The conceptual model mechanism of integrated optimization of energy load schedules volatility on Russian energy resources
UDC: 338.984+622.691
DOI: -
Authors:
DZYUBA ANATOLY P.
1
1 South Ural State University (National Research University), Chelyabinsk, Russia
Keywords: integrated optimization of energy load schedules volatility, demand for electric energy, demand for natural gas, increase of energy efficiency, mechanism for integrated optimization of energy load schedules volatility, principles of integrated optimization of energy load schedules volatility, electric power industry, gas industry
Annotation:
The article considers a development mechanism for integrated optimization of the volatility of energy load schedules for gas and electricity consumption on the scale of the Unified Energy System and the Unified Gas Supply System of Russia, operating within the framework of a conceptual model of the volatility of energy load schedules for Russian energy resources. The materials developed the main elements of the mechanism for integrated optimization of the volatility of energy load schedules, consisting of requirements and principles of management, organizational and functional structure of control elements, information support of the control mechanism, regulatory-legislation and economic laws and restrictions, methodological support of the control mechanism. The article develops requirements to the integrated mechanism optimizing the energy load schedules volatility for gas and electricity in Russia, principles of integrated optimization of the schedules volatility, allowing the most effective optimization of these schedules at all levels of management. The developed mechanism for integrated optimization of the energy load schedules volatility with the specification of a set of technological and economic direct and reverse relationships between the elements of the mechanism allows consistent fulfillment of the task at all levels of the Unified Energy System and the Unified Gas Supply System of Russia, taking into account the following: – specific features of the formation of uneven energy consumption at each management level; – implementation of the functions of each level of the mechanism for integrated optimization of the volatility of energy load schedules for the consumption of electricity and network natural gas. The presented scheme for implementing the developed mechanism for integrated optimization of the energy load schedules volatility of gas and electricity consumption also allows taking into account the relationships and interdependence of uneven energy consumption at all levels; fulfilling the developed requirements to the integrated model; implementing the principles of integrated management, which allows, by taking into account the hierarchical relationships of all levels of the power system, to increase the efficiency of the entire model.
Bibliography:
1. Energy management considering demand response resource in commercial building with chiller system and energy storage systems / J. Son, R. Hara, H. Kita, E. Tanaka // The 2nd IEEE Conf. on Power Engineering and Renewable Energy (ICPERE), Bali, Indonesia, Dec. 09–11. – 2014. – P. 96–101. – DOI: 10.1109/ICPERE.2014.7067239
2. Torriti J. Peak Energy Demand and Demand Side Response. – 1st Edition. – London: Routledge, 2015. – 188 p. – DOI: 10.4324/9781315781099
3. Jidong Wang, Yuhao Yang, Wei He. A research of the strategy of electric vehicle ordered charging based on the demand side response // 2015 6th Int. Conf. on Power Electronics Systems and Applications (PESA), Hong Kong, Dec. 15–17. – 2015. – P. 1–5. – DOI: 10.1109/PESA.2015.7398896
4. Demand response in China / Jianhui Wang, C.N. Bloyd, Zhaoguang Hu, Zhongfu Tan // Energy. – 2010. – Vol. 35, Issue 4. – P. 1592–1597. – DOI: 10.1016/j.energy.2009.06.020
5. Zehir M.A., Batman A., Bagriyanik M. Review and comparison of demand response options for more effective use of renewable energy at consumer level // Renewable and Sustainable Energy Reviews. – 2016. – Vol. 56. – P. 631–642. – DOI: 10.1016/j.rser.2015.11.082
6. Dzyuba A.P., Solov'eva I.A. Upravlenie sprosom na energoresursy v global'nom ekonomicheskom prostranstve. – Chelyabinsk: Izdat. tsentr YuUrGU, 2021. – 260 s.
7. Volkova I.O. Intellektual'naya energetika v Rossii: otsenka sushchestvuyushchego potentsiala razvitiya // EKO. – 2016. – № 12(510). – S. 90–100.
8. Dzyuba A.P., Solov'eva I.A. Model' upravleniya zatratami promyshlennykh predpriyatiy na pokupku prirodnogo gaza na tovarno-syr'evoy birzhe // Problemy ekonomiki i upravleniya neftegazovym kompleksom. – 2018. – № 2. – S. 25–33.
9. Dzyuba A.P. Teoriya i metodologiya upravleniya sprosom na energoresursy v promyshlennosti: monogr. – Chelyabinsk: Izdat. tsentr YuUrGU, 2020. – 323 s.
10. Evseeva S.A. Analiz podkhodov k opredeleniyu sushchnosti mekhanizma upravleniya // Problemy sovremennoy ekonomiki. – 2014. – № 2(50). – S. 164–167.
11. Mukhin V.I. Osnovy teorii upravleniya: ucheb. – M.: Ekzamen, 2002. – 256 s.
12. Gitel'man L.D., Ratnikov B.E., Kozhevnikov M.V. Upravlenie sprosom na energiyu v regione // Ekonomika regiona. – 2013. – № 2(34). – S. 71–84.
13. Khanaev V.V. Teplonakopiteli kak perspektivnoe oborudovanie dlya upravleniya sprosom na elektricheskuyu energiyu // Energetika, upravlenie, kachestvo i effektivnost' ispol'zovaniya energoresursov: sb. tr. sed'moy vseros. nauch.-tekhn. konf. s mezhdunar. uchastiem, Blagoveshchensk, 04–06 iyunya 2013 g. – Blagoveshchensk: Amurskiy gos. un-t, 2013. – S. 509–513.
14. Materialy ofitsial'nogo sayta AO "Administrator torgovoy sistemy optovogo rynka elektroenergii". – URL: https://www.atsenergo.ru/
15. Model' optimizatsii sprosa na rassredotochennykh rynkakh potrebiteley gaza i monopol'nogo predlozheniya OAO "Gazprom" / N.I. Il'kevich, T.V. Dzyubina, Zh.V. Kalinina, S.T. Okuneva // Vestn. IrGTU. – 2014. – № 4(87). – S. 133–138.
16. Voropay N.I., Stennikov V.A. Integrirovannye intellektual'nye energeticheskie sistemy // Izv. RAN. Energetika. – 2014. – № 1. – S. 64–73.
17. Kononov D.Yu., Velichko M.A., Sakharovskaya K.S. Upravlenie sprosom na elektroenergiyu u potrebiteley // Vestn. Angarskogo gos. tekhn. un-ta. – 2019. – № 13. – S. 35–39. – DOI: 10.36629/2686-777x-2019-1-13-35-39
18. Kolibaba V.I., Kukukina I.G., Tarasova A.S. Ekonomicheskaya bezopasnost' kompaniy energetiki // Sovremennye naukoemkie tekhnologii. Regional'noe prilozhenie. – 2019. – № 2(58). – S. 54–63.
19. Dzyuba A.P. Upravlenie sprosom na energoresursy promyshlennykh predpriyatiy: teoriya i metodologiya: dis. … d-ra ekon. nauk: 08.00.05. – Chelyabinsk, 2020. – 542 s.
20. Dzyuba A.P. Povyshenie energeticheskoy effektivnosti ekonomiki Rossii na osnove kompleksnogo upravleniya sprosom na elektroenergiyu i gaz // Problemy ekonomiki i upravleniya neftegazovym kompleksom. – 2019. – № 9(177). – S. 38–50. – DOI: 10.33285/1999-6942-2019-9(177)-38-50
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