An Active-Parallel Hybrid Energy Storage System Applied for Regulating Fluctuant Wind Power

Peng Yu; Ogidi Stephen Oodo; He Ping Zou; Dong Wang; Hui Sun

doi:10.4028/www.scientific.net/AMR.347-353.2869

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 347-353An Active-Parallel Hybrid Energy Storage System...

An Active-Parallel Hybrid Energy Storage System Applied for Regulating Fluctuant Wind Power

Abstract:

In this paper, the wind power fluctuation is divided into three categories. For the purpose of balancing all kinds of wind power fluctuation to enhance the penetration levels of wind power, we propose an active-parallel hybrid energy storage system (APHESS). The APHESS is composed of a battery, a supercapacitor, and two charge-discharge controllers. By combining the battery with the supercapacitor, the APHESS obtains the enhanced energy storage performance. Therefore, the investment cost can be reduced. By the reasonable design on the operation mode of APHESS, the APHESS can interchange power precisely with the wind power system. Furthermore, the battery and supercapacitor can suppress separately different kinds of wind power fluctuation to make their own energy storage properties fully utilized. The APHESS can be widely used in wind farm for the real-time regulation on wind power

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Periodical:

Advanced Materials Research (Volumes 347-353)

Pages:

2869-2874

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.347-353.2869

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Online since:

October 2011

Authors:

Peng Yu, Ogidi Stephen Oodo, He Ping Zou, Dong Wang, Hui Sun

Keywords:

Battery, Energy Storage, Operation Mode, Super-Capacitor (SC), Wind Power Regulation

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References

[1] Changlin Luo and Boon-Teck Ooi: IEEE Transactions on Energy Conversion Vol. 21 (2006), p.708

Google Scholar

[2] John Kabouris and F. D. Kanellos: IEEE Transactions on Sustainable Energy Vol. 1 (2010), p.107

Google Scholar

[3] R. A. Dougal, Shengyi Liu, and Ralph E. White: IEEE Transactions on Components and Packaging Technologies Vol. 25 (2002), p.120

Google Scholar

[4] Lijun Gao, Roger A. Dougal, and Shengyi Liu: IEEE Transactions on Power Electronics Vol. 20 (2005), p.236

Google Scholar

[5] Chad Abbey, Kai Strunz, and Geza Joos: IEEE Transactions on Energy Conversion Vol. 24 (2009), p.539

Google Scholar

[6] B. E. Conway: Electrochemical Supercapacitors: Scientific Fundamentals and Technological Applications (Kluwer Academic/Plenum Publishers, New York 1999)

Google Scholar

[7] Sercan Teleke, Mesut E. Baran, Subhashish Bhattacharya, and Alex Q. Huang: IEEE Transactions on Energy Conversion Vol. 25 (2010), p.787

Google Scholar