On the mechanics of thermal buckling of oil storage tanks
On the mechanics of thermal buckling of oil storage tanks
This paper addresses the thermal buckling behavior of tanks having a fixed roof, as employed to store fuel in the oil industry. The study is performed based on finite element analyses of the shell, including linear analysis, linear bifurcation analysis, and geometrically and constitutive nonlinear analysis, in order to elucidate the mechanics of stress redistribution at pre-buckling and buckling states. Based on previous works, the roof is modeled as a conical shell with an equivalent uniform thickness. The results show that the stress field due to a uniform temperature around the circumference is considerably different from that obtained for a non-uniform field as modeled in cases of temperatures due to an adjacent fire: Under uniform temperatures around the circumference the shell does not provide vertical restrain and buckling is dominated by hoop action; whereas displacement constraints are present under a non-uniform temperature, leading to buckling dominated by meridional stresses. Contrary to what has been suggested, the tank under uniform temperature cannot be taken as an upper bound to the buckling of a tank under an adjacent fire. In the evaluation of critical temperatures, the influence of geometric relations H/D (height to diameter) and R/t (radius to thickness) are independent of each other. It is shown that the problem is not imperfection-sensitive. Finally, thermal buckling mode and critical temperatures are strongly dependent on the H/D ratio of the cylindrical shell.
Finite element analysis, Fire, Shells, Tank roof, Thermal buckling, Vertical oil tanks
Pantousa, Dafni
7da51a1a-7447-4f27-920b-689d7c92fe8c
Godoy, Luis A.
53cd29e5-0f38-47dd-928a-6997f4d9782b
1 December 2019
Pantousa, Dafni
7da51a1a-7447-4f27-920b-689d7c92fe8c
Godoy, Luis A.
53cd29e5-0f38-47dd-928a-6997f4d9782b
Pantousa, Dafni and Godoy, Luis A.
(2019)
On the mechanics of thermal buckling of oil storage tanks.
Thin-Walled Structures, 145, [106432].
(doi:10.1016/j.tws.2019.106432).
Abstract
This paper addresses the thermal buckling behavior of tanks having a fixed roof, as employed to store fuel in the oil industry. The study is performed based on finite element analyses of the shell, including linear analysis, linear bifurcation analysis, and geometrically and constitutive nonlinear analysis, in order to elucidate the mechanics of stress redistribution at pre-buckling and buckling states. Based on previous works, the roof is modeled as a conical shell with an equivalent uniform thickness. The results show that the stress field due to a uniform temperature around the circumference is considerably different from that obtained for a non-uniform field as modeled in cases of temperatures due to an adjacent fire: Under uniform temperatures around the circumference the shell does not provide vertical restrain and buckling is dominated by hoop action; whereas displacement constraints are present under a non-uniform temperature, leading to buckling dominated by meridional stresses. Contrary to what has been suggested, the tank under uniform temperature cannot be taken as an upper bound to the buckling of a tank under an adjacent fire. In the evaluation of critical temperatures, the influence of geometric relations H/D (height to diameter) and R/t (radius to thickness) are independent of each other. It is shown that the problem is not imperfection-sensitive. Finally, thermal buckling mode and critical temperatures are strongly dependent on the H/D ratio of the cylindrical shell.
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More information
Accepted/In Press date: 25 September 2019
e-pub ahead of print date: 14 October 2019
Published date: 1 December 2019
Keywords:
Finite element analysis, Fire, Shells, Tank roof, Thermal buckling, Vertical oil tanks
Identifiers
Local EPrints ID: 435110
URI: http://eprints.soton.ac.uk/id/eprint/435110
ISSN: 0263-8231
PURE UUID: 417b1439-b5ba-461a-b5f2-996399524feb
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Date deposited: 23 Oct 2019 16:30
Last modified: 17 Mar 2024 12:35
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Author:
Dafni Pantousa
Author:
Luis A. Godoy
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