INCREASING ECONOMIC SUSTAINABILITY OF THE REGIONAL ENERGY SYSTEMS IN THE CONDITIONS OF GROWTH OF IRREGULAR ENERGY CONSUMPTION
- Authors: Lisin E.M.1, Zhovtyak P.G.1, Kurdyukova G.N.1, Anisimova Y.A.2
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Affiliations:
- National Research University “Moscow Power Engineering Institute”, Moscow
- Togliatti State University, Togliatti
- Issue: No 4 (2017)
- Pages: 42-50
- Section: Articles
- URL: https://vektornaukieconomika.ru/jour/article/view/145
- DOI: https://doi.org/10.18323/2221-5689-2017-4-42-50
- ID: 145
Cite item
Full Text
Abstract
One of the modern problems of the energy systems of countries with a post-industrial economy is to ensure their sustainable development in the face of growing uneven energy consumption, which is caused by a decrease in the role of industry in the structure of demand for energy products. In Russia, this problem is exacerbated by a significant share of the combined production of energy products, characterized by low maneuverability and hence is poorly adapted to operating under daily fluctuations in demand for electricity.
This paper considers the problem of increasing the stability of the energy system by optimizing the production structure of thermal power plants and proposes a combinatorial algorithm that allows to draw up a plan for structural and technological modernization of the composition of power equipment taking into account the forecast of growth of uneven electricity consumption. To solve this problem, the authors analyze the change in the structure of demand for combined-production products and its further effect on the efficiency of production of the energy system. The analysis has revealed that structural changes in the demand for energy products lead to the increase in uneven daily consumption. As a result, it leads to inefficient use of the heat-generating aggregates of the power system. The results of the study reveal the necessity to develop an approach to optimize the production structure of the energy system of the regions. When optimizing the production structure, the optimality criterion was used – the utilization factor of power equipment production capacity. With the application of the efficiency criterion, the daily consumption of energy production was estimated based on the type of the heating units used. Based on the evaluation results, an algorithm for optimizing the generation of energy products is compiled; through this algorithm, the principles of dynamic programming are realized.
To support the final results of the study, the authors draw attention to the application of the proposed approach in the preparation of investment programs that will ensure an effective level of capacity utilization.
About the authors
Evgeniy Mikhailovich Lisin
National Research University “Moscow Power Engineering Institute”, Moscow
Email: lisinym@mpei.ru
PhD (Economics), assistant professor of Chair “Economics in Power Engineering and Industry”
Russian FederationPavel Gennadievich Zhovtyak
National Research University “Moscow Power Engineering Institute”, Moscow
Email: zhovtiakpg@mpei.ru
postgraduate student of Chair “Economics in Power Engineering and Industry”
Russian FederationGalina Nikolaevna Kurdyukova
National Research University “Moscow Power Engineering Institute”, Moscow
Email: kurdiukovagn@mpei.ru
PhD (Engineering), Head of Chair “Economics in Power Engineering and Industry”
Russian FederationYuliya Alekseevna Anisimova
Togliatti State University, Togliatti
Author for correspondence.
Email: U.Anisimova@yandex.ru
PhD (Economics), assistant professor of Chair “Finance and Credit”
Russian FederationReferences
- Massel L.V., Pyatkova N.I., Massel A.G. Adapting contingency management methodos to address threat impact assessment on the state of energy security. Informatsionnye i matematicheskie tekhnologii v nauke i upravlenii, 2016, no. 1, pp. 28–38.
- Energy Strategy of Russia for the petiod up to 2035. Minenergo Rossii. URL: energystrategy.ru/ab_ins/source/ES-2035_09_2015.pdf.
- Gromov A.I. The concept of energy strategy of Russian federation to the year 2050. Energeticheskaya politika, 2014, no. 2, pp. 37–43.
- Lisin E.M., Kindra V.O., Marishkina Yu.S., Anisimova Yu.A. The development and economic analysis of the solutions for combined production of energy products in the conditions of power engineering decentralization. Vektor nauki Tolyattinskogo gosudarstvennogo universiteta. Seriya: Ekonomika i upravlenie, 2017, no. 2, pp. 79–84.
- Lisin E.M., Stepanova T.M., Zhovtyak P.G. Investigation of the effect of cost allocation methods on the competitiveness of CHP plants in energy markets. Nauchno-tekhnicheskie vedomosti Sankt-Peterburgskogo gosudarstvennogo politekhnicheskogo universiteta. Ekonomicheskie nauki, 2016, no. 6, pp. 148–158.
- Shulga A.S., Zatonskiy A.V. Forecasting of the dynamics of electricity consumption in Russia on the basis of linear mathematical model. Molodaya nauka, 2016, no. 3, pp. 15–18.
- Shchinnikov P.A., Nozdrenko G.V., Borush O.V., Zykov S.V. Optimization operating mode of chpp units. Izvestiya Rossiyskoy akademii nauk. Energetika, 2014, no. 3, pp. 54–60.
- Grin E.A., Kotelnikov V.V., Bochkarev V.I. Reliability and safety of thermal power plants. Features of the present stage. Elektricheskie stantsii, 2016, no. 7, pp. 2–12.
- Chuchueva I.A. The calculation methods of the specific fuel rate in combined heat and electricity production. Nauka i obrazovanie: nauchnoe izdanie MGTU im. N.E. Baumana, 2016, no. 2, pp. 135–165.
- Kuzmina E.I., Shipunova V.V. Assessment of the financial condition of JSC “Kuznetskaya TPS”. Intellektualnyy i nauchnyy potentsial XXI veka. Volgograd, OMEGA SAYNS Publ., 2017, pp. 117–121.
- Lisin E.M., Komarov I.I., Kurdyukova G.N., Sukhareva E.V. Improving methods of the feasibility study of choice of main power equipment for gas turbine power plant. Ekonomika i predprinimatelstvo, 2015, no. 8-1, pp. 716–722.
- Chuchueva I.A., Inkina N.E. Optimization of combine heat and power plants in the Russian wholesale power market conditions. Nauka i obrazovanie: nauchnoe izdanie MGTU im. N.E. Baumana, 2015, no. 8, pp. 195–238.
- Fakhraziev I.Z., Zatsarinnaya Yu.N. Economic and tehnological advantages of use of gas turbine plants at the thermal power station. Vestnik Kazanskogo tekhnologicheskogo universiteta, 2013, vol. 16, no. 3, pp. 291–292.
- Lisin E.M., Zhovtyak P.G., Balakhonov S.Yu., Skoblyanova M.V. Analysis of lines of development of regional heat supply systems subject to union of energy markets of Eurasian Economic Union. Ekonomika i predprinimatelstvo, 2017, no. 6, pp. 912–924.
- Buzhinskiy V.V., Chepurnoy M.N., Reysig V.A., Krivutsa V.A. Heating cogeneration units based on GTP. Promyshlennaya teplotekhnika, 2002, no. 6, pp. 47–50.
- Annual reports of PJSC “Mosenergo”. Mosenergo. URL: mosenergo.ru/investors/reports/yearly-reports/.
- Kler A.M., Maksimov A.S., Chalbyshev A.V., Stepanova E.L. Optimization of cogeneration plant operation for maximization of profit in balancing electricity market. Izvestiya Rossiyskoy akademii nauk. Energetika, 2014, no. 2, pp. 71–80.
- Largest generation companies. Ministerstvo energetiki RF. URL: minenergo.gov.ru/node/4846.
- Veselov F.V., Solyanik A.I. On the mechanisms for implementation of the renewal strategy for heat and power engineering. Energorynok, 2017, no. 3, pp. 15–22.
- Popov A.S. The model of regional development of energy-economics. Uspekhi sovremennoy nauki, 2016, vol. 4, no. 10, pp. 66–69.
- Bogdanov A.B. Boilerhouses in Russia as a national disaster. Portal po trigeneratsii, kogeneratsii i mini-TETs. URL: combienergy.ru/stat/895-Kotelnizaciya-Rossii-beda-nacionalnogo-masshtaba-chast-5.