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A numerical investigation of natural characteristics of a partially filled tank using a substructure method

A numerical investigation of natural characteristics of a partially filled tank using a substructure method
A numerical investigation of natural characteristics of a partially filled tank using a substructure method
Sloshing of liquid in a partially filled tank has been a concern in a number of engineering fields, including automobile, aerospace and marine industries. This paper reports the findings of a numerical investigation into the variations of natural frequencies and mode shapes of a tank-liquid system. The effects of a few parameters of the system, such as the liquid filling level, geometry shape and wall stiffness of the tank, etc. on the natural vibrations, especially natural frequencies, are examined. Both spherical and rectangular tanks are studied. Fluid-structure interaction systems are described by a generalized linear fluid-structure interaction theory of which the structure is governed by the theory of linear elasticity and the fluid by a wave equation as well as various suitable boundary conditions, such free surface wave disturbance and kinematic and dynamic coupling conditions on the fluid-solid interfaces. Numerical simulations are based on a mixed finite element substructure – subdomain method and the corresponding computer code which adopts the displacement of solid and the pressure in the fluid as variables to model the coupling system. A spherical liquid container and a 2D cross section of LNG tank are simulated using the developed method. The results are compared with the available theoretical, reported numerical and experimental results to demonstrate the applications of the method. Some guidelines obtained by this investigation are presented which may be a reference for dynamic designs of liquid-container system considering fluid-solid interactions.
fluid structure interaction, sloshing, partially filled tank, natural frequency, substructure method
7118047287
181-190
Tan, M.
4d02e6ad-7915-491c-99cc-a1c85348267c
Xiong, Y.P.
51be8714-186e-4d2f-8e03-f44c428a4a49
Xing, J.T.
d4fe7ae0-2668-422a-8d89-9e66527835ce
Toyoda, M.
63f201ec-8c03-4e61-9163-2491c74c5aad
Tan, M.
4d02e6ad-7915-491c-99cc-a1c85348267c
Xiong, Y.P.
51be8714-186e-4d2f-8e03-f44c428a4a49
Xing, J.T.
d4fe7ae0-2668-422a-8d89-9e66527835ce
Toyoda, M.
63f201ec-8c03-4e61-9163-2491c74c5aad

Tan, M., Xiong, Y.P., Xing, J.T. and Toyoda, M. (2006) A numerical investigation of natural characteristics of a partially filled tank using a substructure method. Hydroelasticity '2006: Hydroelasticity in Marine Technology, Wuxi, China. 09 - 13 Sep 2006. pp. 181-190 .

Record type: Conference or Workshop Item (Paper)

Abstract

Sloshing of liquid in a partially filled tank has been a concern in a number of engineering fields, including automobile, aerospace and marine industries. This paper reports the findings of a numerical investigation into the variations of natural frequencies and mode shapes of a tank-liquid system. The effects of a few parameters of the system, such as the liquid filling level, geometry shape and wall stiffness of the tank, etc. on the natural vibrations, especially natural frequencies, are examined. Both spherical and rectangular tanks are studied. Fluid-structure interaction systems are described by a generalized linear fluid-structure interaction theory of which the structure is governed by the theory of linear elasticity and the fluid by a wave equation as well as various suitable boundary conditions, such free surface wave disturbance and kinematic and dynamic coupling conditions on the fluid-solid interfaces. Numerical simulations are based on a mixed finite element substructure – subdomain method and the corresponding computer code which adopts the displacement of solid and the pressure in the fluid as variables to model the coupling system. A spherical liquid container and a 2D cross section of LNG tank are simulated using the developed method. The results are compared with the available theoretical, reported numerical and experimental results to demonstrate the applications of the method. Some guidelines obtained by this investigation are presented which may be a reference for dynamic designs of liquid-container system considering fluid-solid interactions.

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More information

Published date: September 2006
Venue - Dates: Hydroelasticity '2006: Hydroelasticity in Marine Technology, Wuxi, China, 2006-09-09 - 2006-09-13
Keywords: fluid structure interaction, sloshing, partially filled tank, natural frequency, substructure method
Organisations: Fluid Structure Interactions Group

Identifiers

Local EPrints ID: 42933
URI: http://eprints.soton.ac.uk/id/eprint/42933
ISBN: 7118047287
PURE UUID: f38f1577-08d5-4b92-a5e6-7410ac628e69
ORCID for Y.P. Xiong: ORCID iD orcid.org/0000-0002-0135-8464

Catalogue record

Date deposited: 03 Jan 2007
Last modified: 12 Dec 2021 03:12

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Contributors

Author: M. Tan
Author: Y.P. Xiong ORCID iD
Author: J.T. Xing
Author: M. Toyoda

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