Approaches to the integration of information about resource and financial flows in the fuel and power complex under the digital transformation of control systems

The development and implementation of the strategy for organizational reconfiguration of a digital heat and power supersystem to streamline the processes of providing structured technological zones with heat is the basis for creating a coordinated system for optimizing the tariff and price load on heat and electricity consumers in the Russian economy. The reform of the industry creates opportunities to form market financial sources for the implementation of investment projects in the heat power industry of Russia, as well as to modernize the production capacities of the heat power system and district heating systems.

The introduction in the industry of a mechanism for regulating the processes of providing heat energy services based on the transition to the system of Unified Heat Supply Organizations and providing a return on investment of the price trend in the heat market with the possibility of transferring departmental reporting and analytics to a single regulatory legal basis allows you to regulate the work of the power industry as a subsystem of the Russian energy sector with general information technology platform of fuel and energy complex.

The inclusion of Unified Heat Supply Organizations in market relations and the formation of game rules in the market using the principle of tariff setting according to the alternative boiler house rule allow you to create conditions for emergence of the heat market. Unified Heat Supply Organizations, being, on the one hand, a market structure, and, on the other hand - the basis for further consolidation of the efforts of stakeholders in supplying consumers with energy, become the basis of the “intellectual settlement” and in the future, the digital agent of the industrial Internet.

Unified Heat Supply Organizations provide, therefore, the digital modernization of power engineering. It becomes the material and information base for the formation of regulatory relations not only in heat supply, but with the development of automated systems for monitoring and accounting of energy resources in the field of electricity and gas supply and hot water supply, that is, Unified Heat Supply Organizations become the basis of a single information space for energy supply.

1. Ukaz Prezidenta Rossiiskoi Federatsii ot 9 maya 2017 g. № 203 “O Strategii razvitiya informatsionnogo obshchestva v Rossiiskoi Federatsii na 2017 — 2030 gody” [Decree of the President of the Russian Federation “On the Strategy for the Development of the Information Society in the Russian Federation for 2017 — 2030” No. 203, dated on May 9, 2017], Legal reference system “Consultant plus” Available at: http://www.сonsultant.ru/document/cons_doc_LAW_216363/ (accessed 02.05.2020).

2. Rasporyazhenie Pravitel’stva Rossiiskoi Federatsii ot 28 iyu-lya 2017 g. № 1632-r “Tsifrovaya ekonomika Rossiiskoi Federatsii” [ Order of the Government of the Russian Federation “Digital Economy of the Russian Federation” No.1632-r, dated on July 28, 2017], Legal reference system “Consultant plus”. Available at: http://www.сonsu1tant.ru/document/cons_doc_LAW_216363/ (accessed 02.05.2020).

3. Balbukova E. V., Oleinik A. G. Razrabotka sistemy avtom-atizirovannogo monitoringa i prognozirovaniya ostatoch-nogo resursa teploenergeticheskogo oborudovaniya [Development of the system for automated monitoring and forecasting the residual resource of heat power equipment], Trudy Kol’skogo nauchnogo tsentra RAN, 2017, vol. 8, no. 3-8, pp. 144—155.

4. Bortalevich S. I., Loginov E. L. [et al]. Problemy prog-nozirovaniya kriticheskikh tekhnicheskikh situatsii v EES Rossii s uchetom smart grid [Problems of forecasting critical technical situations in the UES of Russia taking into account smart grid], Problemy bezopasnosti i chrezvy-chainykh situatsii [Safety and Emergencies Problems], 2018, no. 1, pp. 30—37.

5. Vazhenin S. K., Gandzha T. V. Komp’yuternoe modeliro-vanie sistemy upravleniya teploenergeticheskimi protsessami [Computer simulation of the control system for heat and power processes], Elektronnye sredstva i sistemy upravleniya [Electronic Devices and Control Systems], 2016, no. 1-2, pp. 25—29.

6. Grabchak E. P. Konceptual’nyi podkhod k vnedreniyu v otrasli riskorientirovannoi sistemy monitoringa i otsenki gotovnosti sub''ektov elektroenergetiki k rabote v otopi-tel’nyi sezon [Conceptual approach to the introduction of a risk-based system in the industry for monitoring and assessing the readiness of electric power industry to work in the heating season], Elektroenergiya. Peredacha i raspredelenie, 2018, no. 3 (48), pp. 4—10.

7. Zorin S. V. [et al]. Povyshenie effektivnosti upravleniya teploenergeticheskimi resursami [Improving the management of heat and energy resources], Vestnik Izhevskoi gosudarst-vennoi sel'skohozyaistvennoi akademii [The Bulletin of Izhevsk State Agricultural Academy], 2012, no. 4 (33), pp. 91—94.

8. Ispolatov S. Mezhdu TETs i PGU [Between TPPand CCGT]. Available at: https://peretok.ru/articles/strategy/20772/ (accessed 02.05.2020).

9. Mendelevich V. A. Vnedrenie sovremennykh system avtoma-ticheskogo regulirovaniya — odin iz luchshikh sposobov povysheniya effektivnosti ekspluatatsii teploenergetichesk-ogo oborudovaniya [Introduction of modern automatic control systems is one of the best ways to increase the efficiency of operation of heat power equipment], Avtomatizatsiya i IT v en-ergetike, 2014, no. 12 (65), pp. 16—21.

10. Novak A. V. Doklad ob itogakh raboty toplivno-energetich-eskogo kompleksa v 2018 godu i zadachakh na 2019 god na zasedanii Pravite’stva Rossiiskoi Federatsii [Report on the results of the fuel and energy complex in 2018 and tasks for 2019 at the meeting of the Government of the Russian Federation]. Available at: https://minenergo.gov.ru/node/14548 (accessed 02.05.2020).

11. Panova A. V., Monogarov O. I. Investitsii i tarifoobrazo-vanie v elektroenergetike RF: srok sluzhby oborudovaniya i ego vliyanie na investitsionnye riski [Investments and tariffsetting in the electric power industry of the Russian Federation: equipment service life and its impact on investment risks], Problemy analiza riska [Issues of Risk Analysis], 2016, Vol. 13, no. 4, pp. 56—60.

12. Patrushev N. P. Iznos oborudovaniya teploelektrotsentralei i ob''ektov teplosnabzheniya dostigaet 80 % [Depreciation of the equipment of heating plants and heat supply facilities reaches 80%]. Available at: https://asninfo.ru/news-/87600-sekretar-sb-rf-nikolay-patrushev-iznos-oborudo-vaniya-teploelektrotsentraley-i-obyektov-teplosnabzhen (accessed 02.05.2020).

13. Rubashkin A. S. Analiz effektivnosti i prognozirovanie raz-vitiya predpriyatii teploenergeticheskogo kompleksa na os-nove baiesovskikh intellectual'nykh tekhnologii [Efficiency analysis and forecasting the development of enterprises of the heat and power complex based on Bayesian intellectual technologies], Mezhdunarodnaya konferentsiya po myagkim vychisleniyam i izmereniyam [International Conference on Soft Computing and Measurements], 2012, Vol. 2, pp. 9—15.

14. Salikhov A. A., Bakirov F. G. Analiz razvitiya teploener-geticheskogo kompleksa Rossii [Analysis of the development of the heatpower complex of Russia], Energetik, 2014, no. 4, pp. 8-11.

15. Saltykov M. A., Skakun A. Yu. Sovershenstvovanie formiro-vaniya i ispol’zovaniya finansovykh resursov teploenerge-ticheskoi kompanii [Improving the formation and use of financial resources of the heat energy company], Vektor ekonomiki, 2018, no. 7 (25), pp. 14.

16. Proekt “Tsifrovaya energetika” [The project “Digital Energy”]. Available at: https://iot.ru/energetika/minener-go-rf-sformirovalo-proekt-tsifrovaya-energetika (accessed 02.05.2020).

17. O khode razrabotki i vnedreniya GIS TEK [About the development and implementation of the State Information System of the Fuel and Energy Complex], Materialy k rasshirennomu zasedaniyu Komiteta po energetike Gosudarstvennoi Dumy Rossiiskoi Federatsii [Materials for the Extended Meeting of the Energy Committee of the State Duma of the Russian Federation]. Available at: https://minenergo.gov.ru/node/14309 (accessed 02.05.2020).

18. Soveshchanie po voprosam razvitiya elektroenergetiki, 14 noyabrya 2017 goda [Meeting on the Issues of the Electric Power Industry Development, November 14, 2017]. Available at: http://kremlin.ru/events/president/news/copy/56071 (accessed 02.05.2020).