Research of oil transportation information systems by main pipeline

Authors

  • S. A. Dairbayeva International Information Technologies University
  • А. M. Dairbayev International Information Technologies University
  • B. K. Sinchev International Information Technologies University
  • B. R. Rysbaiuly Международный университет информационных технологий

DOI:

https://doi.org/10.26577/JMMCS-2019-2-26
        119 127

Keywords:

information system, automation, oil pumping process, temperature conditions

Abstract

The process of pumping highly-viscosity and high pour-point oil during transportation through
main pipelines is a complex technological and technical task, which leads to its detail research. The
paper analyzes the information systems of main oil pipelines and the automation of hot oil pumping
process. The main goal of the research is to show possible ways of creating and designing control
and management systems for oil transportation through the main pipeline. Modern management
systems are divided by type of production, means and methods of processing. All software packages
operate offline and have their own input format, except that real-time monitoring and management
system. The analysis of automated control systems of the oil pumping process is carried out.
Automation of technological processes involves not only the creation of an automated workplace,
but also the protection of equipment from destruction. As a result of the analysis, it was shown
the necessity for create an automated information system that allows structuring numerous data
in the oil pumping process and monitoring the main technological parameters of the pipeline. The
research can be used for development of information systems for monitoring and controlling the
oil transportation process and creating a software product.

References

[1] Dairbayeva S.A., Rysbayuly B., Dairbayev A.M., "Informacionnaya sistema temperaturnogo rezhima perekachki nefti v neizotermicheskix magistralnyh truboprovodah [Information system of the temperature regime of oil pumping process in non-isothermal main pipelines]"(Proceedings of the VII International and Practical Conference "Innovative development problems in oil and gas industry Almaty, KBTU, 2015, 564-568).
[2] Andreyev E.B., Klyuchnikov A.I., Krotov A.V., Popadko V.E., Sharapova I.Y., "Avtomatizaciya tehnologicheskih processov dobychi i podgotovki nefti i gaza [Automation of technological processes of oil and gas production and treatment]" , Nedra, Moscow, 2008, 399-420.
[3] Rudachenko A.V., Chuhareva N.V., Zhilin A.V., "Proektirovanie i ekspluataciya gazonefteprovodov [Design and operation of gas and oil pipelines]" , TPU publisher, Tomsk, 2008, 238.
[4] Fedorov.V., Fedorov V.T., "O perekachke vysokovyazkih vysokozastyvayushih neftei po magistralnym nefteprovodam OAO «Severnye MN» [About pumping process of high-viscosity and high pour point oil through the main oil pipelines of JSC «Severnye MN»]"(Materials of regional scientific and technical conf "Problems of development and operation of high-viscosity oil and bitumen Ukhta, USTU, 2009, 15-21).
[5] Fedorov.V., "Rezhim raboty magistralnogo nefteprovoda "Usa-Ukhta-Yaroslavl"[Heat operation of the Usa-Ukhta-Yaroslavl oil pipeline] (Materials of international youth scientific conf Severgeoekotech-2010, Ukhta, UGTU, part 4, 2010, 199-203).
[6] Z.I Fonarev, "Elektropodogrev truboprovodov, rezervuarov i tehnologicheskogo oborudovaniya v neftyanoi promyshlennosti [Electrical heating of pipelines, tanks and equipment in the oil industry]" , Nedra, L., 1984, 148.
[7] Rakhmankulov, E.D., Movsumzade, A.E., Syrkin, A.M., "Avtomatizaciya processov pererabotki nefti na ustanovke AT-5 [Automation of oil refining at the AT-5 unit]" , Oil refining and petrochemistry, 2002, № 2, 37.
[8] Mwaku, VM, Kornilov, V.Yu., "Razrabotka metodiki postroeniya avtomatizirovannyh sistem upravleniya processami podgotovki i transportirovki nefti [Development of methods for constructing automated systems for managing the preparation and transportation of oil]" , Problems of Energy, Kazan State Power Engineering University, Kazan, 2012, № 7-8.
[9] S Kutukov, "Informacionno-analiticheskie sistemy magistralnyh truboprovodov [Information and analytical systems of mail pipelines]" , SIP RIA, Moscow, 2002, 324.
[10] Nekrasov I.V., "Opredelenie trebuemoi tochnosti matematicheskoi modeli pri postroenii sistemy dispetcherskogo kontrolya i upravleniya magistralnym nefteprovodom [Determination of the required accuracy of the mathematical model when building a system of dispatching control and management of main oil pipelines]" , Science and Technologies of Pipeline Transportation of Oil and Petroleum Products., 2012, №2, 38-43.
[11] Pushkarev A.., Myznikov M.O., Shmurygin M.V., "Vizualnye sredstva operativnogo kontrolya za soblyudeniem tekhnologicheskih rezhimov perekachki nefti po MN [Visual means of operational control over the observance of technological modes for pumping oil along oil pipelines]" , Science and Technologies for Pipeline Transport of Oil and Petroleum Products, 2011, №2, 30-34.
[12] Zholymbetova Z.Z., "Process automated control system development of cooling device"(Master’s thesis, Almaty, 2014, 34-45).
[13] M McClellan., "Introduction to manufacturing execution systems"(in Mes Conference and Exposition, Baltimore, Maryland, 2001).
[14] S Kalpakjian and S Schmid., "Manufacturing engineering and technology (5th ed.)" , Prentice Hall, 2006, 1059-1063 [15] "MasterScada osnovy proektirovaniya [Design baseline in Master Scada]" , Study guide, 2 edition, Moscow, 2012, 12-84.
[16] Veyber V., Anton K., Markov N., "Model-driven Platform for Oil and Gas Enterprise Data" , International Journal of Computer Applications, 2012, 14-20.
[17] Lun Y.H.V., Hilmola O.., Goulielmos A.M., Lai, K.-h., Cheng, T.C.E., Oil Transport Management (London: 2003), 90.
[18] Mike S Yoon, C Bruce Warren, Steve Adam., Pipeline System Automation and Control (New York: 2007), 9.
[19] Mohitpour, M., Szabo, J., Van Hardeveld, T., Pipeline Operation and Maintenance ASME (New York: 2004), 570.
[20] R Radvanovsky, J Brodsky., Handbook of SCADA Control Systems Security (New York: Taylor and Francis Group, 2013), 370.
[21] A.B Badiru, S.O Osisanya., Project Management for the Oil and Gas Industry, A World System Approach (Systems Innovation Book Series), 1st Edition, 2013.
[22] Dairbayeva S.A., Rysbayuly B.R., Dairbayev A.M., "Avtomatizirovannaya informacionnaya sistema magistralnogo nefteprovoda [Automated Information System of the Main Oil Pipeline]"(Proceedings of the International scientificpractical conference "Science integration, education and production, basis of the implementation of the Plan of the nation"(Saginov’s readings №7), Part IV, KSTU, Karaganda, 2015, 158).
[23] S.Dairbayeva, A.Dairbayev, B.Rysbaiuly., "Information system analysis of the underground pipeline (Proceedings of 2-nd international conference "Information technologies in science and industry IITU, Almaty, 2016 , 93-96).

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How to Cite

Dairbayeva, S. A., Dairbayev А. M., Sinchev, B. K., & Rysbaiuly, B. R. (2019). Research of oil transportation information systems by main pipeline. Journal of Mathematics, Mechanics and Computer Science, 102(2), 56–68. https://doi.org/10.26577/JMMCS-2019-2-26