Istrazivanja i projektovanja za privreduJournal of Applied Engineering Science

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POWER ENGINEERing: NUCLEAR POWER PLANTS AND RENEWABLE ENERGY SOURCES


DOI: 10.5937/jaes15-14950
This is an open access article distributed under the CC BY-NC-ND 4.0 terms and conditions. 
Creative Commons License

Volume 15 article 418 pages: 356 - 366

Alexander Solovyev
Lomonosov Moscow State University, Russia

Andrey Pustovgar
Moscow State University of Civil Engineering, Russia

Aleksey Adamtsevich
Moscow State University of Civil Engineering, Russia

Liubov Shilova
Moscow State University of Civil Engineering, Russia

Kirill Degtyarev
Lomonosov Moscow State University, Russia

The article considers a comparative dynamics of power engineering development based on the use of nuclear energy and renewable energy sources from 1960s up to now. The authors evaluate the parameters of environmental and economic efficiency, risks and prospects of power engineering development based on various types of energy carriers. It is shown that the reduction of the share of nuclear power engineering in the world energy balance cannot be compensated due to renewable energy sources, and it would cause the increase in the use of fossil fuels. The authors come to the conclusion about the necessity of a parallel development of both the renewable energy sources and the nuclear power engineering

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BP, “BP Statistical Review of World Energy June 2015,” Br. Pet., no. June, p. 48, 2015.  EIA, “Today in Energy - Daily Prices - Prices - U.S. Energy Information Administration

(EIA),” US Energy Information Administration, 2017. . IEA, “Key World Energy Statistics 2014,” 2014.

“Mauna Loa Observatory (MLO): Daily CO2,” https://www.co2.earth, 2017. [Online]. Available: https://www.co2.earth/daily-co2? [Accessed: 14-Sep-2017].

J. G. Olivier, G. Janssens-Maenhout, M. Muntean, and J. A. H. . Peters, Trends in global CO2 emissions: 2014 Report, vol. 1490. 2014.

S. Schlomer, T. Bruckner, L. Fulton, E. Hertwich, A. McKinnon, D. Perczyk, J. Roy, R. Schaeffer, R. Sims, P. Smith, and R. Wiser, “Annex III: Technology-specific cost and performance parameters,” Clim. Chang. 2014

Mitig. Clim. Chang. Contrib. Work. Gr. III to Fifth Assess. Rep. Intergov. Panel Clim. Chang., pp. 1329–1356, 2014.

EC, “External costs: Research results on socio- environmental damages due to electricity and transport,” 1997.

Energy Information Administration, “Levelized Cost and Levelized Avoided Cost of New Generation Resources in the Annual Energy Outlook 2016,” US Energy Inf. Adm., no. August, pp. 1–20, 2016.

U. S. E. I. Adminstration, “Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants,” US Dep. Energy, no. April, pp. 1–201, 2013.

A. Soloviev, K. Degtyarev, A. Zalikhanov, and K. Chekarev, “Regional and local geographical potentials of renewable energy sources in Russia - доклад на конференции,” International Geographical Union (IGU) Regional Conference 2015, 2015. [Online]. Available: http://demo.istina.msu.ru/conferences/presentations/ 10622309/. [Accessed: 14-Sep- 2017].

O. Andersen, Unintended Consequences of Renewable Energy, vol. 140. 2013.

V. V Kostyuk, A. A. Makarov, and T. A. Mitrova, “Energy and geopolitics,” portal RFBR.[Electronic Resour. http//www rfbr. ru“ RFBR” Bull., 2011

K. Degtyarev, A. Zalikhanov, Beryozkin M., A. Solovyev, and O. Sinyugin, “Innovations in renewable energy – the start-ups of scientific cooperation - доклад на конференции,” in Swiss energy seminar Watt d’Or, 2015