Development of the Project Management Mechanism Based on Renewable Energy Sources for the Northern Regions of Russia

  • Xiang Li
  • Aleksandr S. BovkunEmail author
  • Galina M. Beregova
  • Aleksandr F. Schupletsov
  • Yullia A. Skorobogatova
Conference paper
Part of the Springer Proceedings in Business and Economics book series (SPBE)


This work analyzes the development and functioning of power supply systems in the northern regions of Russia. The authors identify different peculiarities leading to a low level of reliability of energy supply for consumers in the northern territories of the country. This work reveals that the increase in the energy efficiency of the closed territories is considered using non-traditional renewable energy sources. The use of renewable energy sources in underdeveloped territories has become a priority direction of the development of economically developed countries of the world. The authors developed a project management mechanism based on renewable energy sources. The proposed mechanism for introduction of energy-efficient projects based on renewable energy sources includes a sequence of seven stages, which allows covering the entire list of works in the northern region and organizing effective management of the implementation of projects.


  1. Aizenberg, N., & Stashkevich, E. (2015). Pricing mechanism for electricity demand management to optimize operation of power supply systems. In International Conference on Problems of Critical Infrastructures and 6th International Conference on Liber and Modern of Power System (pp. 161–167).Google Scholar
  2. Arai, J., Yamazaki, S., Ishikawa, M., & Ito, T. (2009). Study on a new power control of distributed generation in an isolated microgrid. IEEE Power & Energy Society General Meeting.Google Scholar
  3. Gerasimov, D. O., & Ukolova, E. V. (2016). Algorithm for calculating the economic efficiency of construction of distributed generation. Improving the efficiency of production and use of energy in Siberia. In Mater of the All-Russian Scientific-Practical Conference with International Participation (pp. 400–405).Google Scholar
  4. Good, N., Karangelos, E., Navarro-Espinosa, A., & Mancarella, P. (2015). Optimization under uncertainty of thermal storage-based flexible demand response with quantification of residential users' discomfort. IEEE Transaction on Smart Grid, 6(5), 2333–2340.CrossRefGoogle Scholar
  5. Kiushkina, V. R. (2016). Problems of autonomous power supply systems in the indicative assessment of energy security of the local energy zone. International Journal of Applied and Fundamental Research, 12(5), 780–784.Google Scholar
  6. Mochalin, S. M., & Chuvikova, V. V. (2011). Analysis of methods for assessing the performance of enterprises. In Proceedings of the III International Scientific and Practical Conference Economic Science in Russia and Abroad”.Google Scholar
  7. Sosnina, E. N., Kechkin, A. Y., & Filatov, D. A. (2014). Issue of power supply to consumers remote from the network infrastructure. Proceedings of Nizhny Novgorod State Technical University RE Alekseev, 5(107), 100–105.Google Scholar
  8. Surzhikova, O. A. (2012). Problems and the main directions of development of supply to remote and sparsely populated consumers in Russia. Journal of Science of Siberia, 3(4), 103–108.Google Scholar
  9. Suslov, K. V. (2015). Economics and renewable energy sources. In B. L. Thalhamer (Ed.) Problems of Development of Mineral Base of East Siberia Collection of scientific works (Issue 15) (pp. 94–98).Google Scholar
  10. Suslov, K. V. (2017). Development of power supply systems for isolated territories of Russia using renewable energy sources. Bulletin of Irkutsk State Technical University 21(5, 124), 131–142.Google Scholar
  11. Suslov, K. V., Solonina, N. N., & Gerasimov, D. O. (2017). Modern approaches to the assessment of the quality of electric energy. News of higher education institutions. Energy Problem 19(7–8), 85–93.Google Scholar
  12. Voropai, N. I. (2018). Energy systems research and historical aspects. In Proceedings and Programs of International Workshop (pp. 8–12).Google Scholar
  13. Voropai, N. I., & Stennikov, V. (2012). Innovative directions of development and management of the functioning of the integrated systems of power supply of the cities. In III International Science and Technical ConferenceElectricity Through the Eyes of Young People” (Vol. 1).Google Scholar
  14. Voropai, N., & Suslov, K. V. (2018). Problems of justification of development of active systems of power supply. Industrial Power Engineering, 1, 2–6.Google Scholar
  15. Voropai, N., Styczynski, Z., Komarnicki, P., Stepanov, V., Suslov, K., & Stashkevich, E. (2017). Energy-intensive manufacturing enterprises as active players in demand side management system. In IEEE Innovative Smart Grid Technologies Conference Europe Series, (No. 7856321).Google Scholar
  16. Voropai, N., Stennikov, V. A., Novitsky, N. N., & Palamarchuk, S. A. (2018). Results of systematic research of problems of functioning of energy of Russia. In System Studies in Energy: Methodology and Results Moscow (pp. 28–47).Google Scholar

Copyright information

© Springer Nature Switzerland AG 2020

Authors and Affiliations

  • Xiang Li
    • 1
  • Aleksandr S. Bovkun
    • 2
    Email author
  • Galina M. Beregova
    • 2
  • Aleksandr F. Schupletsov
    • 3
  • Yullia A. Skorobogatova
    • 3
  1. 1.Chinese Geological UniversityBeijingChina
  2. 2.Institute of Economics, Management and LawIrkutsk National Research Technical UniversityIrkutskRussia
  3. 3.Enterprise Economics and Entrepreneurship DepartmentBaikal State UniversityIrkutskRussia

Personalised recommendations