Free vibration of cylindrical shells partially filled with liquid

The free vibrations of a circular cylindrical tank partially filled with an inviscid and incompressible liquid with a free surface orthogonal to the tank axis are analytically studied. The tank is modelled by a simply supported circular cylindrical shell connected to a simply supported circular plat

The exact solution to the free vibration problem of circular cylindrical shells half-filled with liquid and with the shell axis orthogonal to the gravitational field is analytically obtained and approximate models are proposed to estimate natural frequencies and mode shapes of partially filled shell

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 dynamic characteristics (i.e., natural frequencies and mode shapes) of a partially "lled and/or submerged, horizontal cylindrical shell are examined. In this investigation, it is assumed that the #uid is ideal, and #uid forces are associated with inertial e!ects only: namely, the #uid pressure o

This paper presents an analytical model for the dynamic analysis of thin cylindrical shells partially filled with liquid. The method used is a combination of finite element analysis and classical shell theory, and the objective is to determine the specific displacement functions which best represent