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.

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

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

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