The linear section of main oil and gas pipelines, which are potentially the most dangerous type of pipeline networks, was selected as the object of investigation. A technique for assessing the stress-strain state of the pipeline was developed. Underground pipeline deformation process was mathematically modeled according to the set of points displacement. The process of the underground pipeline points position determination process, estimation of the interpolation accuracy of the underground pipeline spatial position, interpolation step and smoothing parameters determination were described.
| Published in | International Journal of Industrial and Manufacturing Systems Engineering (Volume 2, Issue 6) |
| DOI | 10.11648/j.ijimse.20170206.11 |
| Page(s) | 66-71 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2017. Published by Science Publishing Group |
Pipeline Networks, Stress-Strain State, Methodology, Risk Assessment, Mathematic Model, Axis Coordinates
| [1] | Gas pipeline incidents. 8-th Report of the European Gas Pipeline Incident Data Group (1970-2010). Access mode: (http://www.egig.nl/downloads/8th_report_EGIG.pdf). |
| [2] | V. Y. Bash. Stress and deformation analysis by thermoelectric technique / V. Y. Bash. - Kyiv: Naukova dumka, 1984. - 100 p. |
| [3] | V. A. Zolochevsky. Experiments in development mechanic / V. A. Zolochevsky. - Moscov: Stryizdat, 1983. - 192 p. |
| [4] | V. V. Kluev. Non-destructive testing and diagnostics / V. V. Kluev. - Moscov: Mashynostroenie, 2003. - 656 p. - (3). |
| [5] | A. P. Oliynyk Mathematical models for process of quasy-stationary deformation of pipline and industrial systems under their spatial configuration change [Text] / A. P. Oliynyk // Scientific publication. - Ivano-Frankivsk: IFNTUOG, 2010. - 320 p. |
| [6] | A. A. Samarsky. Numerical procedures: College-level study guide / A. A. Samarsky, A. V. Gulin. - Moscov: Nauka. MEO of physical and mathematical literature, 1989. - 432 p. |
| [7] | G. I. Marchuk. NUMERICAL METHEMATICS PROCEDURES / G. I. Marchuk. - Moscov: Nauka, 1984. - 608 p. |
| [8] | L. I. Sedov. Continuum mechanics / L. I. Sedov. - Moscov: Nauka, 1984. - 572 p. |
| [9] | SNiP 2.05.06-85. Main pipelines / Gosstriy SSSR. - М.: CPTE Gosstroy SSSR, 1999. - 125 p. |
| [10] | N. P. Korneychuk. Extremal problems in approximation theory / N. P. Korneychuk. - Moscov: Nauka, 1976. - 320 p. |
| [11] | N. P. Korneychuk. Splines in approximation theory / N. P. Korneychuk. - Moscov: Nauka, 1984. - 422 p. |
| [12] | N. S. Bakhvalov. Numerical procedures/ N. S. Bakhvalov. - Moscov: Nauka, 1973. - 631 p. |
APA Style
Liubomyr Zhovtulia, Andriy Oliynyk, Andriy Yavorskyi, Maksym Karpash, Iryna Vashchyshak. (2017). Development of Methodology for Main Pipelines Linear Section Stress-Strain State Сhanges Assessment. International Journal of Industrial and Manufacturing Systems Engineering, 2(6), 66-71. https://doi.org/10.11648/j.ijimse.20170206.11
ACS Style
Liubomyr Zhovtulia; Andriy Oliynyk; Andriy Yavorskyi; Maksym Karpash; Iryna Vashchyshak. Development of Methodology for Main Pipelines Linear Section Stress-Strain State Сhanges Assessment. Int. J. Ind. Manuf. Syst. Eng. 2017, 2(6), 66-71. doi: 10.11648/j.ijimse.20170206.11
AMA Style
Liubomyr Zhovtulia, Andriy Oliynyk, Andriy Yavorskyi, Maksym Karpash, Iryna Vashchyshak. Development of Methodology for Main Pipelines Linear Section Stress-Strain State Сhanges Assessment. Int J Ind Manuf Syst Eng. 2017;2(6):66-71. doi: 10.11648/j.ijimse.20170206.11
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Download@article{10.11648/j.ijimse.20170206.11,
author = {Liubomyr Zhovtulia and Andriy Oliynyk and Andriy Yavorskyi and Maksym Karpash and Iryna Vashchyshak},
title = {Development of Methodology for Main Pipelines Linear Section Stress-Strain State Сhanges Assessment},
journal = {International Journal of Industrial and Manufacturing Systems Engineering},
volume = {2},
number = {6},
pages = {66-71},
doi = {10.11648/j.ijimse.20170206.11},
url = {https://doi.org/10.11648/j.ijimse.20170206.11},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijimse.20170206.11},
abstract = {The linear section of main oil and gas pipelines, which are potentially the most dangerous type of pipeline networks, was selected as the object of investigation. A technique for assessing the stress-strain state of the pipeline was developed. Underground pipeline deformation process was mathematically modeled according to the set of points displacement. The process of the underground pipeline points position determination process, estimation of the interpolation accuracy of the underground pipeline spatial position, interpolation step and smoothing parameters determination were described.},
year = {2017}
}
TY - JOUR T1 - Development of Methodology for Main Pipelines Linear Section Stress-Strain State Сhanges Assessment AU - Liubomyr Zhovtulia AU - Andriy Oliynyk AU - Andriy Yavorskyi AU - Maksym Karpash AU - Iryna Vashchyshak Y1 - 2017/12/01 PY - 2017 N1 - https://doi.org/10.11648/j.ijimse.20170206.11 DO - 10.11648/j.ijimse.20170206.11 T2 - International Journal of Industrial and Manufacturing Systems Engineering JF - International Journal of Industrial and Manufacturing Systems Engineering JO - International Journal of Industrial and Manufacturing Systems Engineering SP - 66 EP - 71 PB - Science Publishing Group SN - 2575-3142 UR - https://doi.org/10.11648/j.ijimse.20170206.11 AB - The linear section of main oil and gas pipelines, which are potentially the most dangerous type of pipeline networks, was selected as the object of investigation. A technique for assessing the stress-strain state of the pipeline was developed. Underground pipeline deformation process was mathematically modeled according to the set of points displacement. The process of the underground pipeline points position determination process, estimation of the interpolation accuracy of the underground pipeline spatial position, interpolation step and smoothing parameters determination were described. VL - 2 IS - 6 ER -
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