Prediction of the burst pressure for defective pipelines using different semi-empirical models

Budhe, S.; Barros, Sílvio de

doi:10.3221/igf-esis.52.12

Cited by 4 publications

(2 citation statements)

References 27 publications

(31 reference statements)

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“…The BP values of shallow spherical and torispherical caps [16], steel toriconical shells [17], and large diameter-to-thickness ratio thinwalled steel cylinders [18] were computed using both experimental and numerical studies. The BP of pipelines [19], strain distributions and the BP [20], and explosion burst tests [21,22] of the pressure cylinders were calculated analytically. The BP [23] and fracture failures [24] of the LPG cylinders were studied.…”

Section: Introductionmentioning

confidence: 99%

Taşıt Silindirik LPG Tanklarının Mukavemet Performans Değerlendirmeleri

KAPTAN,

KİŞİOĞLU

2023

Journal of Polytechnic

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This study aims to examine and compare the strength performances of vehicle cylindrical liquefied petroleum gas (LPG) tanks produced and used in Turkey, taking into account European and Turkish Standards. The LPG tanks were subjected to burst and fatigue tests to explore their burst pressures and fatigue performances using both experimental and computer aided techniques. To investigate the strength of the tanks, a universal test bench was developed and calibrated for use in both burst and fatigue tests. The obtained experimental results in terms of burst and fatigue failure locations for each brand of tank are compared with the results obtained using finite element based simulations. Visual solid models in 3D were drawn in SolidWorks and then ANSYS software was used to perform Finite Element Analysis (FEA) simulations on those LPG cylinders to obtain the results, such as stresses, deformations, burst and fatigue failure locations. As a result of this comparison, it has been observed that some brands of cylindrical LPG tanks are more durable and safe for use in vehicles. Since the same standard requirements and the same commercial material are used in LPG tank production, it is revealed that some companies need to reconsider their design, manufacturing and especially welding processes. The results of this independent and objective study can also be used as a warning for LPG tank manufacturers and as a guide for their customers in choosing a safe product.

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Section: Introductionmentioning

confidence: 99%

Taşıt Silindirik LPG Tanklarının Mukavemet Performans Değerlendirmeleri

KAPTAN,

KİŞİOĞLU

2023

Journal of Polytechnic

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“…The mixture of oil and natural gas coming out of a well must be transported as two-phase flow by pipelines to processing facilities before the oil can be separated from the gas. The fracture prediction and the reliability of such piping systems in various practical applications are primordial given their impact on the economic plan and security [1][2][3][4]. Several authors have been studied pipe fracture problems by means of numerical simulation in order to assess the mechanical integrity, taking into account different crack shapes [5][6][7].…”

Section: Introductionmentioning

confidence: 99%

Numerical prediction of the ductile damage for axial cracks in pipe under internal pressure

Fezazi

Mechab

Salem

et al. 2021

Frattura Ed Integrità Strutturale

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This study presents a numerical prediction of the ductile damage for axial cracks in pipe subjected to internal pressure. The three dimensional finite element methods used to evaluate the J-integral. The effect of the external radius (Rext),the thickness (t), length crack (a) , the applied loads (P) and the crack position of the pipes has studied. The Monte Carlo method was used to determine the probabilistic characteristics of the J-integral. It’s also used later to predict the failure probability based on initiation of the crack growth. We note that the crack size and the geometries of the pipe are an important factor influencing on the durability of the pipe.

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Probabilistic structural integrity assessment for Inconel690 alloy steam generator tube with volume defect

Huang

Peng

2021

Nuclear Engineering and Design

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Prediction of the burst pressure for defective pipelines using different semi-empirical models

Cited by 4 publications

References 27 publications

Taşıt Silindirik LPG Tanklarının Mukavemet Performans Değerlendirmeleri

Taşıt Silindirik LPG Tanklarının Mukavemet Performans Değerlendirmeleri

Numerical prediction of the ductile damage for axial cracks in pipe under internal pressure

Probabilistic structural integrity assessment for Inconel690 alloy steam generator tube with volume defect

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