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An analytical method for strength verification of buried steel pipelines at normal fault crossings
Abstract The complex problem of strength verification of a buried steel pipeline crossing the trace of a normal active fault is treated analytically, and a refined methodology for the calculation of the axial and bending pipeline strains is presented. In essence, the proposed methodology extends the analytical methodology originally proposed by Karamitros et al. for the simpler case of strike-slip fault crossings. The modifications introduced to the original methodology are first identified, following a thorough examination of typical results from advanced 3D nonlinear numerical analyses, and consequently expressed via an easy to apply solution algorithm. A set of similar numerical analyses, performed for a wide variety of fault plane inclinations and intersection angles between the pipeline axis and the fault trace, is used to check the accuracy of the analytical predictions. Fairly good agreement is testified for pipeline strains up to 1.50–2.00%. It is further shown that, although the methodology proposed herein applies strictly to the case of right intersection angles, it may be readily extended to oblique intersections, when properly combined with existing analytical solutions for strike-slip fault crossings (e.g. ).
Highlights ► Analytical methodology for safety verification of buried steel pipelines crossing normal faults. ► This methodology extends the one proposed by Karamitros et al. for strike-slip faults. ► The methodology allows to compute the axial and bending strains developing on the pipeline. ► The analytical predictions are evaluated against the results of benchmark 3D numerical analyses. ► Extension of the methodology for oblique pipeline–fault intersections is also demonstrated.
An analytical method for strength verification of buried steel pipelines at normal fault crossings
Abstract The complex problem of strength verification of a buried steel pipeline crossing the trace of a normal active fault is treated analytically, and a refined methodology for the calculation of the axial and bending pipeline strains is presented. In essence, the proposed methodology extends the analytical methodology originally proposed by Karamitros et al. for the simpler case of strike-slip fault crossings. The modifications introduced to the original methodology are first identified, following a thorough examination of typical results from advanced 3D nonlinear numerical analyses, and consequently expressed via an easy to apply solution algorithm. A set of similar numerical analyses, performed for a wide variety of fault plane inclinations and intersection angles between the pipeline axis and the fault trace, is used to check the accuracy of the analytical predictions. Fairly good agreement is testified for pipeline strains up to 1.50–2.00%. It is further shown that, although the methodology proposed herein applies strictly to the case of right intersection angles, it may be readily extended to oblique intersections, when properly combined with existing analytical solutions for strike-slip fault crossings (e.g. ).
Highlights ► Analytical methodology for safety verification of buried steel pipelines crossing normal faults. ► This methodology extends the one proposed by Karamitros et al. for strike-slip faults. ► The methodology allows to compute the axial and bending strains developing on the pipeline. ► The analytical predictions are evaluated against the results of benchmark 3D numerical analyses. ► Extension of the methodology for oblique pipeline–fault intersections is also demonstrated.
An analytical method for strength verification of buried steel pipelines at normal fault crossings
Karamitros, D.K. (author) / Bouckovalas, G.D. (author) / Kouretzis, G.P. (author) / Gkesouli, V. (author)
Soil Dynamics and Earthquake Engineering ; 31 ; 1452-1464
2011-05-09
13 pages
Article (Journal)
Electronic Resource
English
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