[ Log In | Register]
! Skip Navigation Links
Skip Navigation Links
Image of Journal of Applied Nonlinear Dynamics
ISSN:2325-6192 (print)
ISSN:2325-6206 (online)
Journal of Environmental Accounting and Management
António Mendes Lopes (editor), Jiazhong Zhang(editor)
António Mendes Lopes (editor)

University of Porto, Portugal

Email: aml@fe.up.pt

Jiazhong Zhang (editor)

School of Energy and Power Engineering, Xi'an Jiaotong University, Xi'an, Shaanxi Province 710049, China

Fax: +86 29 82668723 Email: jzzhang@mail.xjtu.edu.cn

The Development of Countering Monopolization in the Electric Energy Industry

Journal of Environmental Accounting and Management 8(4) (2020) 311--322 | DOI:10.5890/JEAM.2020.12.001

Vitaly G. Korolev$^{1,2}$

$^{1}$ Basic Department of FAS of Russia, Plekhanov Russian University of Economics 115093, 36 Stremiannyy Lane, Moscow, Russian Federation

$^{2 }$ Federal Antimonopoly Service of the Russian Federation 125993, 11 Sadovaya-Kudrinskaya Str., Moscow, Russian Federation

Download Full Text PDF

 

Abstract

The relevance of the topic is that countering monopolization in the economy and protecting competition is one of the important tasks of the state. The purpose of the paper is the analysis and determination of the directions of development of antimonopoly regulation in the electric energy industry in Russia. It was determined that the market is still monopolized, with rather strict regulation and significant barriers for new entrants. It is proposed to reduce these barriers for access to retail and wholesale markets for new participants, the development of digital energy for the development of competition.

References

  1. [1] Artemyev, I. and Sushkevich, A. (2007), The grounds of the antimonopoly policy of the state, Ekonomicheskaya Politika, 4, 200-206.
  2. [2] Becker, G. (2015), Antitrust Policy (US), Retrieved form https://www.researchgate.net/publication/313993737{\_}Antitrust{\_} Policy{\_}US
  3. [3] Booth, A., Peters, P. and de Jong, E. (2018), Powering the digital economy. Retrieved from https://www.mckinsey.com/ business-functions/mckinsey-digital/our-insights/powering-the-digital-economy{\#}.
  4. [4] Efimov, E., Shevgunov, T., and Filimonova, D. (2016), Angle of arrival estimator based on artificial neural networks, Proceedings International Radar Symposium, 1, 749-755.
  5. [5] Eklund, A., Angland, M., and Woolbank, E. (2019), United States: Energy. Retrieved from https://globalcompetition review.com/insight/americas-antitrust-review-2020/1197805/united-states-energy.
  6. [6] Energy strategy of Russia for the period until 2035 (draft) (2014), Ministry of Energy, Retrieved from https://minenergo.gov.ru/node/1920.
  7. [7] Filimonova, D., Shevgunov, T., and Efimov, E. (2016), A fast algorithm for polynomial E-pulse synthesis, Proceedings International Radar Symposium, 1, 732-749.
  8. [8] Formalev, V.F., Kolesnik, S.A., and Kuznetsova, E.L. (2018), Wave heat transfer in the orthotropic half-space under the action of a nonstationary point source of thermal energy, High Temperature, 56(5), 727-731.
  9. [9] Grigoryev, L. (2019), Digital technologies in the network complex: Energy Bulletin. Retrieved from http://ac.gov.ru/files/ publication/a/14737.pdf
  10. [10] Kloppenburg, S. and Boekelo, M. (2019), Digital platforms and the future of energy provisioning: Promises and perils for the next phase of the energy transition, Energy Research & Social Science 49, 68-73.
  11. [11] Komarov, A.V. and Labusov, M.V. (2014), Antimonopoly regulation at the present stage: problems and prospects, Nauchnyye Zapiski Molodykh Issledovateley, 6, 17-23.
  12. [12] Kuznetsov, Y. and Novikov, V. (2008), Antimonopoly alchemy: transforming interests into rights, Ekonomicheskaya Politika, 2, 1-8.
  13. [13] Kuznetsova, E.L. and Makarenko, A.V. (2018), Mathematic simulation of energy-efficient power supply sources for mechatronic modules of promising mobile objects, Periodico Tche Quimica, 15(1), 330-338.
  14. [14] Kuznetsova, E.L. and Makarenko, A.V. (2019), Mathematical model of energy efficiency of mechatronic modules and power sources for prospective mobile objects, Periodico Tche Quimica, 16(32), 529-541.
  15. [15] Makarenko, A.V. and Kuznetsova, E.L. (2019), Energy-efficient actuator for the control system of promising vehicles, Russian Engineering Research, 39(9), 776-779.
  16. [16] Malikova, O.I. and Zlatnikova, M.A. (2019), National policy in the field of renewable energy development, Public Administration. E-journal, 72, 10-36.
  17. [17] Monast, J. (2018), Electricity Competition and the Public Good: Rethinking Markets and Monopolies. Retrieved from https://ssrn.com/abstract=3275084.
  18. [18] On Approving the Doctrine of Energy Security of the Russian Federation: Decree of the President of the Russian Federation No. 216 dated May 13, 2019. (2019). Retrieved from https://www.garant.ru/products/ipo/prime/doc/72140884/.
  19. [19] Pierce, R.Jr. (2019), Antitrust policy in the new electricity industry, Energy Law Journal, 17(29), 29-58.
  20. [20] Rabinskii, L.N. and Tushavina, O.V. (2019), Composite heat shields in intense energy fluxes with diffusion, Russian Engineering Research, 39(9), 800-803.
  21. [21] Report on the state of competition in the Russian Federation for 2018 (2019), Retrieved from https://fas.gov.ru/docu- ments/685806.
  22. [22] Rosseti Annual Report (2018), Retrieved from https://www.rosseti.ru/investors/info/year/.
  23. [23] Scott, M.F. (2019), Modern U.S. antitrust theory and evidence amid rising concerns of market power and its effects. Retrieved from https://equitablegrowth.org/research-paper/modern-u-s-antitrust-theory-and-evidence-amid-rising-concerns-of-market-power-and-its-effects/?longform=true.
  24. [24] Shevgunov, T. (2019), Using artificial neural networks for time difference of arrival target localization based on reduced discrete cosine transform, Periodico Tche Quimica, 16(33), 530-540.
  25. [25] Shevgunov, T., Efimov, E., and Kirdyashkin, V. (2019), Scattering target identification based on radial basis function artificial neural networks in the presence of non-stationary noise, Periodico Tche Quimica, 16(33), 573-582.
  26. [26] Skvortsov, A.A., Koryachko, M.V., Zuev, S.M., and Demchenkova, A.A. (2019), Melt drops movement over semiconductor surfaces controlled by electric field, Periodico Tche Quimica, 16(33), 681-687.
  27. [27] The main characteristics of the Russian energy sector (2019), Retrieved from https://minenergo.gov.ru/node/532.
  28. [28] The Strategy for the Development of Competition and Antimonopoly Regulation in the Russian Federation for the period until 2030, approved by the Protocol of the Presidium of the FAS Russia dated 03.10.2019 (2019), Retrieved from https://www.garant.ru/products/ipo/prime/doc/72672786/.
  29. [29] Titov, E.S. (2015), Influence factors on the formation of a natural monopoly in the electric energy industry of Russia, Army and Society, 1(44), 4-12.

Copyright © 2011-2023 L & H Scientific Publishing. All rights reserved. Wildcard SSL Certificates