AUTONOMOUS POWER SUPPLY SYSTEMS WITH RENEWABLE SOURCES OF ENERGY AND SMART GRID
https://doi.org/10.30724/1998-9903-2018-20-5-6-3-10
Abstract
The use of modern devices and technologies in power supply systems will provide consumers with high-quality energy. Especially effective in this direction will be the construction of autonomous systems using renewable energy sources and local smart grids. The coordinated work of all elements of systems and optimal control of energy flows is solved by mathematical modeling methods.
About the Authors
L. M. Chetoshnikova
Branch of State Educational Institution South Ural State University.
Russian Federation
Russian Federation
Larisa M. Chetoshnikova - Ph.D., Professor, Branch of State Educational Institution South Ural State University.
Miass, Chelyabinsk Region.
N. I. Smolentsev
Branch of State Educational Institution South Ural State University.
Russian Federation
Russian Federation
Nikolay I. Smolentsev - Ph.D., Associate Professor, Branch of State Educational Institution South Ural State University.
Miass, Chelyabinsk Region.
S. A. Chetoshnikov
State Educational Institution South Ural State University.
Russian Federation
Russian Federation
Sergey A. Chetoshnikov – postgraduate, State Educational Institution South Ural State University.
Chelyabinsk.
G. V. Gusarov
State Educational Institution South Ural State University.
Russian Federation
Russian Federation
Gleb V. Gusarov – postgraduate, State Educational Institution South Ural State University.
Chelyabinsk.
References
1. Kobets B.B., Volkova I.O. Innovatsionnoe razvitie elektroenergetiki na baze kontseptsii SmartGrid. M.: IATS Energiya. 2010. 208 p.
2. Scheklein S.E., Vlasov V.V. Modelirovanie nestatsionarnykh sluchaynykh protsessov v zadachakh obosnovaniya vozobnovlyaemykh istochnikov energii // Mezhdunarodnyy nauchnyy zhurnal «Al'ternativnaya energetika i ekologiya». No. 03 (107). 2012. P. 67‒71.
3. Liyanage K.M., Yokoyama A., Ota Y., Nakajima T., Taniguchi H. Impacts of Communication Delay on the Performance of a Control Scheme to Minimize Power Fluctuations Introduced by Renewable Generation under Varying V2G Vehicle Pool Size. 1st IEEE International Conference on Smart Grid Communications, Gaithersburg, Maryland, USA, 2010. P. 85‒90.
4. Vel'kin V.I., Loginov M.I. Vybor optimal'nogo sostava oborudovaniya v klastere vozobnovlyaemykh istochnikov energii na osnove regressionnogo analiza. Mezhdunarodnyy nauchnyy zhurnal «Al'ternativnaya energetika i ekologiya». No. 03 (107). 2012. P. 100‒104.
5. Gaponenko A.M., Kagramanova A.A. Metodika i algoritm matematicheskogo analiza mnogofaktornoy modeli optimal'noy konfiguratsii netraditsionnykh vozobnovlyaemykh istochnikov energii // Mezhdunarodnyy nauchno-issledovatel'skiy zhurnal. Iss. No. 4 (46), ch. 2. 2016. P. 76‒79.
6. Kontseptsiya ispol'zovaniya vetrovoy energii v Rossii. /Pod red. P.P. Bezrukikh. M.: «KnigaPenta», 2005. 128 p.
7. Kolosov R.V., Puchenkin A.V., Titov V.V., Titov V.G. Vozobnovlyaemye istochniki energii v sistemakh maloy generatsii. Aktual'nye problemy elektroenergetiki. Materialy nauchno-tekhnicheskoy konferentsii. N. Novgorod, 2013. P. 207‒211.
8. Hui J., Bakhshai A., Jain P.K. A hybrid wind-solar energy system: A new rectifier stage topology. Applied Power Electronics Conference and Exposition (APEC), 2010 Twenty-Fifth Annual IEEE. IEEE, 2010. P. 155‒161.
9. Fesli U., Bayir R., Özer M. Design and implementation of a domestic solar-wind hybrid energy system. Electrical and Electronics Engineering, 2009. ELECO 2009. InternationalConferenceon. IEEE, 2009. P. I‒29‒I‒33.
10. Werner Kleinkauf, Gunther Cramer, Mohamed Ibrahim. PV System Technology. State of the Art Developments and Trends in Remote Electrification. SMA Catalogue, 2007–2008.
11. Kirpichnikova I.M., CHetoshnikov S.A. Modelirovanie kombinirovannoy vetro-solnechnoy ustanovki. Mezhdunarodnyy nauchnyy zhurnal «Al'ternativnaya energetika i ekologiya». No. 7‒8 (195‒196). 2016. P. 25‒31.
Review
For citations:
Chetoshnikova L.M., Smolentsev N.I., Chetoshnikov S.A., Gusarov G.V. AUTONOMOUS POWER SUPPLY SYSTEMS WITH RENEWABLE SOURCES OF ENERGY AND SMART GRID. Power engineering: research, equipment, technology. 2018;20(5-6):3-12. (In Russ.) https://doi.org/10.30724/1998-9903-2018-20-5-6-3-10
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