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Report on the First International Workshop on Water Waves and Floating Bodies

Published online by Cambridge University Press:  21 April 2006

D. V. Evans  and
J. N. Newman
D. V. Evans
Affiliation:
Department of Mathematics, University of Bristol, Bristol BS8 1TW, UK
J. N. Newman
Affiliation:
Department of Ocean Engineering, Massachusetts Institute of Technology, Cambridge, MA 02139, USA
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Abstract

A workshop was held at MIT in February 1986 for specialists performing theoretical research on the interactions of water waves with floating or submerged bodies. The principal applications of this field are related to ship hydrodynamics and to wave loadings on offshore platform. In addition to the traditional approach based on linearization of the wave and body motions, substantial progress has been made on nonlinear problems including both analytical and numerical studies. Subsequent workshops are planned on an annual basis.

Type
Research Article
Information
Journal of Fluid Mechanics , Volume 174 , January 1987 , pp. 521 - 528
Copyright
© 1987 Cambridge University Press

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References

Breit, S. R. 1986 The First International Workshop on Water Waves and Floating Bodies. Rep. 86–2. Department of Ocean Engineering, MIT, Cambridge, MA, USA.
DeGregoria, A. J. & Schwartz, L. W. 1986 A boundary-integral method for two-phase displacement in Hele-Shaw cells. J. Fluid Mech. 164, 383400.Google Scholar
Ertekin, R. C., Webster, W. C. & Wehausen, J. V. 1984 Ship-generated solitons. In Proc. 15th Symp. Naval Hydrodynamics, pp. 347–364, Washington: National Academy Press.
Faltinsen, O. M. 1977 Numerical solution of transient nonlinear free-surface motion outside or inside moving bodies. In Proc. 2nd Intl Conf. on Numerical Ship Hydrodynamics, University of California, Berkeley, pp. 347–357.
Isaacson, M. de St. Q. 1982 Nonlinear wave effects on fixed and floating bodies. J. Fluid Mech. 120, 267281.Google Scholar
Kagemoto, H. & Yue, D. K. P. 1986 Interactions among multiple three-dimensional bodies in water waves: an exact algebraic method. J. Fluid Mech. 166, 189209.Google Scholar
Keller, J. B. 1979 The ray theory of ship waves and the class of streamlined ships. J. Fluid Mech. 91, 465488.Google Scholar
Lin, W. M., Newman, J. N. & Yue, D. K. 1984 Nonlinear forced motions of floating bodies. In Proc. 15th Symp. Naval Hydrodynamics, pp. 33–49. Washington: National Academy Press.
Mei, C. C. 1986 Radiation of solitons by slender bodies advancing in a shallow channel. J. Fluid Mech. 162, 5367.Google Scholar
Newman, J. N. 1985 Transient axisymmetric motion of a floating cylinder. J. Fluid Mech. 157, 1733.Google Scholar
Ogilive, T. F. 1983 Second-order hydrodynamic effects on ocean platforms. In Proc. Intl Workshop on Ship and Platform Motions, University of California, Berkeley, pp. 205–265.
Ohkusu, M. 1974 Hydrodynamic forces on multiple cylinders in waves. In Proc. Intl Symp. on the Dynamics of Marine Vehicles and Structures in Waves, Institute of Mechanical Engineers, London, pp. 107–112.
Simon, M. J. 1982 Multiple scattering in arrays of axisymmetric wave-energy devices. Part 1. A matrix method using a plane-wave approximation. J. Fluid Mech. 120, 125.Google Scholar
Society of Naval Architects of Japan 1976 Proc. Intl Seminar on Wave Resistance, Tokyo.
Tulin, M. P. 1984 Surface waves from the ray point of view. The Seventh Georg Weinblum Memorial Lecture. In Proc. 15th Symp. Naval Hydrodynamics, pp. 9–29. Washington: National Academy Press.
Ursell, F. 1964 The decay of the free motion of a floating body. J. Fluid Mech. 19, 305319.Google Scholar
Vinje, T. & Brevig, P. 1980 Nonlinear two-dimensional ship motions. S.I.S. Project, Norwegian Hydrodynamics Lab. Rep. Trondheim.Google Scholar
Wehausen, J. V. 1971 The motion of floating bodies. Ann. Rev. Fluid. Mech. 3, 237268.Google Scholar
Yeung, R. W. 1982 Numerical methods in free-surface flows. Ann. Rev. Fluid Mech. 14, 395442.Google Scholar