Source: http://journals.uran.ua/eejet/article/view/36246
Timestamp: 2019-04-20 08:26:56+00:00

Document:
At present, technological subsystems are usually hard-coded to produce a consumer product with a certain performance, and efficiency, which is defined either by the factory settings, or determined by the technologist's view on the mode, suitable for this or that equipment.
This is predetermined by a number of factors, however, features of the architecture of the technological line, which prevent the possibility to independently vary the feed of raw and energy products, as well as the lack of built-in capabilities to assess the absolute value added of the technological operation and effectiveness of the technological operation are determining ones.
There are no such shortcomings in the technological subsystem with a batch feed of raw products, the architecture of which is developed in the framework of this publication.
Independence of the performance change from external demand is ensured by the presence of the own buffering system of the finished product. Built-in capability to obtain data on economic parameters of the technological operation provides implementation of a full parametric optimization according to the resource efficiency criterion.
The maximum number of degrees of freedom together with the ability to assess technological operations opens up the practical possibility of implementing new, previously unavailable in terms of effectiveness technologies in production.
Goncharov, Yu. G., Davidkovich, A. S., Geyzenblazen, B. E., Gulenko, G. V. (1968). Avtomaticheskiy kontrol i regulirovanie tehnologicheskih protsessov na zhelezorudnyih obogatitelnyih fabrikah, Nedra, 227.
Kagramanyan, S. L., Davidkovich, A. S., Malyishev, V. A., Burenzhargal, O., Otgonbileg, Sh. (1989). Modelirovanie i upravlenie gornorudnyimi predpriyatiyami. Nedra, 360.
Churakov, E. P. (1987). Optimalnyie i adaptivnyie sistemyi. Energoatomizdat, 256.
Lee, T. H., Adams, G. E., Gaines, W. M. (1968) Computer process control: modeling and optimization. Wiley, 386.
Gavrilov, D. A. (2002). Upravlenie proizvodstvom na baze standarta MRP. Izdatelskiy dom «Piter», 320.
Bezhitskiy, S. S. (2005) Vyibor optimalnoy strukturyi apparatno-programmnogo kompleksa sistemyi upravleniya dvizheniem avtomobilnogo transporta. Vestnik universitetskogo kompleksa, 6 (20), 168–173.
Mihaylov, V. V. (1973). Nadezhnost elektrosnabzheniya promyishlennyih predpriyatiy. Energiya, 167.
Lutsenko, I. A. (2005). Sposib selektsiyi ob’ektiv. Patent 59203 Ukraina: MKI G06K 9/00; zayavitel i patentoobladatel Lutsenko I.A. 20021210028; zayavl. 12.12.2002; opubl. 15.11.2005, Byul. 11, 1.
2. Goncharov, Yu. G. Avtomaticheskiy kontrol i regulirovanie tehnologicheskih protsessov na zhelezorudnyih obogatitelnyih fabrikah [Text] / Yu. G. Goncharov, A. S. Davidkovich, B. E. Geyzenblazen, G. V. Gulenko. – Nedra, 1968. – 227 p.
3. Kagramanyan, S. L. Modelirovanie i upravlenie gornorudnyimi predpriyatiyami [Text] / S. L. Kagramanyan, A. S. Davidkovich, V. A. Malyishev, O. Burenzhargal, Sh. Otgonbileg. – Nedra, 1989. – 360 p.
4. Churakov, E. P. Optimalnyie i adaptivnyie sistemyi [Text] / E. P. Churakov. – Energoatomizdat, 1987. – 256 p.
5. Lee, T. H. Computer process control: modeling and optimization [Text] / T. H. Lee, G.E. Adams, W. M. Gaines. – Wiley, 1968. – 386 p.
6. Gavrilov, D. A. Upravlenie proizvodstvom na baze standarta MRP [Text] / D. A. Gavrilov. – Izdatelskiy dom «Piter», 2002. – 320 p.
9. Bezhitskiy, S. S. Vyibor optimalnoy strukturyi apparatno-programmnogo kompleksa sistemyi upravleniya dvizheniem avtomobilnogo transporta [Text] / S. S. Bezhitskiy // Vestnik universitetskogo kompleksa. – 2005. – Vol. 6, Issue 20. – P. 168–173.
10. Mihaylov, V. V. Nadezhnost elektrosnabzheniya promyishlennyih predpriyatiy [Text] / V. V. Mihaylo. – Energiya, 1973. – 167 p.
12. SposIb selektsiyi ob’ektiv : Patent 59203 Ukraina [Text] / Lutsenko I. A. – MKI G06K 9/00; zayavitel i patentoobladatel Lutsenko I. A. – 20021210028; zayavl. 12.12.2002; opubl. 15.11.2005, Byul. 11. – 1 p.

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