Process Pipeline Strength Calculation Methodology Enhancement Using Finite-Element Method
Publication: Journal of Pipeline Systems Engineering and Practice
Volume 14, Issue 2
Abstract
The paper analyzes possible approaches to the technical evaluation of the process pipelines according to the diagnostic results using strength calculation based on the finite-element method. Process pipelines have a complex dimensional configuration and a complex stress–strain state, so traditional approaches to technical diagnostics and assessment of the technical condition of main pipelines are not applicable. Qualities of the process pipelines as objects bring relevance to the development of the practical approaches to its numerical modeling and formalization of boundary and loading conditions when using software systems based on the finite-element method. This paper presents the results of experimental studies of the stress–strain state of a number of test benches simulating elements of pipeline structures. Therefore, analytical research is presented that allows recommendations to be formulated for the numerical modeling of the process pipelines. The formulated recommendations allow us to correctly simulate process pipelines when calculating their stress–strain state using the finite-element method to model the conditions of fastening and loading, thereby ensuring high accuracy of the assessment of the technical condition of structures based on the results of their diagnostics.
Get full access to this article
View all available purchase options and get full access to this article.
Data Availability Statement
Some or all data, models, or code that support the findings of this study are available from the corresponding author upon reasonable request.
References
Aleshin, V. V., V. V. Kobyakov, and V. E. Seleznev. 2006. “Numerical analysis of corroded pipeline segments revealed by in-line inspection tools.” Int. J. Microstruct. Mater. Prop. 1 (3–4): 397–408. https://doi.org/10.1504/IJMMP.2006.011654.
Dixit, M., and A. K. Gupta. 2022. “A review of different assessment methods of corrosion of steel reinforcement in concrete.” Iran. J. Sci. Technol. Trans. Civ. Eng. 46 (2): 735–752. https://doi.org/10.1007/s40996-021-00644-5.
Fatemi, S. J., M. S. Mohamed Ali, A. H. Sheikh, and Z. Wei. 2017. “Finite element analysis of prestressed bridge decks using ultra high performance concrete.” Aust. J. Civ. Eng. 15 (2): 93–102. https://doi.org/10.1080/14488353.2017.1391660.
Goldzon, I. A., and A. P. Zavyalov. 2019a. “Ensuring reliability and environmental safety of oil and gas objects in complex engineering and geological conditions.” Environ. Prot. Oil Gas Complex 1 (286): 7–9. https://doi.org/10.33285/2411-7013-2019-1(286)-7-9.
Goldzon, I. A., and A. P. Zavyalov. 2019b. “Features of the calculated determination of the parameters of the stress-strain state of gas pipelines in complex engineering-geological conditions.” Proc. Gubkin Russ. State Univ. Oil Gas 3 (296): 127–133. https://doi.org/10.33285/2073-9028-2019-3(296)-127-133.
Naderpour, H., and M. Mirrashid. 2020. “Evaluation and verification of finite element analytical models in reinforced concrete members.” Iran. J. Sci. Technol. Trans. Civ. Eng. 44 (2): 463–480. https://doi.org/10.1007/s40996-019-00240-8.
Seleznev, V. E. 2012. “Numerical recovery of gas flows in pipeline systems.” J. Appl. Math. 2012: 180645. https://doi.org/10.1155/2012/180645.
Seleznev, V. E., and V. V. Aleshin. 2006. “Numerical analysis of fire risk at pipeline systems of industrial power facilities.” Int. J. Press. Vessels Pip. 83 (4): 299–303. https://doi.org/10.1016/j.ijpvp.2006.02.005.
Seleznev, V. E., and V. V. Aleshin. 2011. “Numerical simulation of pool fires in oil pipeline system. Advanced in safety, reliability and risk management.” In Proc., of the European Safety and Reliability Conf.: Advances in Safety, Reliability and Risk Management (ESREL 2011), 2435–2440. Paris: Centre National de la Recherche Scientifique.
Thomée, V. 2006. Vol. 25 of Galerkin finite element methods for parabolic problems, Springer series in computational mathematics. 2nd ed. Berlin: Springer. https://doi.org/10.1007/3-540-33122-0.
Vasilchenko, M., A. Zavyalov, and K. Zhuchkov. 2020. “Increasing the stability of a spatially distributed information system using a robust algorithm for filtering anomalous measurements.” Inf. Technol. Ind. 8 (3): 1–7.
Zakikhani, K., F. Nasiri, and T. Zayed. 2020. “A review of failure prediction models for oil and gas pipelines.” J. Pipeline Syst. Eng. Pract. 11 (1): 03119001. https://doi.org/10.1061/(ASCE)PS.1949-1204.0000407.
Zavyalov, A. 2020. “Gubkin University: Scientific and technical developments in the field of technical diagnostics of fuel and energy complex equipment and pipelines.” Proc. Gubkin Russ. State Univ. Oil Gas 1 (298): 79–88. https://doi.org/10.33285/2073-9028-2020-1(298)-79-88.
Zhuchkov, K. N., A. P. Zavyalov, and V. A. Lukyanov. 2016. “On the necessity to develop approaches to the assessment of reliability parameters of equipment and pipelines of gas transport systems.” Gas Ind. 11 (745): 54–60.
Information & Authors
Information
Published In
Copyright
© 2023 American Society of Civil Engineers.
History
Received: Jun 22, 2022
Accepted: Jan 9, 2023
Published online: Mar 3, 2023
Published in print: May 1, 2023
Discussion open until: Aug 3, 2023
Authors
Metrics & Citations
Metrics
Citations
Download citation
If you have the appropriate software installed, you can download article citation data to the citation manager of your choice. Simply select your manager software from the list below and click Download.