To the issue of application of thermoplastic reinforced pipes for the construction of oil and gas pipelines in the Arctic
https://doi.org/10.31660/0445-0108-2020-4-88-99
Abstract
Ensuring the safety of oil and gas facilities and increasing their facility life are today one of the most important tasks. Emergencies related to rupture and damage of steel pipelines because of their wear and tear and external factors are still the most frequent cases of emergencies during the transportation of hydrocarbons. To expand the fuel and energy complex in the north, in the direction of the Arctic, alternative types of pipelines are needed that solve the problems of reducing energy and labor costs in oil and gas companies, reducing the risk of environmental disasters and depressurization of pipelines during hydrocarbon production. Fiber-reinforced thermoplastic pipes can be such an alternative. This article is devoted to a comparative analysis of the materials of a composite system consisting of a thermoplastic pipe (inner layer) and reinforcing fibers (outer layer); we are discussing the design of the structural system consisting of polyethylene (inner layer) and aramid fibers (outer reinforcing layer).
About the Authors
A. A. Tolmachev
Industrial University of Tyumen
Russian Federation
Russian Federation
Artyom A. Tolmachev, Postgraduate at the Department of Transportation of Hydrocarbon Resources
Tyumen
V. A. Ivanov
Industrial University of Tyumen
Russian Federation
Russian Federation
Vadim A. Ivanov, Doctor of Engineering, Professor at the Department of Transportation of Hydrocarbon Resources
Tyumen
T. G. Ponomareva
Industrial University of Tyumen
Russian Federation
Russian Federation
Tatyana G. Ponomareva, Candidate of Engineering, Associate Professor at the Department of Transportation of Hydrocarbon Resources
Tyumen
References
1. Selin, V. S. (2013). Tret'ya paradigma razvitiya rossiyskoy Arktiki. Regional Economics: Theory and Practice, (21(300)), pp. 17-25. (In Russian).
2. Laypanova, A. D., & Krainova, E. A. (2018). Areas of national interest of oil companies in the Arctic and their appeal. Innovation & Investment, (3), pp. 178-186. (In Russian).
3. Volkov, A. S. (2017). Primenenie kompozitnykh truboprovodov v neftyanykh kompaniyakh. Neft. Gas. Novacii, (5(198)), pp. 44-47. (In Russian).
4. Rashhepkin, A. K., Salagaeva, E. V., Cherkasov, N. M., & Gladkih, I. F. (2005). Novye otechestvennye tehnologii pri izgotovlenii i montazhe truboprovodnyh system neftegazovoj infrastruktury iz kombinirovannyh trub na osnove termoplastov. Neftegazovoe delo, (2), pp. 1-6. (In Russian). Available at: http://ogbus.ru/article/view/novye-otechestvennyetexnologii-pri-izgotovlenii-i-montazhe-truboprovodnyx-sistem-neftegazovoj-infrastrukturyiz-kombinirovannyx-trub-na-osnove-termoplastov
5. Agapchev, V. I., & Vinogradov, D. A. (2004). Truboprovody iz polimernykh i kompozitnykh materialov. Moscow, Inter Publ., 228 p. (In Russian).
6. Serebrennikov, A. A., Lavrov, I. G. (2006). Obosnovanie metoda opredeleniya dopustimogo izgiba polietilenovoy truby pri nizkikh temperaturakh. Sbornik nauchnykh trudov " Megapaskal' ". Issue 1. Tyumen, Kompaniya Feniks Publ., pp. 25-26. (In Russian).
7. Yakubovskaya, S. V. (2005). Teoreticheskie osnovy povysheniya nadezhnosti polimernykh gazoraspredelitel'nykh i sbornykh setey. Diss. dokt. tekhn. nauk. Tyumen, 306 p. (In Russian).
8. Yalyshko, G. F. (1990). Svarka i montazh truboprovodov iz polimernykh materialov. Moscow, Stroyizdat Publ., 222 p. (In Russian).
9. Serebrennikov, D. A. (2005). K voprosu rascheta polietilenovykh trub pri bestransheynoy prokladke. Voprosy sostoyaniya i perspektivy razvitiya neftegazovykh ob''ektov Zapadnoy Sibiri : sbornik nauchnykh trudov. Tyumen, Neftegazovyy universitet Publ., pp. 17-19. (In Russian).
10. Lavrov, I. G. (2007). Analiz primeneniya polietilenovykh trub v usloviyakh otritsatel'nykh temperatur. Geotekhnicheskie i ekspluatatsionnye problemy neftegazovoj otrasli: Geotekhnicheskie i ekspluatatsionnye problemy neftegazovoy otrasli: materialy Mezhdunarodnoy nauchno-tekhnicheskoy konferentsii. Tyumen, Tyumen State University Publ., pp. 123-127. (In Russian).
11. Rashchepkin, A. K. Primenenie kombinirovannykh trub iz termoplastov pri stroitel'stve truboprovoda. Problemy stroitel'nogo kompleksa Rossii: materialy 19th Mezhdunarodnoy nauchno-tekhnicheskoy konferentsii (Ufa, March, 10-12, 2015). Ufa, pp. 358-359. (In Russian).
12. Tolmachev, A. A., & Ivanov, V. A. (2019). Prospects of using fiberglass and polymer-metal pipes in the oil and gas industry. Oil and Gas Studies, (6), pp. 132-139. (In Russian). DOI: 10.31660/0445-0108-2019-6-132-139
13. Gvozdev, I. V., Shalyapin, S. V., & Samoylov, S. V. (2011). Armirovannye truby s povyshennoy teplostoykost'yu. Polimergaz, (3), pp. 28-32. (In Russian).
14. Yagubov, E. Z. (2006). Stekloplastikovye truby: problemy i perspektivy primeneniya v neftegazovoy promyshlennosti. Oil and Gas Technologies, (5(46)), pp. 61-67. (In Russian).
15. Ivanov, S. B. (2001). Stekloplastik - kompozitsionnyy material dlya trub. Truboprovody i ekologiya, (2), p. 7. (In Russian).
16. Tolmachev, A. A., Tolmacheva, L. A., & Ivanov, V. A. (2019). Primenenie al'ternativy stal'nym trubam v neftegazovoy otrasli. Neftegazovyy terminal: materialy mezhdunarodnoy nauchno-tekhnicheskoy konferentsii "Transport i khranenie uglevodorodnogo syr'ya". Tyumen, Tyumen Oil and State University Publ., pp. 306-311. (In Russian).
17. Tolmachev, A. A., & Ivanov, V. A. (2019). K voprosu o proektirovanii truboprovodov v arkticheskoy zone. Vodnye resursy - osnova ustoychivogo razvitiya poseleniy Sibiri i Arktiki v XXI veke: materialy XXI Mezhdunarodnoy nauchno-prakticheskoy konferentsii. Tyumen, pp. 502-505. (In Russian).
18. Tskhadaya, N. D., Yagubov, E. Z., & Yagubov, Z. Kh. (2013). Stekloplastikovyye truby dlya povyshennoy germetichnosti dlya neftegazovoy promyshlennosti. Academic Journal of West Siberia, (4(47)), pp. 35. (In Russian).
19. Salehi-Khojin, A., Bashirzadeh, R., Mahinfalah, M., & Nakhaei-Jazar, R. (2006). The role of temperature on impact properties of Kevlar/fiberglass composite laminates. Composites Part B: Engineering, 37(7-8), pp. 593–602. (In English). DOI: 10.1016/j.compositesb.2006.03.009
Review
For citations:
Tolmachev A.A., Ivanov V.A., Ponomareva T.G. To the issue of application of thermoplastic reinforced pipes for the construction of oil and gas pipelines in the Arctic. Oil and Gas Studies. 2020;(4):88-99. (In Russ.) https://doi.org/10.31660/0445-0108-2020-4-88-99
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