Scientific and technical journal

«Automation and Informatization of the fuel and energy complex»

ISSN 0132-2222

Automation and Informatization of the fuel and energy complex
№ 7(588), July 2022
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A virtual environment for training in the oil and gas process control

UDC: 004.94
DOI: 10.33285/2782-604X-2022-7(588)-53-57

Authors:

LEONOV DMITRY G.1,
BARASHKIN ROMAN L.1,
PAPILINA TATIANA M.1,
YUZHANIN VIKTOR V.1

1 National University of Oil and Gas "Gubkin University", Moscow, Russia

Keywords: digital twins, digitalization of training, distance training, computer training complexes, automation of technological processes, LNG

Annotation:

The article is devoted to the issues of building a virtual environment for training specialists in the field of automation and process control of fuel and energy complex. In conditions of the economy digitalization and personnel shortage, such environment can significantly expand possibilities of specialized students training and advanced training of industry workers as well as increase the trainees’ number both per a time unit and per one teacher-instructor. The article considers methodological, software and mathematical provision of the teaching virtual environment, based on a comprehensive Gubkin University’s experience in the field of creation and development of computer simulators and complexes for technological process simulation. The proposed solutions meet the requirements of a cross-platform and can operate under control of modern versions of Windows, macOS, Linux, including Astra Linux. The virtual environment has been tested on an example of simulation of technological processes of low-tonnage liquid natural gas production.

Bibliography:

1. Kalashnikov P.K., Zhedyaevskiy D.N. Ispol'zovanie sovremennykh tsifrovykh tekhnologiy v obrazovanii kak sposob vovlecheniya molodezhi v sozidatel'nuyu deyatel'nost' // Inform. bezopasnost' lichnosti sub"ektov obrazovatel'nogo protsessa v tsifrovoy informatsionno-obrazovatel'noy srede: sb. nauch. st. – M.: RGU nefti i gaza (NIU) im. I.M. Gubkina, 2021. – S. 232–246.
2. De Lima Guedes K.K., Davis H.C., Schulz J. Integrating MOOCs into traditional higher education modules: a MOOC-based blend framework // Research in Learning Technology. – 2022. – Vol. 30. – DOI: 10.25304/rlt.v30.2702
3. Svidetel'stvo o gos. registratsii programmy dlya EVM № 2021681336 Ros. Federatsiya. Komp'yuternyy trenazher obucheniya protsessam malotonnazhnogo szhizheniya prirodnogo gaza / P.K. Kalashnikov, R.L. Barashkin, V.V. Yuzhanin [i dr.]; zayavitel' FGAOU VO "RGU nefti i gaza (NIU) im. I.M. Gubkina". – № 2021680645; zayavl. 13.12.2021; opubl. 21.12.2021.
4. Brusilovskiy A.I. Fazovye prevrashcheniya pri razrabotke mestorozhdeniy nefti i gaza. – M.: Graal', 2002. – 575 s.
5. Sukharev M.G., Samoylov R.V. Analiz i upravlenie statsionarnymi i nestatsionarnymi rezhimami transporta gaza. – M.: Izd. tsentr RGU nefti i gaza (NIU) im. I.M. Gubkina, 2016. – 399 s.
6. Kasatkin A.G. Osnovnye protsessy i apparaty khimicheskoy tekhnologii. – M.: Khimiya, 1973. – 752 s.
7. Elliott J.R., Lira C.T. Introductory Chemical Engineering Thermodynamics. – 2nd edition. – Pearson, 2012. – 912 p.
8. Papilina T.M., Barashkin R.L., Vasilyuk N.S. Sistema avtomaticheskoy otsenki deystviy obuchaemykh v komp'yuternykh trenazhernykh kompleksakh // Tr. RGU nefti i gaza im. I.M. Gubkina. – 2019. – № 3(296). – S. 150–164. – DOI: 10.33285/2073-9028-2019-3(296)-150-164