Retrofit of Thin-Walled Steel Tanks for Low Liquid Level Operation

Maraveas, Chrysanthos; Miamis, K.

doi:10.3850/978-981-07-7137-9_004

Proceedings of the 10th Pacific Structural Steel Conference (PSSC 2013) 2013

DOI: 10.3850/978-981-07-7137-9_004

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Retrofit of Thin-Walled Steel Tanks for Low Liquid Level Operation

Chrysanthos Maraveas¹,

K. Miamis²

Abstract: The safe operation of steel oil storage tanks is vital for the petroleum industry. Such tanks are typically thin-walled, cylindrical, with large diameters and are not mechanically anchored to the foundation. Until recently, code provisions were oriented towards the design of tanks operating at high levels of the contained liquid and emphasis was given on preventing failure modes associated with yielding of the shell (plastic limit state). Based on this concept, the majority of the existing tanks were construct… Show more

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Numerical evaluation on shell buckling of empty thin-walled steel tanks under wind load according to current American and European design codes

Maraveas

Balokas

Tsavdaridis

2015

Thin-Walled Structures

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Liquid storage steel tanks are vertical above-ground cylindrical shells and as typical thin-walled structures, they are very sensitive to buckling under wind load, especially when they are empty or at low liquid level. Previous studies revealed discrepancies in buckling resistance of empty tanks between the design method proposed by the American Standard API 650 and the analytical formulas recommended by the European Standard EN1993-1-6 and EN1993-4-2. This study presents a comparison between the provisions of current design codes by performing all types of numerical buckling analyses recommended by Eurocodes (i.e. LBA-linear elastic bifurcation analysis, GNAgeometrically nonlinear elastic analysis of the perfect tank and GNIA-geometrically nonlinear elastic analysis of the imperfect tank). Such analyses are performed in order to evaluate the buckling resistance of two existing thin-walled steel tanks, with large diameters and variable wall thickness. In addition, a discussion is unfolded about the differences between computational and analytical methods and the conservatism that the latter method imposes. A sensitivity study on the geometric imperfections and the boundary conditions is also conducted. Investigation on the boundary conditions at the foot of the tank highlights the sensitivity to the fixation of the vertical translational degree of freedom. Further, it is indicated that the imperfection magnitude recommended by the EN1993-1-6 is extremely unfavorable when applied to large diameter tanks. Comments and conclusions achieved could be helpful in order to evaluate the safety of the current design codes and shed more light towards the most accurate one.

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Numerical evaluation on shell buckling of empty thin-walled steel tanks under wind load according to current American and European design codes

Maraveas

Balokas

Tsavdaridis

2015

Thin-Walled Structures

View full text Add to dashboard Cite

show abstract

Fragility of open-topped oil storage tanks under wind in Patagonia

Jaca,

Grill,

Pareti

et al. 2023

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Retrofit of Thin-Walled Steel Tanks for Low Liquid Level Operation

Cited by 2 publications

References 0 publications

Numerical evaluation on shell buckling of empty thin-walled steel tanks under wind load according to current American and European design codes

Numerical evaluation on shell buckling of empty thin-walled steel tanks under wind load according to current American and European design codes

Fragility of open-topped oil storage tanks under wind in Patagonia

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