Abstract
In this paper, wind generator and photovoltaic systems are associated to the diesel generator to supply energy to the DC-bus. The maximum power point tracking methods are applied to the wind generator and photovoltaic systems to increase the renewable energy contributions and to reduce the fuel consumption. Interactions between sources are studied, and the storage device characteristics are analyzed in aims to make a choice of the appropriate storage technologies. The interest of combining the ultracapacitors with the battery, as storage devices, is prospected, and the number of cycles is estimated by using the rainflow counting method. The experimental tests bench is designed in a reduced scale, and some simulations and experimental results are presented and analyzed.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Randolph J, Masters GM (2008) Energy for sustainability, technology, planning, policy. Island Press, Washington DC
Kabouris J, Kanellos FD (2010) Impacts of large-scale wind penetration on designing and operation of electric power systems. IEEE T Sust Energy 1(2):107–114
Li W, Joos G, Bélanger J (2010) Real-time simulation of a wind turbine generator coupled with a battery supercapacitor energy storage system. IEEE T Ind Electron 57(4):1137–1145
Tankari MA, Camara MB, Dakyo B, Nichita C (2011) Wind power integration in hybrid power system with active energy management. Int J Comput Math Elect Electron Eng 30(1):245–263
Tankari MA, Camara MB, Dakyo B, Nichita C (2010) Ultracapacitors and batteries integration in wind energy hybrid system - using the frequencies distribution method. Int Rev Elect Eng IREE 5(2):521–529, ISSN 1827–6679
Guoju Z, Xisheng T, Zhiping Q (2010) Research on battery supercapacitor hybrid storage and its application in microgrid. In: Proceedings of IEEE Asia-Pacific power and energy engineering conference (APPEEC), pp 1–4
Atwa YM, El-Saadany EF (2010) Optimal allocation of ESS in distribution systems with a high penetration of wind energy. IEEE T Power Syst 25(4):1815–1822
Saha TK, Kastha D (2010) Design optimization and dynamic performance analysis of a stand-alone hybrid wind–diesel electrical power generation system. IEEE T Energy Conver 25(4):1209–1217
Brekken TKA, Yokochi A, Jouanne AV, Yen ZZ, Hapke HM, Halamay DA (2011) Optimal energy storage sizing and control for wind power applications. IEEE T Sust Energy 2(1):69–77
John K, Kanellos FD (2010) Impacts of large-scale wind penetration on designing and operation of electric power systems. IEEE T Sust Energy 1(2):107–114
Bragard M, Soltau N, Thomas S, De Doncker RW (2010) The balance of renewable sources and user demands in grids: power electronics for modular battery energy storage systems. IEEE T Power Electr 25(12):3049–3056
Abbey C, Li W, Joós G (2010) An online control algorithm for application of a hybrid ess to a wind–diesel system. IEEE T Ind Electron 57(12):3896
Teleke S, Baran ME, Bhattacharya S, Huang AQ (2010) Optimal control of battery energy storage for wind farm dispatching. IEEE T Energy Conver 25(3):787–794
Khaligh A, Li Z (2010) Battery, ultracapacitor, fuel cell, and hybrid energy storage systems for electric, hybrid electric, fuel cell, and plug-in hybrid electric vehicles: state of the art. IEEE T Veh Technol 59(6):2806–2814
Thounthong P, Chunkag V, Panarit S (2009) Comparative study of fuel-cell vehicle hybridization with battery or supercapacitor storage device. IEEE T Veh Technol 58(8):3892–3904
Burton T, Sharpe D, Bossanyi E (2001) Wind energy handbook. Wiley, New York
Seul-Ki K, Jin-Hong J, Chang-Hee C, Jong-Bo A, Sae-Hyuk K (2008) Dynamic modeling and control of a grid-connected hybrid generation system with versatile power transfer. IEEE T Ind Appl 55(4):1677–1688
Eisenhut C, Krug F, Schram C, Klockl B (2007) Wind-turbine model for system simulations near cut-in wind speed. IEEE T Energy Conver 22(2):414–420
Bleijs JAM (2007) Wind turbine dynamic response–difference between connection to large utility network and isolated diesel micro-grid. IET Renew Power Gen 1(2):95–106
Tankari MA, Camara MB, Dakyo B, Nichita C (2010) Ultracapacitors and batteries integration in wind energy hybrid system - using the frequencies distribution method. Int Rev Electr Eng 5(5)
Stavrakakis GS, Kariniotakis GN (1995) A general simulation algorithm for the accurate assessment of isolated diesel-wind turbines systems interaction. IEEE T Energy Conver 10(3):577–590
Koczara W, Chlodnicki Z, Al-Khayat N, Brown NL (2008) Energy management and power flow of decoupled generation system for power conditioning of renewable energy sources. In: 13th International Power Electronics and Motion Control Conference (EPE-PEMC)
Leuchter J, Bauer P, Zobaa AF, Bojda P (2010) An interface converter of hybrid power sources with supercapacitors. In: Proceedings of 36th annual conference of the IEEE industrial electronics society (IECON’10), pp 3244–3251
Lee JH, Lee SH, Sul S-K (2009) Variable speed engine generator with supercapacitor, isolated power generation system and fuel efficiency. Int Conf IEEE Ind Appl Soc 45(6):2130–2135
Li W, Joos G (2008) A power electronic interface for a battery supercapacitors hybrid energy storage system for wind applications. In: Proceedings of IEEE annual power electronics specialists conference (PESC), pp 1762–1768
MAXWELL Technologies (2009) Product guide-maxwell technologies boostcap ultracapacitors. http://www.maxwell.com/pdf/1014627BOOSTCAPProductGuide.pdf. Doc. No. 1014627
Hammar A, Venet P, Lallemand R, Coquery G, Rojat G (2010) Study of accelerated aging of supercapacitors for transport applications. IEEE T Ind Electron 57(12):3972–3979
Jossen A (2006) Fundamentals of battery dynamics. Power Sources J 154:530–538
Wenzl H et al (2005) Life prediction of batteries for selecting the technically most suitable and cost effective battery. Power Sources J 144:373–384
Bindner H, Cronin T, Lundsager P, Manwell JF, Abdulwahid U, Baring-Gould I (2005) Benchmarking - lifetime modelling. enk6-ct-2001-80576. Riso National Laboratory, Denmark
Hansen AD, Sorensen P, Hansen LH, Bindner H (2000) Models for a stand-alone pv system. Riso National Laboratory, Roskilde. http://www.solenergi.dk/rapporter/sec-r-12.pdf
Christen T, Carlen MW (2000) Theory of Ragone plots. Int J Power Sources 91(2):210–216
Camara MB, Gualous H, Gustin F, Berthon A, Dakyo B (2010) DC/DC converters design for supercapacitors and battery power management in hybrid vehicle applications-polynomial control strategy. IEEE T Ind Electron 57(2):587–597
Chen LR, Wu SL, Chen TR, Yang WR (2010) Study of lead-acid battery charging by using sinusoidal current. Int Rev Electr Eng (IREE) 5(1)
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2014 Springer International Publishing Switzerland
About this chapter
Cite this chapter
Abdou-Tankari, M., Lefebvre, G. (2014). Battery- and Ultracapacitor-Based Energy Storage in Renewable Multisource Systems. In: Lefebvre, G., Jiménez, E., Cabañas, B. (eds) Environment, Energy and Climate Change II. The Handbook of Environmental Chemistry, vol 34. Springer, Cham. https://doi.org/10.1007/698_2014_292
Download citation
DOI: https://doi.org/10.1007/698_2014_292
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-17099-2
Online ISBN: 978-3-319-17100-5
eBook Packages: Earth and Environmental ScienceEarth and Environmental Science (R0)