Viscous oscillations in a circular cylindrical tank with elastic surface cover

“…The results from the current method for the case of no elastic cover are in excellent agreement with extensive experimental results of Howell et al [8]. However, there is a large discrepancy between the present results and those in [1] and [3].…”

“…This is a difficult problem as the interaction of the fluid and tank structure has to be taken into account. Some of these studies have focused on the fluid interaction with the elastic cylinder wall (see references in [1]) while others have investigated the effects of an elastic bottom (see references in [1]). Meanwhile various devices like liquid or movable surface devices (floating lids/mats, floating cans) and fixed baffles have been employed to suppress slosh and move the coupled frequencies away from the control [2].…”

“…For instance, the recent paper [1] presents a method that works only for large liquid depths, ignoring as it does the no-slip condition on the bottom wall. Bauer and Chiba [3] present another method for the same problem; however, the applicability in this case is only to small liquid depths.…”

“…In all these studies, real eigenfunctions are used to represent the velocity and pressure fields and these representations do not turn out to be rich enough to satisfy all boundary conditions. Indeed, Bauer and Chiba [1] write 'The analytical approaches of shallow and large-aspect-ratio containers cannot, due to the different analytical procedures, yield an acceptable transition region h/a'.…”

Viscous oscillations in a circular cylinder with an elastic cover on the free surface

“…The results from the current method for the case of no elastic cover are in excellent agreement with extensive experimental results of Howell et al [8]. However, there is a large discrepancy between the present results and those in [1] and [3].…”

“…This is a difficult problem as the interaction of the fluid and tank structure has to be taken into account. Some of these studies have focused on the fluid interaction with the elastic cylinder wall (see references in [1]) while others have investigated the effects of an elastic bottom (see references in [1]). Meanwhile various devices like liquid or movable surface devices (floating lids/mats, floating cans) and fixed baffles have been employed to suppress slosh and move the coupled frequencies away from the control [2].…”

“…For instance, the recent paper [1] presents a method that works only for large liquid depths, ignoring as it does the no-slip condition on the bottom wall. Bauer and Chiba [3] present another method for the same problem; however, the applicability in this case is only to small liquid depths.…”

“…In all these studies, real eigenfunctions are used to represent the velocity and pressure fields and these representations do not turn out to be rich enough to satisfy all boundary conditions. Indeed, Bauer and Chiba [1] write 'The analytical approaches of shallow and large-aspect-ratio containers cannot, due to the different analytical procedures, yield an acceptable transition region h/a'.…”

Viscous oscillations in a circular cylinder with an elastic cover on the free surface

“…Therefore, the characterization of the amplitude of the waves and the exploration of mechanisms capable of damping sloshing is of critical importance. To damp sloshing, various methods have been considered including the use of elastic membranes attached to the top of a container, [11][12][13] or baffles placed in a container. 14,15 The use of containers with elastic walls was also considered.…”

Damping of liquid sloshing by foams

Investigation of modal properties and layout of elastomer diaphragm tanks in telecommunication satellite