Hydrodynamic forces on a submerged circular cylinder undergoing large-amplitude motion

G. X. Wu

doi:10.1017/S0022112093002022

Abstract

The hydrodynamic problem of a circular cylinder submerged below a free surface and undergoing large-amplitude oscillation is investigated based on the velocity potential theory. The body-surface boundary condition is satisfied on its instantaneous position while the free-surface condition is linearized. The solution is obtained by writing the potential in terms of the multipole expansion. Various interesting results associated with the circular cylinder are obtained.

References

Abramowitz, M. & Stegun, M. 1965 Handbook of Mathematical Functions. Dover.

Dean, W. R. 1948 On the reflection of surface waves by a circular cylinder. Proc. Camb. Phil. Soc. 44, 483–491.Google Scholar

Eggers, K. W. H. 1979 A method for assessing numerical solution to the Neumann–Kelvin problem. Proc. Workshop on Ship Wave Resistance Computations, Maryland, USA. David Taylor Naval Ship Research and Development Center.

Evans, D. V. & Linton, C. M. 1989 Active devices for the reduction of wave intensity. Appl. Ocean Res. 11, 26–32.Google Scholar

Ferrant, P. 1990 A coupled time and frequency approach for nonlinear wave radiation. Eighteenth Symp. on Naval Hydrodynamics, University of Michigan, pp. 67–83. National Academy Press.

Lin, W. M. & Yue, D. 1990 Numerical solutions for large-amplitude ship motions in the time domain. Eighteenth Symp. on Naval Hydrodynamics, University of Michigan, pp. 41–65. National Academy Press.

Mei, C. C. 1982 The Applied Dynamics of Ocean Surface Waves. Wiley-Interscience.

Newman, J. 1977 Marine Hydrodynamics. MIT Press.

Ogilvie, T. F. 1963 First and second order forces on a cylinder submerged under the free surface. J. Fluid Mech. 16, 451–472.Google Scholar

Ogilvie, T. F. & Tuck, E. O. 1969 A rational strip theory for ship motions. Part 1. Rep. 012. Department of Naval Architecture and Marine Engineering, University of Michigan.

Ursell, F. 1949 On the heaving motion of a circular cylinder on the surface of fluid. Q. J. Mech. Appl. Maths 2, 218–231.Google Scholar

Ursell, F. 1950 Surface waves on deep water in the presence of a submerged circular cylinder. Proc. Camb. Phil. Soc. 46, 141–152.Google Scholar

Wu, G. X. & Eatock Taylor, R. 1990 The second order diffraction force on a horizontal cylinder in finite water depth. Appl. Ocean Res. 12, 106–111.Google Scholar

Yu, Y. S. & Ursell, F. 1961 Surface waves generated by an oscillating circular cylinder on water of finite depth: theory and experiment. J. Fluid Mech. 11, 529–549.Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Wu, G.X. 1993. A note on non-linear hydrodynamic forces on a body submerged below a free surface. Applied Ocean Research, Vol. 15, Issue. 6, p. 371.

Wu, G.X. 1993. Second-order wave radiation by a submerged horizontal circular cylinder. Applied Ocean Research, Vol. 15, Issue. 5, p. 293.

Wu, G. X. 1994. Wave radiation by a submerged source undergoing large amplitude periodic motion. Journal of Engineering Mathematics, Vol. 28, Issue. 6, p. 447.

Wu, G.X. 1995. The interaction of water waves with a group of submerged spheres. Applied Ocean Research, Vol. 17, Issue. 3, p. 165.

Howison, S. D. Ockendon, J. R. Peregrine, D. H. Moore, D. W. Greenhow, Martin and Moyo, Simiso 1997. Water entry and exit of horizontal circular cylinders. Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences, Vol. 355, Issue. 1724, p. 551.

Gil’man, O. A. and Mindlin, I. M. 1998. Plane waves in a heavy two-layer liquid excited by a cylinder moving at an angle to the horizontal. Fluid Dynamics, Vol. 33, Issue. 4, p. 580.

Robertson, Iain and Sherwin, Spencer 1999. Free-Surface Flow Simulation Using hp/Spectral Elements. Journal of Computational Physics, Vol. 155, Issue. 1, p. 26.

LI, W. and WILLIAMS, A.N. 1999. THE DIFFRACTION OF SECOND-ORDER BICHROMATIC WAVES BY A SEMI-IMMERSED HORIZONTAL RECTANGULAR CYLINDER. Journal of Fluids and Structures, Vol. 13, Issue. 3, p. 381.

Kent, Christopher P. and Choi, Wooyoung 2007. An explicit formulation for the evolution of nonlinear surface waves interacting with a submerged body. International Journal for Numerical Methods in Fluids, Vol. 55, Issue. 11, p. 1019.

Guerber, Etienne Benoit, Michel Grilli, Stephan T. and Buvat, Clément 2012. A fully nonlinear implicit model for wave interactions with submerged structures in forced or free motion. Engineering Analysis with Boundary Elements, Vol. 36, Issue. 7, p. 1151.

Zhang, Hong-sheng and Zhou, Hua-wei 2013. Wave radiation and diffraction by a two-dimensional floating body with an opening near a side wall. China Ocean Engineering, Vol. 27, Issue. 4, p. 437.

Zhou, Bin-Zhen Ning, De-Zhi Teng, Bin and Zhao, Ming 2014. Fully nonlinear modeling of radiated waves generated by floating flared structures. Acta Mechanica Sinica, Vol. 30, Issue. 5, p. 667.

Bai, W. Hannan, M.A. and Ang, K.K. 2014. Numerical simulation of fully nonlinear wave interaction with submerged structures: Fixed or subjected to constrained motion. Journal of Fluids and Structures, Vol. 49, Issue. , p. 534.

Hannan, M. A. Bai, W. and Ang, K. K. 2014. Modeling of fully nonlinear wave radiation by submerged moving structures using the higher order boundary element method. Journal of Marine Science and Application, Vol. 13, Issue. 1, p. 1.

Wolgamot, Hugh A and Fitzgerald, Colm J 2015. Nonlinear hydrodynamic and real fluid effects on wave energy converters. Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, Vol. 229, Issue. 7, p. 772.

Li, Z.F. Shi, Y.Y. and Wu, G.X. 2017. Large amplitude motions of a submerged circular cylinder in water with an ice cover. European Journal of Mechanics - B/Fluids, Vol. 65, Issue. , p. 141.

Moonesun, Mohammad 2017. Effective Depth of Regular Wave on Submerged Submarines and AUVs. International Robotics & Automation Journal, Vol. 2, Issue. 6,

Li, Zhi Fu Wu, Guo Xiong and Ji, Chun Yan 2018. Wave radiation and diffraction by a circular cylinder submerged below an ice sheet with a crack. Journal of Fluid Mechanics, Vol. 845, Issue. , p. 682.

Teng, Bin Mao, Hong-fei Ning, De-zhi and Zhang, Chong-wei 2019. Viscous numerical examination of hydrodynamic forces on a submerged horizontal circular cylinder undergoing forced oscillation. Journal of Hydrodynamics, Vol. 31, Issue. 5, p. 887.

Li, Z.F. Wu, G.X. and Shi, Y.Y. 2019. Interaction of uniform current with a circular cylinder submerged below an ice sheet. Applied Ocean Research, Vol. 86, Issue. , p. 310.

Download full list

Article contents

Hydrodynamic forces on a submerged circular cylinder undergoing large-amplitude motion

Abstract

Access options

References

Wu supplementary material

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Hydrodynamic forces on a submerged circular cylinder undergoing large-amplitude motion

Abstract

Access options

References

Wu supplementary material

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests