary Element Method,” Proc. IUTAM Symposium Advanced Boundary Element Methods, San Antonio, pp. 427–434.
Greenhow,  M., and Moyo,  S., 1997, “Water Entry and Exit of Horizontal Circular Cylinder,” Philos. Trans. R. Soc. London, Ser. A, 355, pp. 551–563.
Gorlov,  S. I., 2000, “Nonlinear Problem of a Circular Cylinder Rising Vertically to an Interface between Liquid Media,” J. Appl. Mech. Tech. Phys., 41(2), pp. 280–285.

Figures

Grahic Jump Location
Rising accelerated cylinder, λ=1,ε=0.5. Position at the time t=0.2,t=0.4,t=0.6.

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