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Application of Industry 4.0 technologies in the creation of automated industrial complexes

Issue No 1 (100) January - March 2021
Authors:

Grachev V.V.,
Myshlyaev L.P.,
Venger M.K.,
Purgina Marina,
Korovin D.E.,
Kulyushin G.A.
DOI: http://dx.doi.org/10.17212/2307-6879-2021-1-7-20
Abstract

The article examines the creation of automated industrial systems with the use of Industry 4.0. Describes the main stages of development of the concept of "Industry", technology of the present stage of Industry 4.0 technologies and the use of "digital twins" BIM 3D modeling of buildings and structures. The areas of application of these technologies, as well as their advantages and disadvantages, are presented. An example of designing the elements of the automated process control system of the processing plant "Mine No. 12" (Kiselevsk, Kemerovo region) using Industry 4.0 technologies is given.


Keywords: automated industrial complex (AIC), Industrial revolution, Industry 4.0, digital twin, BIM-technologies, computer-aided design (CAD) systems, modeling, automated process control systems (APCS), EPLAN

References

1. Industrial revolution. Wikipedia. (In Russian). Available at: https://ru.wikipedia.org/wiki/Industrial_revolution (accessed 16.03.2021).



2. The Fourth Industrial Revolution. Wikipedia. (In Russian). Available at: https://ru.wikipedia.org/wiki/Четвертая_промышленная_революция (accessed 16.03.2021).



3. Digital Twin: perspektivy ispol'zovaniya tsifrovykh dvoinikov [Digital Twin: prospects for the use of digital twins]. Available at: https://nfp2b.ru/2019/01/09/digital-twin-perspektivy-ispolzovaniya-tsifrovyh-dvojnikov (accessed 16.03.2021).



4. Myshlyaev L.P., Venger K.G., Grachev V.V. [Digitalization and management]. Sistemy avtomatizatsii v obrazovanii, nauke i proizvodstve, AS’2019: trudy XII Vserossiiskoi nauchno-prakticheskoi konferentsii (s mezhdunarodnym uchastiem) [Automation systems in education, science and production, AS'2019: Proceedings of the XII All-Russian scientific and practical conference (with international participation)]. Novokuznetsk, 2019, pp. 29–31. (In Russian).



5. Bykova V.N., Kim E., Gadzhialiev M.R., Musienko V.O., Orudzhev A.O., Turovskaya E.A. Primenenie tsifrovogo dvoinika v neftegazovoi otrasli [Application of a digital twin in the oil and gas industry]. Aktual'nye problemy nefti i gaza = Actual Problems of Oil and Gas, 2020, iss. 1 (28), p. 8. DOI: 10.29222/ipng.2078-5712.2020-28.art8.



6. Eremin N.A., Eremin Al.N. Tsifrovoi? dvoi?nik v neftegazovom proizvodstve [Digital twin in the oil and gas production]. Neft'. Gaz. Novatsii = Oil. Gas. Innovations, 2018, no. 12, pp. 14–17.



7. Kokorev D.S., Posmakov N.P. Primenenie "tsifrovykh dvoinikov" v proizvodstvennykh protsessakh [Application of "digital twins" in production processes]. Colloquium-journal, 2019, no. 26-2 (50), pp. 71–78. (In Russian).



8. Myshlyaev L.P., ed. Sistemy avtomatizatsii na osnove naturno-model'nogo podkhoda. V 3 t. T. 2. Sistemy avtomatizatsii proizvodstvennogo naznacheniya [Automation systems based on a natural model approach. In 3 vols. Vol. 2. Automation systems of production engineering]. Novosibirsk, Nauka Publ., 2006. 483 p.



9. Avdeev V.P., Zel'tser S.R., Kartashov V.Ya., Kiselev S.F. Naturno-matematicheskoe modelirovanie v sistemakh upravleniya [Natural and mathematical modeling in control systems]. Kemerovo, KemSU Publ., 1987. 84 p.



10. BIM [Building Information Model / Modeling]. Wikipedia. (In Russian). Available at: https://ru.wikipedia.org/wiki/BIM (accessed 16.03.2021).



11. Sazykin G.P., Sineokii B.A., Myshlyaev L.P. Proektirovanie i stroitel'stvo ugleobogatitel'nykh fabrik novogo pokoleniya [Design and construction of new generation coal processing plants]. Novokuznetsk, SibGIU Publ., 2003. 126 p.



12. Grachev V.V., Shipunov M.V. [Software for automation systems for industrial complexes]. Avtomatizirovannyi elektroprivod i promyshlennaya elektronika v metallurgicheskoi i gorno-toplivnoi otraslyakh: trudy Shestoi vserossiiskoi nauchno-prakticheskoi konferentsii [Automated electric drive and industrial electronics in metallurgical and mining and fuel industries. Proceedings of the Sixth conference]. Novokuznetsk, SibGIU Publ., 2014, pp. 226–232. (In Russian).



13. BIM – ot proekta do gotovogo zdaniya. Informatsionnoe modelirovanie v stroitel'noi otrasli [BIM – from the project to the finished building. Information modeling in the construction industry]. Information portal Rengabim.com. (In Russian). Available at: https://rengabim.com/press-room/renga-v-smi/bim-ot-proekta-do-gotovogo-zdaniya-informacionnoe-modelirovanie-v-stroitelnoj-otrasli/ (accessed 16.03.2021).



14. Talapov V.V. Osnovy BIM: vvedenie v informatsionnoe modelirovanie zdanii [Fundamentals of BIM: introduction to information modeling of buildings]. Moscow, DMK-Press Publ., 2011. 392 p.

For citation:

Grachev V.V., Myshlyaev L.P., Venger M.K., Purgina M.V., Korovin D.E., Kulyushin G.A. Primenenie tekhnologii Industry 4.0 pri sozdanii avtomatizirovannykh promyshlennykh kompleksov [Application of industry 4.0 technologies in the creation of automated industrial complexes]. Sbornik nauchnykh trudov Novosibirskogo gosudarstvennogo tekhni-cheskogo universiteta = Transaction of scientific papers of the Novosibirsk state technical university, 2021, no. 1 (100), pp. 7–20. DOI: 10.17212/2307-6879-2021-1-7-20. (In Russian)

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