Content
Abstract:
Photovoltaic systems are widely used for autonomous power supply in di? erent branches of industry. In many countries, they are applied mostly for road, park and yard lighting and for signal lighting (road sign, traffic light). Some aspects of autonomous photovoltaic power application, concerned with the application of di? erent types of battery are investigated under conditions typical for the Moscow region. Lithiumion batteries are increasing storage capacity technology for di? erent niches, including stationary, portable and electric transport. Lead-acid batteries are the traditional solution for back-up power and photovoltaic systems. The storage unit usually has a signifi cant infl uence on photovoltaic system costs and operational parameters. The possibility of decreasing capital costs and increasing the life cycle of photovoltaic autonomous systems due to lithium iron phosphatebased batteries is presented in this study.
References:
1. Popel O.S. Fortov V.E. Renewable power in the modern world. Publishing house: MEI publishing house. 2015. 450 S. ISBN978-5-383-00959-8. 2. The Moscow parks can begin to cover at the expense of solar energy//power News. http://energo-news. ru/archives/31060. 3. Solar street lights. https://en.wikipedia.org/wiki/ Solar_street_light. 4. Edensun Illumination. http://www.edensun-led. com/en/index.asp. 5. Internet resource: http://geliomaster.com/catalog/ sunelectro/sunelectro_52039.html. 6. A.B. Tarasenko. Stores of electric energy for systems on the basis of RES: current state and prospects of development.//Materials of the eighth All-Russian scienti? c youth school with the international participation. Moscow. University book. 2012, pp. 148-185. 7. John Baker, New technology and possible advances in energy storage // Energy Policy 36 (2008) 4368-4373. 8. A. Rykovanov. The systems of balance of lithium- ion batteries//the Force electronics, 1 (2009), S. 52-55. 9. Lithium batteries: Status, prospects and future, B. Scrosati, J. Garche //Journal of Power Sources 195 (2010) 2419-2430. 10. The NASA Surface Meteorology and Solar Energy Data Set http://eosweb.larc.nasa.gov/sse. 11. Popel O.S., Fried S.E., Kiselyova S.V., Kolomiyets Yu.G., Lisitskaya N.V. Climatic data for renewable power (base of climatic data). Manual. - M.: OIVT RAS, 2010. 56 p. 12. Popel O.S., Fried S.E., Kolomiyets Yu.G., Kiselyov S.V., Terekhova E.N. The atlas of resources of so lar energy in the territory of Russia. - M.: OIVT RAS, 2010. 84 p. 13. N.A. Komarova, Yu.Y. Ra? kova, A.B. Tarasenko and S.V. Kiseleva, Autonomous power supply using solar energy in Russian Far East regions // MATEC Web of Conferences 112 10011 (2017), p. 1-6. 14. Yu.A. Shinyakov, Yu.A. Shurygin, V.V. Arzhanov, O.A. Teushchakov, A.V. Osipov, K.V. Arzhanov. Independent photo-electric power station.//News of the Tomsk Polytechnic University. 2012. T. 320. No. 4, page 133-138. 15. web-site Wiston Battery Ltd; http://www.thunder-sky.com/products_en.asp?? d=111&? d2=115.
Keywords
Recommended articles