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Vol 238
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Spatial Models Developed Using Laser Scanning at Gas Condensate Fields in the Northern Construction-Climatic Zone

S. N. Menshikov1
A. A. Dzhaljabov2
G. G. Vasiliev3
I. A. Leonovich4
O. M. Ermilov5
About authors
  • 1 — LLC Gazprom Dobycha Nadym
  • 2 — LLC Gazprom Dobycha Nadym
  • 3 — National University of Oil and Gas «Gubkin University»
  • 4 — National University of Oil and Gas «Gubkin University»
  • 5 — Yamal-Nenetsk Branch of Trofimuk Institute of Petroleum-Gas Geology and Geophysics
Date submitted:
Date accepted:
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Wide exploration and industrial exploitation of hydrocarbon fields in Yamal Peninsula pose in front of construction and mining companies critical problems of efficient construction at constantly evolving fields taking into account climatic and geocryological conditions of their location. Yamal Peninsula is characterized by unstable soils, the mobility of which has a substantial impact on the changes in spatial arrangement of field facilities, not only in the direct process of construction, but also during their scale-up and equipment overhaul. The paper examines implementation of 3D spatial arrangement modelling of industrial facilities into the process of construction and installation works at hydrocarbon fields in the northern construction-climatic zone. The purpose of implementing this method combined with 3D spatial modelling of equipment connections lies in reliability and safety enhancement of the facilities throughout their entire lifespan. Authors analyze statement and solution of the problem associated with alignment and installation of prefabricated equipment and pipelines, taking into account advanced technologies of 3D design and modelling. The study examines a 3D spatial model with the elements of equipment connection geometry; the model is related to existing production facilities at the field. Authors perform an analysis and in mathematical terms formulate the problem of optimal spatial arrangement for such models. The paper focuses on typical deviations, occurring in the installation process of constructions and connection facilities, their spatial arrangement is modelled. Possible solutions are offered, as well as an algorithm of their implementation at an operating field.

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  1. Vasil'ev G.G., Lezhnev M.A., Sal'nikov A.P., Leonovich I.A., Katanov A.A., Likhovtsev M.V. Analysis of Implementation Practice of 3D Laser Scanning at OAO «AK «Transneft» Facilities. Nauka i tekhnologii truboprovodnogo transporta nefti i nefteproduktov. 2015. N 2 (18), p. 48-55 (in Russian).
  2. Badertdinov R.Sh., Kitaeva L.A. Design of Gas Fields in Software Packages Aveva and Autodesk. Vestnik Kazanskogo tekhnologicheskogo universiteta. 2012. Vol. 15. N 10, p. 251-253 (in Russian).
  3. Val'kov V.A., Mustafin M.G., Makarov G.V. Application of Onshore Laser Scanning to Create 3D Digital Models of Shukhovskaya Tower. Zapiski Gornogo instituta. 2013. N 204, p. 58-61 (in Russian).
  4. Vasil'ev G.G., Leonovich I.A., Sal'nikov A.P. Application of Onshore Laser Scanning to Estimate Stress-Strain State of Aluminum Reservoir Roofs. Bezopasnost' truda v promyshlennosti. 2017. N 10, p. 11-17 (in Russian).
  5. Demchenko V.G., Garaev S.I., Mogushkov M.A. Technical Requirements To Aggregate Pipeline Nods of Engineering Connections at OAO «Gazprom» Facilities. Gazovaya promyshlennost'. 2014. N 3 (703), p. 40-45 (in Russian).
  6. Kulesh V.V., Khudyakov G.I. Application of High-Precision Laser Scanning Methods to Create Detailed Digital Copies of the Objects. Zapiski Gornogo instituta. 2013. N 204, p. 37-39 (in Russian).
  7. Vasil'ev G.G., Lezhnev M.A., Sal'nikov A.P., Leonovich I.A., Katanov A.A., Likhovtsev M.V. On the Performance of Operations in 3D Laser Scanning PVSP 20000. Nauka i tekhnologii truboprovodnogo transporta nefti i nefteproduktov. 2015. N 1 (17), p. 54-59 (in Russian).
  8. Vasil'ev G.G., Lezhnev M.A., Leonovich I.A., Sal'nikov A.P. Problems and Prospects of Using Onshore Laser Scanning to Examine Reservoirs. Transport i khranenie nefteproduktov i uglevodorodnogo syr'ya. 2016. N 1, p. 21-24 (in Russian).
  9. Solodovnikov A.V., Tlyasheva R.R. Design of Machinery Elements of Hazardous Industrial Objects (Oil and Gas Plants) Using Solidworks. Elektronnyi nauchnyi zhurnal «Neftegazovoe delo». 2006. N 2, p. 54 (in Russian).
  10. Egorova O., Shcherbinin D. Creating technical heritage object replicas in a virtual environment. Frontiers of mechanical engineering. 2016. Vol. 11, p. 108-115.
  11. Moskovchenko D.V. Characteristics of long-term dynamics of the Bovanenkovo gas field vegetation (The Yamal Peninsula). Tyumen State University Herald. 2013. Vol. 12, p. 47-54.
  12. Pogodaeva T.V., Artyukhov D.A. The structural features of the economy of the Yamal-Nenetsk autonomous district. Tyumen State University Herald. 2012. Vol. 11, p. 43-47.
  13. Xue B., Yang X., Zhu J. Architectural stability analysis of the rotary-laser scanning technique. Optics and lasers in engineering. 2016. Vol.78, p. 26-34.

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