Analyzing the efficiency of using the alternative sources of energy within the territory of the russian federation
| Authors: Zadorozhny E.N., Komkova O.E. |  |
| Published in issue: #1(18)/2018 | |
| DOI: 10.18698/2541-8009-2018-1-224 | |
Category: Economics and Production Organization |
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Keywords: solar power, wind power generator, economical efficiency of the investments, alternative sources of energy, net discount profit, investments |
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| Published: 20.12.2017 | |
The article considers the problem of using the alternative sources of energy within the framework of local use on the territory of the Russian Federation. The purpose of the research conducted is calculating the investments efficiency when creating the systems for providing people in small villages having an optimal infrastructure with the energy generated by the alternative sources of energy. In order to solve the set task we made calculations using two methods of estimating the number of windmills and solar power stations necessary for supplying the urban-type settlements and individual users with energy. We have conducted a comparative analysis of economical efficiency of the investments into the project with the solar power station and wind power generators as in the case of the urban-type settlement with the set number of users. During the comparative analysis of the alternative sources of energy the following factors were taken into account: operation conditions, starting investments, technical characteristics, power-to-weight ratio, energy output prime cost, payback time, area of application.
References
[1] Popel O.S. Efficiency of solar water heaters application in central Russia climate conditions. Energosberezhenie [Energy Saving], 2001, no. 1, pp. 30–34 (in Russ.).
[2] da Rosa A. Vozobnovlyaemye istochniki energii. Fiziko-tekhnicheskie osnovy [Download solution manual fundamentals of renewable energy processes]. Moscow, MEI Publ., 2010. 704 p.
[3] Ekspertnyy portal po voprosam energosberezheniya – Gosudarstvennaya informatsionnaya sistema v oblasti energosberezheniya i povysheniya energeticheskoy effektivnosti. Available at: http://gisee.ru/news/ (accessed 27.09.2017).
[4] Rasch W., Sinchez F., Winter C.-J. Solar energy utilization on the verge of market introduction-facts and figures. 15th Congr. World Energy Counc. Madrid, Sept., 20–25, 1992. Div. 3. Pt. 1. Madrid, 1992.
[5] Andreev V.M., Grilikhes V.A., Rumyantsev V.D. Photovoltaic Conversion of Concentrated Sunlight. Chichester, John Wiley, 1997.
[6] Vilenskiy P.L., Livshits V.N., Smolyak S.A. Otsenka effektivnosti investitsionnykh proektov. Teoriya i praktika [Evaluation of investment projects effectiveness. Theory and practice]. Moscow, Delo Publ., 2008. 1104 p.
[7] Klement’eva S.V. Otsenka effektivnosti innovatsiy pri sozdanii naukoemkoy produktsii [Assessment of efficiency of innovations during creation of the knowledge-intensive production]. Moscow, MGTU im. N.E. Baumana Publ., 2007. 28 p.
[8] Kuhling H. Handbook of Physics Leipzig, Fachbuchverlag, 1965.
[9] Šatkovskis E., Mitkevičius R., Zagadskij V., Stupakova I. An anomalous increase in the fill factor of the current-voltage characteristic in the short-wave region of the solar spectrum for a silicon photocell containing a porous-silicon structure. Technical Physics Letters, 2013, vol. 39, iss. 11, pp. 945–948. DOI: 10.1134/S1063785013110114
[10] Timchenko S.L., Dement’eva O.Yu., Zadorozhnyy N.A. The influence on radiation spectrum characteristic curves of the solar battery. Fizicheskoe obrazovanie v vuzakh [Physics in Higher Education], 2015, vol. 21, no. 1, pp. 87–97 (in Russ.).