Free vibration analysis of cylindrical liquid storage tanks

A simple but effective modal solution based on the underlying ideas of the hierarchical finite element method is presented for evaluating the free vibration characteristics of vertical, thin, circular cylindrical shells, partially or completely filled with liquid and subjected to any variationally c

The work presented here is concerned with the free vibration analysis of cylindrical storage tanks with axial thickness variation and partially filled with fluid. The tank is modelled using Flügge's thin shell theory and the fluid in the tank is assumed to be inviscid and imcompressible, governed by

The natural frequencies of liquid in a liquid-"lled cylindrical rigid tank without and with ba%es are evaluated. An annular plate is used as a ba%e, which is "tted to the inner periphery of a cylindrical tank. Both rigid and #exible ba%es are considered. Finite elements are used to discretize both t

Model experiments on batch mixing of liquids in cylindrical tanks with side-entering propellers show that two distinct mixing regimes can occur: (i) At high levels of agitation mixing is mainly a matter of convection and turbulent diffusion. (ii) At low levels of agitation (the more common case) e