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Hydroelastic wave diffraction by a vertical cylinder

2011; Royal Society; Volume: 369; Issue: 1947 Linguagem: Inglês

10.1098/rsta.2011.0110

1471-2962

Paul Brocklehurst, A.A. Korobkin, Emilian I. Părău,

Climate change and permafrost

A linear three-dimensional problem of hydroelastic wave diffraction by a bottom-mounted circular cylinder is analysed. The fluid is of finite depth and is covered by an ice sheet, which is clamped to the cylinder surface. The ice stretches from the cylinder to infinity in all lateral directions. The hydroelastic behaviour of the ice sheet is described by linear elastic plate theory, and the fluid flow by a potential flow model. The two-dimensional incident wave is regular and has small amplitude. An analytical solution of the coupled problem of hydroelasticity is found by using a Weber transform. We determine the ice deflection and the vertical and horizontal forces acting on the cylinder and analyse the strain in the ice sheet caused by the incident wave.