The vertical mode method in the problems of flexural-gravity waves diffracted by a vertical cylinder

Korobkin, Alexander, Malenica, Sime and Khabakhpasheva, Tatyana (2019) The vertical mode method in the problems of flexural-gravity waves diffracted by a vertical cylinder. Applied Ocean Research, 84. pp. 111-121. ISSN 0141-1187

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Abstract

The linear three-dimensional problem of ice loads acting on a vertical circular cylinder frozen in an ice cover of infinite extent is studied. The loads are caused by an uni-directional hydroelastic wave propagating in the ice cover towards the cylinder mounted to the see bottom in water of constant depth. There are no open water surfaces in this problem. The deflection of the ice cover is described by the Bernoulli-Euler equation of a thin elastic plate of constant thickness. At the contact line between the ice cover and the surface of the cylinder, some edge conditions are imposed. In this study, the edge of the ice plate is either clamped to the cylinder or has no contact with the cylinder surface, with the plate edge being free of stresses and shear forces. The water is of finite constant depth, inviscid and incompressible. The problem is solved by both the vertical mode method and using the Weber integral transform in the radial coordinate. Each vertical mode corresponds to a root of the dispersion relation for flexural-gravity waves. It is proved that these two solutions are identical for the clamped edge conditions. This result is non-trivial because the vertical modes are non-orthogonal in a standard sense, they are linearly dependent, the roots of the dispersion relation can be double and even triple, and the set of the modes could be incomplete. A general solution of the wave-cylinder interaction problem is derived by the method of vertical modes and applied to different edge conditions on the contact line. There are three conditions of solvability in this problem. It is shown that these conditions are satisfied for any parameters of the problem.

Item Type: Article
Uncontrolled Keywords: ice cover,vertical circular cylinder,flexural-gravity waves,edge conditions
Faculty \ School: Faculty of Science > School of Mathematics
Depositing User: LivePure Connector
Date Deposited: 22 Jan 2019 12:30
Last Modified: 18 Mar 2020 02:31
URI: https://ueaeprints.uea.ac.uk/id/eprint/69650
DOI: 10.1016/j.apor.2018.11.012

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