Assessment of the performance of implementation of facilities renewable energy: the example of the south of Russia

Adopting experience and best practices for stimulating the development of RES in individual regions that most successfully implement RES-based installations into their energy balance is a necessary element in the development of the energy sector of disadvantaged regions, while a methodology is needed to determine what factors influenced the success of implementation and what criteria should be used to compare and to determine the success of the implementation of RES in the region, however, a generally accepted methodology has not been formed to date. It was proposed to determine the leading regions and disadvantaged regions from the point of view of success in introducing renewable energy sources into the regional energy system based on the success of fulfilling the regional demand. To assess the success of the use and implementation of installations based on renewable energy in the regional energy system, it is necessary to identify parameters that reflect the potential of renewable energy sources, the initial state of energy supply in the region, the costs of construction of the installation, the profit received from the sale of generated energy, and the current state of the regional energy system. Based on the developed technique, the six most energyintensive regions included in the operating area of the Southern Branch of United Dispatch Control Center of Russian Power System Operator which have renewable energy power plants were analyzed. The chosen indicator was the share of energy resources generated from renewable energy sources in the total amount of energy resources. Based on the results of the analysis, recommendations were drawn for disadvantaged regions.

1. OON. Mery po bor'be s izmeneniem klimata i Ehlektronnyi resurs. – Rezhim dostupa: https://www.un.org/ru/climatechange/raisingambition/renewable-energy – Zaglavie s ehkrana. – (Data obrashcheniya: 01.11.2023).

2. Z. Xiao, J. Gao, Z. Wang, Z. Yin, L. Xiang, Power shortage and firm productivity: Evidence from the world bank enterprise survey, Energy 247 (2022) 123479.

3. Z. Cranmer, L. Steinfield, J. Miranda, T. Stohler, Energy distributive injustices: Assessing the demographics of communities surrounding renewable and fossil fuel power plants in the United States, Energy Research & Social Science 100 (2023) 103050.

4. S. Ratner, A. Berezin, K. Gomonov, A. Serletis, B.S. Sergi, What is stopping energy efficiency in Russia? Exploring the confluence of knowledge, negligence, and other social barriers in the Krasnodar Region, Energy Research & Social Science 85 (2022) 102412.

5. D. Karamonov, Autonomous renewable energy systems in Russia. Critical review of the current situation, Energy Reports 6 (9) 2020, 31-37.

6. Y. Sun, A. Anwar, A. Razzaq, X. Liang, M. Siddique, Asymmetric role of renewable energy, green inno-vation, and globalization in deriving environmental sus-tainability: Evidence from top-10 polluted countries, Renewable Energy 185 (2022) 280-290.

7. S. Algarni, V. Tirth, T. Alqahtani, S. Alshehery, P. Kshirsagar, Contribution of renewable energy sources to the environmental impacts and economic benefits for sustainable development, Sustainable Energy Technologies and Assessment, 56 (2023) 103098.

8. Q. Wang, Z. Sun, J. Guo, R. Li, The more effective option to combat environmental degradation: Energy efficiency vs. renewable energy vs. natural gas?, Energy, 283 (2023) 128512.

9. M. Sadiq, K. Chavali, V.V. Ajith Kumar, K.-T. Wang, P.T. Nguyen, T.Q. Ngo, Unveiling the relationship between environmental quality, non-renewable energy usage and natural resource rent: Fresh insights from ten asian economies, Resources Policy 85 (A) (2023) 103992.

10. F. Hateftabar, C.M. Hall, Energizing tourism sustainably: A harmonious symphony of tourists’ and locals’ acceptance of renewable energy, Journal of Environmental Management 345 (2023) 118863.

11. E. Tverijonaite, A.D. Sæþórsdóttir, R. Ólafsdóttir, C.M. Hall, How close is too close? Mapping the impact area of renewable energy infrastructure on tourism, Energy Research & Social Science 90 (2022) 102574.

12. G. Kelly, History and potential of renewable energy development in New Zealand, Renewable and Sustainable Energy Reviews, 15 (5) (2011) 2501-2509.

13. Y. An, X. Tan, B. Gu, K. Zhu, L. Shi, Z. Ding, An assessment of renewable energy development in Belt and Road Initiative countries: An entropy and TOPSIS approach, Energy Reports 10 (2023) 3545-3560.

14. I.A. Bokun, E.P. Korsak, Economics of nontraditional and renewable energy sources: Training Manual (in Russian), Belarusian National Technical University, Minsk, 2020.

15. H. Zhang, J. Jiang, M. Song, X. Yong, Comprehensive benefit evaluation of transmission and substation project for renewable energy connection: A case in China, Energy Reports 8 (2022) 12653-12667.

16. D. Zhou, Z. Dong, X. Sang, Q. Wang, X. Yu, Do feed-in tariff reduction and green certificate trading ef-fectively promote regional sustainable development?, Energy 283 (2023) 129042.

17. E.N. Fobissie, The role of environmental values and political ideology on public support for renewable energy policy in Ottawa, Canada, Energy Policy 134 (2019) 110918.

18. M. Ram, A. Aghahosseini, C. Breyer, Job creation during the global energy transition towards 100% renewable power system by 2050, Technological Forecasting and Social Change 151 (2020) 119682.

19. State program of the Rostov region "Energy efficiency and development of the industry and power" (in Russian), URL: https://www.donland.ru/activity/1446/ , Accessed at 12.11.2023.

20. Resolution of the head of administration (governor) of the Krasnodar region dated 14.10.2013 N 1183 “On the establishment of government program of the Krasnodar region “Development of fuel and energy sector” (in Russian), URL: http://pravo.gov.ru/proxy/ips/?doc_itself=&infostr=xO7q8+zl7fIg7vLu4fDg5uDl8vH/IO3lIOIg7+7x6+Xk7eXpIPDl5ODq9ujo&backlink=1&nd=140020283&page=1&rdk=8#I0 , Accessed at 12.11.2023.

21. A.S. Kirichenko, E.V. Kirichenko, Multicriterial evaluation of the site for construction of renewable energy facilities at territory of Krasnodar region (in Russian), Pero, Moscow, 2021.

22. R.A. Amerkhanov, A.V. Bogdan, S.V. Verbitskaya, K.A. Garkavyy, Design of power supply systems: A textbook for university students of the “Agroengineering” specialization (in Russian), Energoatomizdat, Moscow, 2nd ed., 2010.

23. O.V. Grigorash, E.A. Denisenko, Main and aux-iliary equipment of non-traditional and renewable ener-gy: Training manual (in Russian), Kuban State Agrarian University, Krasnodar, 2018.

24. M.B. Altomar, J.A. Passos Filho, Optimization of wind power connection in power systems considering transmission switching technique and distribution factors, Electric Power Systems Research, 224 (2023) 109716.

25. E. Kekle Ahialey, A.T. Kabo-Bah, S. Gyamfi, acts of LULC and climate changes on hydropower generation and development: A systematic review, Heliyon 9 (11) (2023) E21247.

26. E.M. Carlini, R. Schroeder, J.M. Birkebæk, F. Massaro, EU transition in power sector: How RES affects the design and operations of transmission power systems, Electric Power Systems Research 169 (2019) 74-91.

27. H. Wan, Y. Xie, B. Li, Y. Cai, Z. Yang, An inte-grated method to identify and evaluate the impact of hydropower development on terrestrial ecosystem, Environmental Impact Assessment Review 99 (2023) 107042.

28. S. Sarkar, A.K. Nag, R. Kumar, Chapter 7 – An overview of small-scale hydropower and its recent development, in: M. Jeguirim, P. Dutournié (Eds.), Renewable Energy Production and Distribution: Solutions and Opportunities, Volume 2 in Advances in Renewable Energy Technologies, Academic Press, London, 2023, pp. 249-314.

29. B. Batidzirai, E.M.W. Smeets, A.P.C. Faaij, Harmonising bioenergy resource potentials— Methodological lessons from review of state of the artbioenergy potential assessments, Renewable and Sustainable Energy Reviews 16 (9) (2012) 6598-6630.

30. F. Wu, S. Pfenninger, Challenges and opportuni-ties for bioenergy in Europe: National deployment, poli-cy support, and possible future roles, Bioresource Tech-nology Reports 22 (2023) 101430.

31. A.E. Ciriaco, S.J. Zarrouk, G. Zakeri, Geothermal resource and reserve assessment methodology: Overview, analysis and future directions, Renewable and Sustainable Energy Reviews 119 (2020) 109515.

32. Atlas resursov vozobnovlyaemoi ehnergii na territorii Rossii M.: RKHTU im. D.I. Mendeleeva, 2015.

33. Popel' O.S. Vozobnovlyaemye istochniki ehnergii v regionakh Rossiiskoi Federatsii: proble-my i perspektivy // Ehnergosovet. – 2021. - № 5 (18).

34. O.S. Popel, S.E. Frid, S.V. Kiseleva, Y.G. Kolomiets, N.V. Lisitskaya, Climate data for renewable energy in Russia (climate database): Training manual (in Russian), Moscow Institute of Physics and Technology Publishing, Moscow, 2009.

35. A.N. Voznesenskiy, Energetic resources of USSR: Hydropower resources (in Russian, Nauka, Moscow, 1967.

36. Resolution of the Government of the Russian Federation from 08.01.2009 N 1-p (in version from 24.03.2022) “On the establishment of the main directions of government policy on increasing energy efficiency of electric energy generated from renewable energy sources field to year 2035”.

37. K.S. Degtyaryov, Renewable energy in Kalmyk-ia: experience, challenges and prospects of the region (in Russian), Plumbing Heating Conditioning Energy Effi-ciency 7 (2017), URL: https://www.c-ok.ru/articles/vozobnovlyaemaya-energetika-v-kalmykiiopyt-problemy-i-perspektivy-regiona , Accessed at 13.11.2023.