Publication de 6 numéros par an
ISSN Imprimer: 2152-5102
ISSN En ligne: 2152-5110
Indexed in
Influence of Various Internal Components on Slosh Dynamics: A Study Using Finite Element Method
RÉSUMÉ
The dynamic behavior of liquids in moving containers is a fascinating subject that has attracted the attention of geophysicists, seismologists, engineers, mathematicians and other scientific workers for many years. One of the design issues of the liquid-tank system is the sloshing phenomenon where internal fluid may result in severe damage to the containment system. The slosh dynamics of liquid storage tanks can be strongly influenced by the presence of internal submerged components. The internal components can modify the dynamic characteristics of the liquid tank systems to an advantage. The use of baffles as anti-slosh device is a quite well known example. The baffles cause a variation in the fundamental frequency of liquid oscillations by effectively changing the tank geometry. This paper describes the numerical assessment of lateral sloshing forces developed within liquid filled tanks with various internal components. The main contribution in this paper is that how the slosh dynamics of liquid filled container gets affected due to presence of multiple submerged block and baffle over a partition wall which is still dearth in open literature.
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Nayak Santosh Kumar, Biswal Kishore Chandra, Fluid damping in rectangular tank fitted with various internal objects – An experimental investigation, Ocean Engineering, 108, 2015. Crossref
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Kumar A., Sinhamahapatra K.P., Dynamics of rectangular tank with perforated vertical baffle, Ocean Engineering, 126, 2016. Crossref
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Ünal Uğur Oral, Bilici Gürbüz, Akyıldız Hakan, Liquid sloshing in a two-dimensional rectangular tank: A numerical investigation with a T-shaped baffle, Ocean Engineering, 187, 2019. Crossref
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Tang Yu-ying, Liu Ya-dong, Chen Chao, Chen Zhe, He Yan-ping, Zheng Min-min, Numerical study of liquid sloshing in 3D LNG tanks with unequal baffle height allocation schemes, Ocean Engineering, 234, 2021. Crossref
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George Arun, Cho I.H., Anti-sloshing effects of a vertical porous baffle in a rolling rectangular tank, Ocean Engineering, 214, 2020. Crossref
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Wang Wenyuan, Peng Yun, Wei Zhijun, Guo Zijian, Jiang Ying, High performance analysis of liquid sloshing in horizontal circular tanks with internal body by using IGA-SBFEM, Engineering Analysis with Boundary Elements, 101, 2019. Crossref