Bernard Molin scite author profile

So-called 'moonpools' are vertical openings through the deck and hull of ships or barges, used for marine and offshore operations, such as pipe laying or recovery of divers. In the present study rectangular moonpools of large horizontal dimensions are considered. The natural modes of oscillation of the inner free surfaces are determined, under the assumption of infinite water depth and infinite length and beam of the barges that contain the moonpools. The problem is treated in two and three dimensions, via linearized potential flow theory. Results are given for the natural frequencies and the associated shapes of the free surface, for wide ranges of the geometric parameters. Simple quasi-analytical approximations are derived that yield the natural frequencies. The most striking result is that the natural frequencies of the longitudinal sloshing modes increase without bounds when both the draught and the width decrease to zero, the length of the moonpool being kept constant. As a corollary the problem of waves travelling in a channel through a rigid ice sheet is addressed and their dispersion equation is derived. The same behaviour is obtained: the waves travel increasingly faster as both the draught and the width of the channel are reduced.

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Third-harmonic wave diffraction by a vertical cylinder

Malenica

Molin²

1995

J. Fluid Mech.

152

100

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The diffraction of regular waves by a vertical circular cylinder in finite depth water is considered, within the frame of potential theory. The wave slope kA is assumed to be small so that successive boundary value problems at orders kA, k2A2, and k3A3 can be formulated. Here we focus on the third-order (k3A3) problem but restrict ourselves to the triple-frequency component of the diffraction potential. The method of resolution is based on eigenfunction expansions and on the integral equation technique with the classical Green function expressed in cylindrical coordinates. Third-order (triple-frequency) loads are calculated and compared with experimental measurements and approximate methods based on long-wave theories.

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Second-order diffraction loads upon three-dimensional bodies

Molin

1979

Applied Ocean Research

200

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Wave propagation through dense vertical cylinder arrays: Interference process and specific surface effects on damping

Arnaud

Rey

Touboul

et al. 2017

Applied Ocean Research

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Bernard Molin

On the piston and sloshing modes in moonpools

Third-harmonic wave diffraction by a vertical cylinder

Second-order diffraction loads upon three-dimensional bodies

Wave propagation through dense vertical cylinder arrays: Interference process and specific surface effects on damping

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